PROGRAM BOOK

Message from the General Co-Chairs

On behalf of the Symposium Organizing Committee and the Administrative Committee of the IEEE Ultrasonics, Ferroelectrics, and Frequency Control Society, we would like to welcome you in Kobe, Japan for participating in the 2018 IEEE International Ultrasonics Symposium, that will be held October 22-25, 2018, at the Portopia Hotel in Kobe, Japan. The site of the symposium is located on Kobe Port Island. This is the second time the Symposium will come to Japan. First time was Sendai, Japan in 1998. Originally, the 2011 IEEE International Ultrasonics Symposium was scheduled to be held in Kobe. But due to extensive uncertainties resulting from the M-9 earthquake that devastated part of Japan, the venue was changed to its back-up (Orlando, FL, USA). Thus coming back to Japan is symbolic as its recovery from the disaster. This year’s Technical Program Committee, chaired by Jan D’hooge, has worked hard to put together another outstanding technical program. As before, there will be a mix of invited and contributed papers. Student paper awards will be also given this year. Kobe itself is well known as a city having a unique style with the exotic atmosphere in Japan, which has been affected by the foreign cultures and flourished as the international port since old days. World Heritage Himeji Castle known as “White Heron Castle” can be reached from the Symposium venue in one hour by regional trains. World Heritage Kyoto might be well known. But we do not arrange a guided tour because one day trip is too short to look around there. We strongly recommend that you plan for an extended visit to Kyoto on the week-end before or after the symposium. World Heritage Nara, which is well known from 1,200 years’ history, can be reached easily from Kyoto. We are looking forward to an excellent program, and to the opportunity of welcoming you at the 2018 IEEE International Ultrasonics Symposium in Kobe.

Ken-ya Hashimoto, Chiba University Clemens Ruppel, EPCOS AG, retired General CoChair General CoChair

Gold Sponsors

Sponsors

Registration Information

Registration Type Before September 17, 2018 After September 17, 2018 IEEE Members* $725 $875 Non-IEEE Members* $925 $1075 Student* $250 (IEEE Member) $400 (IEEE Member) (Show valid student ID at conference) $425 (Non-IEEE Member) $550 (Non-IEEE Member) Retiree* $250 $400 Life IEEE Member* $250 $400 (Show life member card at conference) One-Day Registration** $400 $400 $250 (One Short Course) $350 (One Short Course) Short Courses*** $400 (Two Short Courses) $500 (Two Short Courses) Short Courses *** $150 (One Short Course) $250 (One Short Course) (Student with valid student ID) or Retiree $250 (Two Short Courses) $400 (Two Short Courses) Guest**** $175 $175 Banquet $90 $90 Industry & University Employer / Job Seeker Network Session, Monday, October 22, 7:00 – 10:00 PM Women in Engineering Lunch, Wednesday, October 24, 12:00 – 1:30 PM * Registration includes access to all sessions, exhibits, welcome reception, banquet, conference program, and password-controlled internet access to the conference proceedings. Short courses are not included. **One Day Registration includes password-controlled internet access to the conference proceedings and reception (if it coincides with the day of reception), but it does not include banquet. The banquet is optional and is $90. ***Short Course Only Registration does not include access to conference sessions, banquet, reception, or exhibits. It includes password-controlled internet access to the conference proceedings. ****Guest registration includes attendance at the Wednesday night banquet, the Tuesday night reception, coffee breaks, the Wednesday evening Awards Ceremony and Concert, the Tuesday Plenary Talk and the Thursday Closing Ceremony. Guests are NOT allowed to attend any technical sessions other than the Plenary Session. Only ages 10 and older need to register. Life Member is defined by IEEE as at least 65-years old and the age plus years of IEEE membership should be equal or greater than 100. Life members should show their IEEE Life Member card or evidence of Life Membership when getting registration materials. Refunds: General attendees (non-authors) are eligible for a registration refund if the refund is requested in writing prior to September 17, 2018 and will incur a processing fee of $50. There are no registration refunds after September 17, 2018. Exceptions may apply for individuals affected by government-imposed travel restrictions. See symposium website for details. Authors who have uploaded their papers are NOT entitled to refunds.

Registration Room

The Registration Room （Matsu and Take) locates in the B1 floor of Main Building of the Portopia Hotel.

Sunday: 6:00 pm – 9:00 pm Monday to Wednesday: 7:00 am–5:00 pm Thursday: 7:00 am–4:00 pm

Speaker Ready Room

The Speaker Ready Room （Rose and Iris) locates in the B1 floor of South Wing of the Portopia Hotel. Please check submitted presentation data in person to the Speakers ́ Ready Room at least half day before the beginning of session. For the morning sessions please check presentations by the end of the prior day. The Speaker ready hours for submitting presentations are: Monday: 12:00 am–5:00pm Tuesday and Wednesday: 7:00 am–5:00pm Thursday: 7:00 am–4:00pm

IEEE Event Photography Statement

Attendance at, or participation in this conference constitutes to the use of distribution by IEEE of the attendee’s image or voice for informational, publicity, promotional and/or reporting purpose by print or electronic communications media. No flash photography will be used. Video recording by participants and other attendees during any portion of the conference is not allowed without special prior written permission of IEEE. Photographs of PowerPoint or other slides as well as posters are not permitted.

IEEE Non-Discrimination Policy

IEEE is committed to the principle that all persons shall have equal access to programs, facilities, services and employment without regard to personal characteristics not related to ability, performance or qualification as determined by IEEE Policy and/or applicable laws. Industry & University Employer / Job Seeker Network Session Sponsored by Onscale

This event will give students the opportunity to network with employers in academic and industrial setting. It will be held on Monday, October 22 from 7:00 pm to 10:00 pm. The event will start with a speed networking activity, where students will present two-minute elevator pitches to industry members. A social reception will follow, where students and industry members will be able to network with each other. You must register for this event when you register for the symposium, indicating participation as a student or employer.

Monday, October 22 from 7:00– 10:00 pm Location: Nunoniki/Kitano (Main Building B1F)

Student Lunch

All students attending IUS are invited to participate in a complementary lunch on Tuesday, October 23 from 12:00 to 1:30 pm. This is a great opportunity for students to network with future colleagues, and meet the Administrative Committee members of the UFFC Society.

Tuesday, October 23 from 12:00 – 1:30 pm Location: Rainbow (South Wing 16th Floor)

Student-Professor Breakfast Sponsored by IEEE UFFC ADCOM

This event is addressed for student members to have the opportunity to network with society academic leaders over breakfast sponsored by UFFC. It will be held on Thursday, October 25 from 7:00 am to 8:00 am. One-on-one tables are assigned, for each student and professor, matched by common research topics at the conference. For this event, registrations will be based on a first come-first served basis, by email invitation from UFFC Student AdCom, after registration for the symposium.

Thursday, October 25 from 7:00 – 8:00 am Location: Cosmopolitan (Main Building 2F)

Women in Engineering

All women active in the technical areas of the IUS are invited to attend and participate in an elevator pitch networking lunch organized by the women in UFFC group on Wednesday October 24 from 12:00 – 1:30 pm. The event will start with a primer on elevator pitches, then transition to participants sharing their prepared pitches in small groups, and end with a select few pitches to be shared with all participants for judging and critique. All attendees are encouraged to come prepared with an elevator pitch to contribute to the success of this event. This is also a great opportunity to share your latest research projects, network with fellow women in the ultrasound field, and meet organization members of the UFFC society.

Location: Rainbow (South Wing 16th Floor)

Contact:

Muyinatu A. Lediju Bell, Ph.D. IEEE UFFC WIE Committee, Ultrasonics Representative Assistant Professor & PULSE Lab Director Johns Hopkins University Email: [email protected]

Challenge Session Sponsored by Verasonics

Given the positive response to the IUS 2016 challenge on plane wave imaging (PICMUS), IUS 2018 will host a new challenge on synthetic aperture (SA) 2-D vector flow imaging (VFI). The challenge was coordinated Jørgen Arendt Jensen (DTU) and consists on estimating blood flow velocities from both simulated and measured ultrasound RF element data sets. The challenge will be deployed using a similar web platform as the one used for the PICMUS challenge. The results will be presented during the next IEEE International Ultrasonics Symposium 2018 in Kobe (Japan) on Wednesday October 24 from 12:00 – 1:30 pm. Complementary lunch boxes will be provided for those participating in the session.

All information can be found in the attached PDF file 2018_IEEE_IUS_SA-VFI_Challenge or following the link to the challenge website Webpage for SA-VFI Challenge.

Location: room Ruby (South Wing B1F)

Joint Sessions

IUS traditionally hosts lectures in different technical disciplines of ultrasonics. In order to stimulate cross-talk between disciplines on topics that are of mutual interest, two joint sessions have been set up at IUS 2018.

The Spotlight Session on Photo-acoustics (Tuesday 10:30am-12:00pm; room Diamond) hosts three invited lecturers that address photo-acoustics from the perspectives of Medical Ultrasonics; Sensors, NDE & Industrial application; and Physical acoustics.

The Special Session on Technologies and Challenges for 3D Imaging (Wednesday 10:30am- 12:00pm; room Ruby) provides the perspectives from Medical Ultrasonics and Transducers and Transducers material by 4 contributed presentations followed by a 30min expert panel discussion.

Conference Proceedings In order for the 2018 IEEE International Ultrasonics Symposium Proceedings to be published in a timely manner, it is important that authors follow the submission instructions to the best of their ability. Conference attendees will receive electronic access to the conference proceedings containing all papers presented at the conference as part of their full registration fee. As the Proceedings is a record of the 2018 IEEE International Ultrasonics Symposium, only those papers which are actually presented and defended at the Symposium by the author during either an oral or a poster session will be accepted for publication in the Proceedings. In the event that an author is unable to personally present the paper, she/he MUST be represented in either the poster or oral session by an individual who is qualified to discuss the technical material in the paper and who will remain in attendance for the full session in which the paper is presented. All the session chairs will be recording the presenters attendance, both oral and poster, and sending the results to the Proceedings Editor. All presenters, both oral and poster, are encouraged to publish in the conference proceedings. Full paper submissions are limited to four (4) single-side pages in the required two-column format. Invited papers can be up to ten (10) pages in length. For all papers: two (2) extra pages may be used at an excess page charge of $125/page. Payments for excess page charge are part of the paper submission process. Instructions for the generation of the conference papers can be found at the IEEE Proceedings Author Tools Box at the following website: http://www.ieee.org/conferences_events/conferences/publishing/templates.html. Here you will find Manuscript Templates for Conference Proceedings, IEEE Citation Reference, and IEEE Keyword Guidelines. Part of the paper submission process involves standard conversion to PDF, and the authors will be given the opportunity to approve the converted files before the completion of the submission process. As part of the submission process, the author will have to indicate that they have read and conformed to the IEEE Proceedings formatting standards. Authors may risk having their paper not included in the proceedings if there is excessive deviations from the IEEE format standards. Our publication schedule will not allow the authors to make changes to their manuscripts after the deadline. If the papers deviate from the standard format they will be removed from publication. CALL FOR PAPERS

All abstracts should be submitted in electronic form according to the abstract guidelines available on the website. Each abstract will be carefully reviewed and evaluated by the Technical Program Committee. Papers are solicited for this conference describing original work in the field of Ultrasonics from the following subject classifications:

M e d i c a l Ultrasonics

Sensors, NDE & Industrial Applications

Physical Acoustics

Microacoustics - S A W, B A W & M E M S Transducers & Transducer M a t e r i a l s

K E Y D AT E S ABSTRACT SUBMISSION AND CONTACT Submission Open Visit our website for further information regarding the guidelines and Friday, 08 February 2019 deadlines to submit your abstract Submission Deadline sites.ieee.org/ius-2019/abstract-submission/ Monday, 08 April 2019 Notification to Authors For any queries regarding abstract submissions, please contact Friday, 07 June 2019 [email protected]

EXPLORING SCOTLAND We encourage all delegates to explore Glasgow and Scotland together with family, friends and colleagues before or after IEEE IUS 2019. The Scottish Exhibition Centre (SEC) is located close to the city centre of Glasgow, with a variety of accommodation options, restaurants, parks and sights nearby. Visit our website for recommended tours and travel inspiration! WE LOOK FORWARD TO WELCOMING YOU TO IEEE IUS 2019! Exhibitors

Acertara Acoustic Labs At Acertara, we are focused on advancing both the science and application of diagnostic ultrasound. We offer unique and patented ultrasound probe testing devices, our ISO17025:2005 accredited FDA and IEC.

Acoustic Life Science Co., Ltd. Founded in Zhangjiang Hi-tech Park, Shanghai, Acoustic Life Science Co., Ltd. (ALS) is specialized in high-end medical imaging ultrasound products, including ceramic probes, composite/single crystal probes, high frequency probes and imaging catheters.

Advanced Modular Systems, Inc. Advanced Modular Systems, Inc. http://www.amssb.co (known as AMSystems, or AMS, Inc.) is a world leader in manufacturing of deposition systems for Piezoelectric AlN and AlScN thin films as well as thickness and frequency trimming used in FBAR/BAW/SAW and other wireless applications.

Advanced OEM Solutions High-performance, compact phased array and multichannel ultrasound instruments that are open platform for customizing dedicated applications. Offerings include advanced imaging technology like Full-Matrix Capture (FMC), Total Focusing Method (TFM) and Ultra Fast Data Speeds at 160MB/s.

Cephasonics Ultrasound Solutions Providing complete custom high-performance AI-enabled ultrasound systems for research, product development and OEM ultrasound applications.

Cornes Technologies, Ltd. & PhotoSound CORNES offers tabletop 3D PAFT & PAM Imaging Systems, fast acquisition switchable PAM upgrade with MEMS mirror. For In Vivo Imaging of capillaries, single cell to organ. Non-invasive molecular imaging tools for advanced cancer, brain, regenerative tissue and developmental biology research applications. Our partner PhotoSound Technologies Inc. is a research, development, and manufacturing company specializing in biomedical applications of photoacoustic imaging.

CYBERDYNE, Inc. Cyberdyne offers Photoacoustic Imaging Systems.

Doppler Electronic Technologies Co., Ltd. Doppler’s Products- 1. Conventional Ultrasonic / Phased Array Flaw Detectors; 2. Ultrasonic Thickness Gauge; 3. Conventional / Phased Array Transducers; 4. Cobra Scanner, TOFD Scanner, Adaptor and other accessories; 5. Offering any customized demands and service. Electronics & Innovation, Ltd. E&I is a focused and dynamic company fulfilling the market demand for rugged and reliable RF power amplifiers. Our goal is to provide our customers with solutions from research to production, benchtop to module. E&I services and supports globally through distributor outlets worldwide.

FujiFilm VisualSonics, Inc. FUJIFILM VisualSonics, Inc. is the undisputed world leader in real-time, in vivo, high- resolution, micro-imaging systems, providing modalities specifically designed for preclinical research.

IMASONIC IMASONIC manufactures ultrasonic transducers for health and safety applications. Since its creation in 1989, IMASONIC has been involved in the development of innovative solutions for medical (HIFU & diagnosis) and industrial applications (NDT). The company has 103 employees in France.

Innovia Materials Co., Ltd. Innovia provides sensor solutions in Medical Ultrasound, NDT, Infrared and MEMS market. Our products include PMN-PT, PIN-PMN-PT crystals up to 3 inch in diameter; and PZT composite with adjustable piezoelectric properties. In addition, we are capable of OEM ultrasound and NDT transducers.

Kolo Medical, Inc. Kolo Medical is a world leader in development, design, and commercialization of cMUT imaging transducers and arrays. Our engineering team has developed a portfolio of HF and UHF imaging probes for research and clinical medical imaging, delivering superior image resolution.

Lyncée Tec SA Lyncée Tec SA is the reference company in the field of 4D microscopy. Its unique technology, based on digital holography DHM®, provides simultaneously high acquisition rate and interferometric resolution. It enables new quality control and novel research opportunities not possible before.

Malvern Panalytical A division of Spectris Co., Ltd For the IEEE congress, we would like to introduce you to our Particle Metrology System, called Archimedes. It can detect and count particles in the size range from 50nm to 5micron. It is suitable to detect and count nanobubbles (micro bubble). Please come to our booth number 10 to speak to our specialists!

Meggitt A/S Meggitt Denmark offers high quality piezoceramic components for the professional user. We offer the world's best quality piezoceramics for medical and industrial applications and provide uniform products with the highest batch reproducibility in the industry.

Neoark Manufacturing, marketing and export of lasers and laser applied products for various fields of interests, like medical care and environmental protection.

OnScale OnScale provides engineers with on-demand access to fast, efficient Multiphysics simulations by coupling its solvers directly with a scalable Cloud high-performance computing (HPC) engine. OnScale breaks cost and performance barriers for engineers by providing near-limitless Cloud HPC resources to solve today’s toughest engineering challenges. With OnScale, engineers can run massive multi-million element problems and vast numbers of simulations in parallel for applications like RF Acoustic Filters, Piezoelectric MEMS, Biomedical Transducers, and NDE.

Philips Ultrasound (Shanghai) Co., Ltd. Since 1997 Philips Ultrasound Shanghai's people have been dedicated in providing OEM Ultrasound Transducers, we are an innovative and technological company that owns a number of patents from sensor design, transducer technology to manufacturing process.

PolyK Technologies PolyK offers piezoelectric polymer film and high voltage dielectric test instruments

Polytec Technologies Polytec offers non-contact Vibrometers.

Precision Acoustics Ltd A leading manufacturer of test equipment for high frequency ultrasound measurement.

S-Sharp Corporation S-Sharp provides cutting edge solutions to preclinical and clinical research ultrasound. Our core competence is the ability to leverage advanced electronics technologies to address our customer's needs by providing programmability, power and speed.

scia Systems GmbH scia Systems is a full range supplier of ion beam and plasma processing equipment. The systems are applicable for coating and etching processes in the production of microelectronics, MEMS and precision optical components, in high volume production and research and development environments.

SHINCRON Co., Ltd. Shincron is the world’s best vacuum coater brand supported by experienced customer all over the world.

Sonic Concepts, Inc. Sonic Concepts delivers premium ultrasonic systems to the biomedical, industrial, marine and research markets. We design and manufacture High Intensity Focused Ultrasound (HIFU) transducers, electronics and software.

STMicroelectronics STMicroelectronics is a world leader in providing the semiconductor solutions that make a positive contribution to people’s lives, today and into the future.

Sumitomo Electric Industries, Ltd. & CBC Co., Ltd. Sumitomo Electric Industries (SEI) is the excellent supplier of new materials for SAW devices. SEI has introduced the “industry’s first” Bonding Wafer of Spinel with LiTaO3 for TC-SAW Devices. With advanced technology, it’s spinel achieves small CTE, high stiffness, and excellent machining performance. In addition, it’s LT/Spinel bonding Wafer provides superior performance of Q factor, TCF and K2. CBC is a supplier of industrial optics materials, and distribute them through the worldwide sales network. CBC also works as the sole distributor for Infrared Transmission material produced by SEI. us4us Ltd. us4us Ltd. is offering 1) a family of scalable ultrasonic research systems featuring a direct RF acquisition and processing on GPUs; 2) OEM ultrasound modules targeted to Software Defined Ultrasound and Point-of-Care scanners; 3) services for ultrasound R&D and medical devices. development.

Verasonics Inc. Verasonics designs and sells leading edge Vantage ultrasound research systems for academic and commercial investigators. With unparalleled flexibility, Vantage simplifies the acquisition and analysis of acoustic data to advance biomedical research.

VERMON VERMON is committed to serve the industry, designing and manufacturing advanced and unique transducer technologies. The industrial organization addresses a very diverse customer base, from early stage R&D performers to ultrasound market leaders over a very broad product portfolio.

Venue: Portopia Hotel

10-1, 6 Chome, Minatojima Nakamachi Chuo-ku, Kobe, 650-0046 Japan Tel: +81 - 78 - 302 - 1111 Fax: +81 - 78 - 302 - 6877 http://www.portopia.co.jp/en/

745 rooms offer exquisitely relaxing and comfortable moments. 13 restaurants and bars pursue beauty in seasonal colors and crafts new tastes. The fitness gym, esthetic Salon and shopping arcade will meet the various needs of the guests as the hotel proudly provides them with a variety of fine facilities. Enjoy the panorama of this port town nestled between the mountains and the sea. The hotel provides rooms with different themes, including the “European Contemporary” rooms on Executive floor the “Oval Club”, the “Mid-century Style” rooms on the upper floors of the main building, and the “Resort in South France” rooms in the South Wing.

Directions

From / to Shin Kobe Station • Complimentary shuttle bus takes about 25 minutes

• By taxi, the time required is about 20 minutes; fare is approximately ¥2,000

From / to Sannomiya Station (JR, Hankyu, Hanshin, Kobe City Subway, Port Liner Monorail) • Complimentary hotel shuttle takes about 15 minutes

• By taxi, the time required is about 10 minutes; fare is approximately ¥1,500

• Port Liner monorail takes about 10 minutes to P-06, Shimin Hiroba Station * Actual taxi fares depend on traffic conditions; evening and late night surcharges may apply From / to the airport

From / to Kobe Airport • Port Liner monorail takes about 8 minutes to P-06, Shimin Hiroba Station

• By taxi, the time required is about 8 minutes; fare is approximately ¥1,500 * Actual taxi fares depend on traffic conditions; evening and late night surcharges may apply

From/to Kansai International Airport and Osaka (Itami) Airport • Airport Limousine Bus Kansai International Airport ↔ Sannomiya about 65 minutes Osaka (Itami) Airport ↔ Sannomiya about 40 minutes * From Sannomiya, please take the hotel courtesy shuttle, Port Liner monorail or taxi to the Kobe Portopia Hotel. The airport limousine stop is a short walk from the hotel courtesy shuttle stop (Mint Kobe building) and Sannomiya Station

• By Kobe Kansai Airport Bay Shuttle Ferry The high speed ferry ride takes approximately 31 minutes. For information about fares and schedules, please visit http://www.kobe-access.jp/en/ * The Bay Shuttle bus to the Port Liner monorail station at Kobe Airport takes about 2-3 minutes * Port Liner monorail takes about 8 minutes to P-06, Shimin Hiroba Station Organizing Committee

Ken-ya Hashimoto Clemens Ruppel, Jan D'hooge, Kentaro Nakamura, Chiba University EPCOS AG, retired Catholic Univ. of Leuven Tokyo Inst. of Tech. General CoChair General CoChair Technical Program Proceedings

C.S. Lam, Daniel Stevens, Shin-ichiro Umemura, Pai-Chi Li, Skyworks Vectron, retired Tohoku Universtiy National Taiwan University Exhibition Finance Finance Short Course

Amelie Hagelauer, Muyinatu A. Lediju Bell, Robert Weigel, Ji Wang, Univ. of Erlangen- Johns Hopkins University Univ. of Erlangen- Ningbo University Nuremberg Communications Nuremberg Publicity WEB Publicity

Tatsuya Omori Masanori Ueda, Ryo Nakagawa, Chiba University TAIYO YUDEN Murata MFG Audio/Visual Local Arrangement Local Arrangement Technical Program Committee

Group 1 Medical Ultrasonics

Vice-Chair: Alfred C. H. Yu, University of Waterloo, Canada

1. Mike Averkiou, University of Washington, USA 2. Mark Borden, University of Colorado Boulder, USA 3. Ayache Bouakaz, INSERM, France 4. Lori Bridal, University Pierre and Marie Curie, France 5. Matthew F. Bruce, University of Washington, USA 6. Charles A. Cain, University of Michigan, USA 7. Jean-Yves Chapelon, INSERM, France 8. Magnus Cinthio, Lund University, Sweden 9. Guy Cloutier, University of Montreal, Canada 10. Jeremy Dahl, Stanford University, USA 11. Paul A. Dayton, University North Carolina/NCSU, USA 12. Marvin Doyley, University of Rochester, USA 13. Nico de Jong, Erasmus Medical Centre, The Netherlands 14. Chris de Korte, Radboud University Medical, The Netherlands 15. Jan Dhooge, Catholic University of Leuven, Belgium 16. Emad Ebbini, University of Minnesota, USA 17. Stas Emelianov, Georgia Institute of Technology and Emory University School of Medicine, USA 18. Mostafa Fatemi, Mayo Clinic, USA 19. Kathy Ferrara, University of California Davis, USA 20. Stuart Foster, University of Toronto, Canada 21. Brian Fowlkes, University of Michigan, USA 22. Steven Freear, University of Leeds, UK 23. Caterina Gallippi, University of North Carolina, USA 24. Damien Garcia, CREATIS, France 25. James Greenleaf, Mayo Clinic, USA 26. Peter Hoskins, University of Edinburgh, UK 27. John Hossack, University of Virginia, USA 28. Kullervo Hynynen, University of Toronto, Canada 29. Jørgen Arendt Jensen, Technical University Denmark, Denmark 30. Hiroshi Kanai, Tohoku University, Japan 31. Jeff Ketterling, Riverside Research, USA 32. Kang Kim, University of Pittsburgh, USA 33. Michael Kolios, Ryerson University, Canada 34. Elisa Konofagou, Columbia University, USA 35. Nobuki Kudo, Hokkaido University, Japan 36. Roberto Lavarello, Pontificia Universidad Catolica, Peru 37. Pai-Chi Li, National Taiwan University, Taiwan 38. Hervé Liebgott, CREATIS, France 39. Thanasis Loupas, Philips Ultrasound, USA 40. Lasse Løvstakken, Norwegian University of Science and Technology, Norway 41. Jian-yu Lu, University of Toledo, USA 42. James G. Miller, Washington University in St. Louis, USA 43. Massimo Mischi, Einhoven University of Technology, The Netherlands 44. Larry Mo, GE Global Research, USA 45. Helen Mulvana, University of Glasgow, UK 46. Kathy Nightingale, Duke University, USA 47. Svetoslav Nikolov, BK Ultrasound, Denmark 48. William D. O’Brien, University of Illinois, USA 49. Michael Oelze, University of Illinois, USA 50. Georg Schmitz, Ruhr-Universitat Bochum, Germany 51. Ralf Seip, SonaCare Medical, USA 52. Mickael Tanter, INSERM, France 53. Kai E. Thomenius, Massachusetts Institute of Technology, USA 54. Hans Torp, University of Science and Technology, Norway 55. Piero Tortoli, University of Florence, Italy 56. Matthew W. Urban, Mayo Clinic, USA 57. Ton van der Steen, Erasmus Medical Centre, The Netherlands 58. Mingxi Wan, Xi’an Jiaotong University, China 59. Kendall Waters, Silicon Valley Medical Instruments, USA 60. Keith Wear, Food and Drug Administration, USA 61. Wilko G. Wilkening, Siemens Medical Solutions , USA 62. Chih-Kuang Yeh, National Tsing Hua University, Taiwan 63. Alfred Yu, University of Waterloo, Canada 64. Roger J. Zemp, University of Alberta, Canada 65. Hairong Zheng, Shenzhen Institutes of Advanced Technology, China

Group 2 Sensors, NDE & Industrial application

Vice-Chair: Oruklu Erdal, Illinois Institute of Technology, USA

1. Robert C. Addison, Rockwell Science Center 2. Walter Arnold, Fraunhofer Institute for NDT, Germany 3. James Blackshire, Air Force Research Laboratory, USA 4. Ramazan Demirli, Villanova University, USA 5. James Friend,UCSD, USA 6. David Greve, Carnegie Mellon University, USA 7. Edward Haeggström, University of Helsinki, Finland 8. Joel Harley, University of Utah, USA 9. Jacqueline Hines, Applied Sensor R&D Corporation, USA 10. Patrick Johnston, NASA Langley Research Center 11. Lawrence W. Kessler, Sonoscan Inc. 12. Mario Kupnik, Technische Universität Darmstadt, Germany 13. Roman Maev, University of Windsor 14. Donald McCann, Seadrill, USA 15. Jennifer Michaels,Georgia Tech, USA 16. Kentaro Nakamura, Tokyo Institute of Technology, Japan 17. Erdal Oruklu, Illinois Institute of Technology, USA 18. Nishal Ramadas, Elster Instromet, Belgium, UK 19. Jafar Saniie, Illinois Institute of Technology, USA 20. Bernhard Tittman, Pennsylvania State University, USA 21. Jiromaru Tsujino, Kanagawa University, Japan 22. John F. Vetelino, University of Maine, USA 23. Paul Wilcox, University of Bristol, UK 24. William Wright, University College Cork, Ireland 25. Donald E. Yuhas, Industrial Measurement Systems, USA

Group 3 Physical acoustics

Vice Chair: Koen W.A. van Dongen, Delft Univ.ersity of Technology, Netherlands

1. Arthur Ballato, Clemson University, USA 2. Anne Bernassau, Heriot Watt University, UK 3. Jan Brown, JB Consulting, USA 4. Charles Courtney, University of Bath, UK 5. Jianke Du, Ningbo University, China 6. Dave Feld, Broadcom Ltd, USA 7. Yun Jing, North Carolina State University, USA 8. Takefumi Kanda, Okayama University, Japan 9. Eun Sok Kim, University of Southern California, USA 10. Kimmo Kokkonen, Qorvo, Germany 11. Minoru Kuribayashi Kurosawa, Tokyo Institute of Technology, Japan 12. Amit Lal, Cornell University, USA 13. John Larson, Broadcom Ltd, USA 14. Vincent Laude, FEMTO-ST / CNRS, France 15. Margaret Lucas, University of Glasgow Scotland, UK 16. Andreas Mayer, HS Offenburg – Univ. of Applied Sciences, Germany 17. Alex Maznev, MIT, USA 18. Robert J. McGough, MSU, USA 19. Farid Mitri, Chevron, USA 20. Mihir Patel, Schlumberger-Doll Research, USA 21. Yan Pennec, IEMN / Universite de Lille 1, France 22. Bikash Sinha, USA 23. Masaya Takasaki, Saitama University, Japan 24. Robert Thalhammer, Broadcom Ltd, Germany 25. Koen W.A. van Dongen, Delft University of Technology, Netherlands 26. István A. Veres, Qorvo Inc., USA 27. Jörg Wallaschek, Leibniz Universität Hannover, Germany 28. Ji Wang, Ningbo University, China 29. Takahiko Yanagitani, Waseda University, Japan 30. Yook-Kong Yong, Rutgers University, USA 31. Jiun-Der Yu, Qualcomm Technologies, Inc., USA

Group 4 Micro-acoustics SAW, FBAR, MEMS

Vice Chair: Shuji Tanaka, Tohoku University, Japan

1. Sylvain Ballandras,frec|n|sys SASU, France 2. Sunil Bhave, Purdue University, USA 3. Sergey Biryukov, Leibniz Institute for Solid State and Materials Research, Germany 4. Paul Bradley, Broadcom Ltd, USA 5. Jidong Dai, Murata Electronics North America, Inc., USA 6. Omar Elmazria, Université de Lorraine, France 7. Gerhard Fischerauer, Universität Bayreuth, Germany 8. Amelie Hagelauer, University of Erlangen-Nuremberg, Germany 9. Tao Han, Shanghai Jiao Tong University, China 10. Ken-ya Hashimoto, Chiba University, Japan 11. Shogo Inoue, Qorvo,Inc, USA 12. Michio Kadota, Tohoku University, Japan 13. Jyrki Kaitila, Broadcom Ltd, Germany 14. Jan Kuypers, Qorvo,Inc, USA 15. Ryo Nakagawa, Murata Manufacturing Co., Ltd., Japan 16. Hiroyuki Nakamura, Skyworks Solutions, Inc., Japan 17. Natalya Naumenko, National University of Science and Technology “MISIS”, Russia 18. Tuomas Pensala, VTT Technical Research Centre of Finland, Finland 19. Mauricio Pereira da Cunha, University of Maine, USA 20. Maximilian Pitschi, RF360 Europe GmbH, Germany 21. Leonhard Reindl, Albert-Ludwigs-Universität Freiburg, Germany 22. Rich Ruby, Broadcom Ltd, USA 23. Marc Solal, Qorvo,Inc, USA 24. Shuji Tanaka, Tohoku University, Japan 25. Masanori Ueda, TAIYO YUDEN CO., LTD., JAPAN 26. Karl Wagner, RF360 Europe GmbH, Germany 27. Robert Weigel, University of Erlangen-Nuremberg, Germany 28. Ventsislav Yantchev, Chalmers University of Technology, USA 29. Sergei Zhgoon, National Research University “MPEI”, Russia

Group 5 Transducers and transducers material

Vice Chair: Sandy Cochran, University of Glasgow, UK

1. Jeremy Brown, Dalhousie University, Halifax, Canada 2. Sandy Cochran, University of Glasgow, UK 3. David Cowell, University of Leeds, UK 4. Christopher Daft, River Sonic Solutions, USA 5. Loriann Davidsen, Philips Healthcare, USA 6. Christine Démoré, University of Glasgow, UK 7. Charles Emery, Ulthera Inc., USA 8. Arif Sanli Ergun, TOBB University, Turkey 9. Lynn Ewart-Paine, NUWC, USA 10. Nicolas Felix, Vermon SA, France 11. Tomas Gomez, CSIC, Madrid, Spain 12. Anne-Christine Hladky, Institut Supérieur d’Electronique et du Numérique, France 13. Xiaoning Jiang, North Carolina State University, USA 14. Valsala Kurusingal, Thales Australia, Australia 15. Ho-yong Lee, Ceracomp Co., Ltd, Korea 16. Richard O’Leary, University of Strathclyde, UK 17. Franck Levassort, Francois-Rabelais University of Tours, Tours, France 18. Omer Oralkan, North Carolina State University, USA 19. Weibao Qiu, Shenzhen Institutes of Advanced Technology, China 20. Wei Ren, Xi’an Jiaotong University, China 21. Yongrae Roh, Kyungpook National University, Korea 22. Stefan Rupitsch, University of Erlangen-Nuremberg, Germany 23. Jean-Francois Saillant, Areva, France 24. Alessandro Savoia, Universita degli Studi Roma Tre, Italy 25. Wallace Smith, Office of Naval Research, USA 26. Susan Trolier-McKinstry, Pennsylvania State University, USA 27. Jian Yuan, ALS Shanghai, China 28. Shujun Zhang, University of Wollongong, Australia 29. Qifa Zhou, University of Southern California, USA Plenary Session

Portopia Hall Tuesday, October 23, 2018 8:00 a.m. – 09:00 a.m.

Welcome Ken-ya Hashimoto and Clemens Ruppel, General Co-Chairs

Opening Remarks Nazanin Bassiri-Gharb, UFFC-S President

Technical Program Jan D’hooge, Technical Program Chairs

2018 UFFC-S Plenary Speaker

1995 Kobe and 2011 Tohoku earthquakes An earthquake is a sudden slip along a fault plane in the crust or the upper mantle of the Earth. This slip generates seismic waves traveling through the Earth to the ground. They then strongly shake the ground close to the earthquake, if the earthquake is shallow and large. Such strong ground motions damage buildings and the people inside. In 1995, shallow faults neighboring downtown Kobe suddenly slipped causing the great Hanshin-Awaji earthquake disaster. Seismic waves from the Kobe earthquake with a magnitude of 6.9 were observed by seismometers all over the world. We have recovered the slip history on the faults and ground motions in downtown Kobe from the observed seismograms. The results show the features of a shallow crustal earthquake. Sixteen years after the Kobe earthquake, much greater earthquake with a magnitude of 9 occurred offshore the Tohoku district in northeastern Japan, due to slips of about 30 m along the upper boundary of the Pacific plate subducting beneath the North American plate. Tsunamis and seismic waves from the Tohoku earthquake caused the great East Japan earthquake disaster. I will explain these earthquakes and their consequences including the Fukushima nuclear accident.

Kazuki Koketsu is a professor in Applied Seismology and the Director of Outreach and Public Relations Office at the Earthquake Research Institute (ERI), University of Tokyo. He obtained Ph.D. in Geophysics from the University of Tokyo. He has worked at ERI as an assistant and associate professor from 1980, and also at the Research School of Earth Sciences, Australian National University as a visiting fellow from 1989 to 1990. He is now a member of the Subcommittees for Survey and Observation Plans and for Evaluation of Strong Ground Motion in the Headquarters, and the Seismic Safety and Structural Design Subcommittee in the Nuclear and Industrial Safety Agency. Awards Ceremony and Concert

Portopia Hall Wednesday, October 24, 2018 5:50 p.m. – 08:00 p.m.

Opening by Murata Cheerleaders Coutesy of Murata Manufacturing Co. Ltd.

The Murata Cheerleaders get around balanced on a ball. Their key features are stabilization, which keeps them upright, and synchronization, which keeps them from colliding.

Awards and Recognitions

UFFC Society Awards • Achievement Award • Distinguished Service Award • Distinguished Lecturer Award • Outstanding Paper Award • Fellow Awards

Presenter Jan Brown, UFFC-S Awards Committee Chair

Ultrasonics Awards • IEEE Ultrasonics Early Career Investigator Award • IEEE Carl Hellmuth Hertz Ultrasonics Award • Rayleigh Award

Presenter: Jafar Saniie, Awards Chair for Utrasonics Subcommittee

Student Paper Competition Winners Presenter Jan D’hooge, IUS2018 TPC Chair

Concert

A Sweet and Fashionable Night with IUS2018 Special Quintet — Pops Masterpieces from 1970’s to Present —

Conference Reception

Tuesday, October 23th, 2018 Time: 7:30pm-9:30pm Location: Portopia Hotel Owada

The Conference Reception will be held in the Ohwada in the south wing. 1F

Conference Banquet

Wednesday, October 24th, 2017 Time: 8:20pm-10:00pm Location: Portopia Hotel Owada

The Conference Banquet will be held in the Ohwada in the south wing. 1F right after the Awards Ceremony and Concert held in Portopia Hall.

Food preferences: • Regular • Vegetarian* • Muslim* * Advance request is necessary at the web registration.

Highlight session

Sponsored by Shincron Co. Ltd. Thursday, October 25, 2018 Time: 5:45 p.m. – 6:45 p.m. Location Portopia Hotel Topaz

To accommodate the continuous growth of IUS, the technical program runs 8 parallel tracks for the entire duration of the conference. Although such growth is good and shows that our society is innovative and healthy, it also implies that participants might miss interesting lectures / developments. In order to avoid this, the symposium will end with a highlight session on Thursday eve. During this session, established researchers will very briefly present what they considered the conference’s highlights within their field of expertise. In this way, we hope to update all participants of the most important evolutions in the respective scientific disciplines presented at IUS. Free drinks will be offered to those participating in the session. Short Courses

Special Photoacoustics Session:

1A - Biomedical photoacoustics By: Michael Kolios, Ryerson University, Toronto, Ontario, Canada 8:00am-12:00am Monday, October 22, Room: Topaz (South Wing B1)

2A - Fundametals of laser ultrasonics By: Osamu Matsuda, Division of Applied Physics, Faculty of Engineering, Hokkaido University 14:00pm-18:00pm Monday, October 22, Room: Topaz (South Wing B1)

Group 1 Medical Ultrasonics:

1B - Ultrafast Ultrasound Imaging: Basic Principles and Applications By: Mickaël Tanter, Inserm U979 Physics for Medicine, Institut Langevin (ESPCI/CNRS/Inserm), Paris 8:00am-12:00am Monday, October 22, Room: Diamond (South Wing B1)

2B - Motion Estimation Algorithms in Ultrasound Imaging: Principles and Hands-On Development By: Damien Garcia, Creatis, Lyon, France 14:00pm-18:00pm Monday, October 22, Room: Diamond (South Wing B1)

1C - Microbubbles and Nanodroplets for Biomedical Ultrasound Applications: Design Principles and Methods By: Mark Borden, University of Colorado, USA and Hendrik Vos, Erasmus Medical Center, Netherlands 8:00am-12:00am Monday, October 22, Room: Emerald (South Wing B1)

2C –Ultrasound System Design and Software Beamformation By: Kai Thomenius, MIT, USA 14:00pm-18:00pm Monday, October 22, Room: Emerald (South Wing B1)

Group 2 Sensors, NDE & Industrial application:

1D – Micro and Nano-Scale Acoustofluidics By: James Friend, University of California San Diego, USA 8:00am-12:00am Monday, October 22, Room: Kikusui (Main Building B1)

2D - Signal Processing and System-on-Chip Designs for Ultrasonic Imaging, Echo Estimation, Data Compression, and Software-Defined Communications By: Jafar Saniie and Erdal Oruklu, Illinois Institute of Technology ,Chicago, USA 14:00pm-18:00pm Monday, October 22, Room: Kikusui (Main Building B1)

Group 3 Physical acoustics:

1E - Interferometric imaging of surface vibration fields in microacoustic devices: application to research and development of SAW, BAW and MEMS components By: Kimmo Kokkonen, Qorvo Munich GmbH 8:00am-12:00am Monday, October 22, Room: Sapphire (South Wing B1)

2E - Fundamental Principles of Bulk-Acoustic-Wave Resonator Acoustics By: Robert Thalhammer, Avago Technologies, a Broadcom Ltd company, Munich, Germany 14:00pm-18:00pm Monday, October 22, Room: Sapphire (South Wing B1)

Group 4 Micro-acoustics SAW, FBAR, MEMS:

1F - Multilayered structures for new generation of SAW devices with improved performance: fundamentals, wave characteristics and applications By: Natalya F. Naumenko, National University of Science and Technology, Moscow, Russia 8:00am-12:00am Monday, October 22, Room: Ikuta (Main Building B1)

2F - Transverse Mode Analysis in SAW/BAW Devices By: Ken-ya Hashimoto, Chiba University 14:00pm-18:00pm Monday, October 22, Room: Ikuta (Main Building B1)

Group 5 Transducers and transducers material:

1G - Medical Ultrasound Transducers By: David Mills and Scott Smith, GE Global Research 8:00am-12:00am Monday, October 22, Room: Ruby (South Wing B1)

2G - Electronic systems for ultrasound By: David Cowell, University of Leeds, UK and Omer Oralkan, North Carolina State University, USA 14:00pm-18:00pm Monday, October 22, Room: Ruby (South Wing B1) Clinical Session

Tuesday, October 23th, 2018 Time: 1:30pm-3:00pm Location: Room Topaz (South Wing)

1. Echocardiographic Particle Image Velocimetry in Heart Diseases

Echocardiographic particle image velocimetry (Echo-PIV) is an emerging technique to provide us useful information of the left ventricular blood flow and vortex in various heart diseases. The audience will understand the potential of clinical application of Echo-PIV.

Haruhiko Abe, Osaka National Hospital

2. Novel Non-Shelled Nanobubbles as a New Ultrasound Imaging and Drug Delivery Tool Recently, various nanobubbles for ultrasound contrast imaging are under development. The advantage of nanobubbles is its size which permit more detail images of biological tissues thus making it a superior contrast agent compared to microbubbles. In addition, nanobubble can be used as drug carriers and boosters for sonoporation. Recent advance on this subject will be presented.

Katsuro Tachibana, Fukuoka University

3. Viscoelasticity Measurement in the Liver Using Dispersion Imaging of Shear Wave US Elastography Fully quantitative measurements of tissue stiffness can be obtained using shear wave elastography (SWE). When integrated with ultrasound imaging, this method employs acoustic radiation force to generate laterally propagating shear waves (SWs) that can be tracked to determine their velocity. However, not only elasticity, but also viscosity, plays an important role in the SW propagation process in the tissue such as liver. In fact, viscosity itself is a parameter that can be used to evaluate liver disease. It is now well known that dispersion is related to the frequency dependence of the speed of SWs and the attenuation of SWs in the viscous component. If a tissue is dispersive, the speed of SWs and the attenuation of SWs will increase with frequency. Accordingly, analysis of the dispersion properties of SWs can serve as an indirect method for measuring viscosity. I will talk a new US elastographic method which is based on analyzing SW dispersion to quantitatively measure not only the SW speed (which is related to viscoelasticity) but also the dispersion slope (which is related to viscosity) in the liver. The SW speed is a more effective predictor of the degree of fibrosis than the dispersion slope and also suggest that the dispersion slope is a more effective predictor of the degree of necroinflammation than the SW speed. The dispersion slope, which reflects viscosity, may provide additional pathophysiological insight into liver disease.

Fuminori Moriyasu, Sanno Hospital Invited Speakers

Medical Ultrasonics 1. Transcranial Acoustoelectric Brain Imaging: Progress and Challenges Russell Witte, University of Arizona Health Sciences, Arizona, US 2. Ultrasound image reconstruction using deep learning: a new paradigm Maxime Gasse, Creatis Medical Imaging Research Centre, INSA, Lyon, France 3. Molecular modulation of biological membranes by phospholipid-shelled microbubbles Eleanor Stride, Institute of Biomedical Engineering, Oxford University, UK 4. Matrix transducers for real-time 3D imaging: From intra-cardiac to trans-cranial applications Nico de Jong, Erasmus MC, Rotterdam, the Netherlands / TU Delft, Delft, the Netherlands 5. Passive elastography: a seismic imaging of soft tissues Stefan Catheline, LabTAU, INSERM, Lyon, Franch 6. Next-generation echocardiography – opportunities and challenges Lasse Lovstakken, Norwegian University of Science and Technology, Trondheim, Norway

Sensors, NDE & Industrial application 1. Automated Robotically Enabled Ultrasonic Sensing for Additive Manufacturing Anthony Gachagan, University of Strathclyde 2. Information transmission through solids using Ultrasound Jafar Saniie, Illinois Institute of Technology 3. Full-field Laser-Ultrasound for Practical Nondestructive Inspection Eric Flynn, Intelligence and Space Research Division, Los Alamos National Laboratory

Physical acoustics 1. Magnetic-Free Radio Frequency Circulator Based on Spatiotemporal Modulation of MEMS Resonators Matteo Rinaldi, Northeastern University 2. Moving acoustic field for the control of electronic excitations in semiconductor nanostructures Paulo V. Santos, Paul-Drude-Institut für Festkörperelektronik, Berlin, Germany 3. Evaluation method for high-power piezoelectric materials and devices Takeshi Morita, Graduate School of Frontier Sciences, The University of Tokyo

Micro-acoustics SAW, FBAR, MEMS 1. Hierarchical Cascading in FEM Simulations of SAW Devices Julius Koskela and Victor Plessky, GVR Trade, SA and Resonant Inc. 2. Transverse modes in temperature compensated surface acoustic wave devices Ken-ya Hashimoto, Chiba University 3. Prof. Eric Adler's Legacy to Microwave Acoustics Mauricio Pereira da Cunha, University of Maine

Transducers and transducers material 1. Collapse-mode CMUT: design and characterization Chris van Heesch, Philips Research, Eindhoven, the Netherlands 2. Piezoelectric Thin Films for Micromachined Ultrasound Transducers Susan Trolier-McKinstry, The Pennsylvania State University, PA 16802, USA 3. Technology development of Photoacousitc imaging system in CANON Kenichi Nagae, Canon Inc., Tokyo, Japan Student Paper Competition

Medical Ultrasonics 1. Nonlinear X-wave ultrasound imaging of acoustic biomolecules, Daniel Sawyer, 2. A fast 4D B-spline framework for model-based reconstruction and regularization in vector flow imaging, Thomas Groenli, 3. Ultrasound/Photoacoustic Imaging Platform to Expedite Development of Novel Glaucoma Treatments, Kelsey Kubelick 4. Ultrafast 4D Doppler Imaging of the rat brain with a large aperture Row Column addressed probe, Jack Sauvage 5. Single-Chip Reduced-Wire CMUT-on-CMOS System for Intracardiac Echocardiography, Gwangrok Jung 6. Prostate Shear Wave Elastography: Multiresolution Reconstruction Dependence on Push Beam Spacing, Derek Y. Chan

Sensors, NDE & Industrial application 1. Omnidirectional spiral surface acoustic waves for particles manipulation and multi-size particles separation in a microliter sessile drop, Naiqing Zhang 2. 3D flow mapping for Lorentz force driven liquid metal flows in crystallization experiments, Kevin Mäder 3. Design of Lab-on-a-Chip Surface Acoustic Resonance (SAR) Sensor with Enhanced Sensitivity and Integrated EIS, Kiryl Kustanovich

Physical acoustics 1. Redatuming for Breast Ultrasound, Ulas Taskin 2. Trajectory Optimization of Levitated Particles in Mid-air Ultrasonic Standing Wave Levitators, Tatsuki Fushimi 3. A Quasi-LTI Frequency-Selective SAW Circulator, Giuseppe Michetti

Micro-acoustics SAW, FBAR, MEMS 1. Novel pMUT-Based Acoustic Duplexer for Underwater and Intra-Body Communication , Flavius Pop 2. Use of Hierarchical Cascading Technique for FEM Analysis of Transverse Mode Behaviors in SAW Devices, Xinyi Li, University of Electronic Science and Technology of China 3. S0-Mode Lithium Niobate Acoustic Delay Lines with 1 dB Insertion Loss, Ruochen Lu, University of Illinois Urabana-Champaign

Transducers and transducers material 1. In vivo imaging of a porcine coronary artery with a 30/80 MHz dual frequency intravascular ultrasound catheter, Chelsea Munding 2. ASIC design for a single-cable 64-element ultrasound probe, Douwe van Willigen 3. Modular fabrication and assembly of large 2D Arrays with interface ASICs, PIN-PMN-PT composite, and 3D printed backing, Robert Wodnicki Oral Presentation Guidelines Observing Your Allotted Time

• The total time allotted to each speaker is 15 minutes. You should plan to speak for 12 minutes and leave 3 minutes for questions. • Invited speakers have twice this time, 30 minutes in total, and they should plan to speak for about 25 min, leaving 5 min. for questions. • There is NO EXCUSE for using more than your allotted time. Rehearse your presentation several times; projecting slides and doing anything else you would otherwise expect to do at the meeting. It is a discourtesy to your audience, the Session Chair and the other speakers to exceed your allotted time. The Session Chairs are instructed to adhere to the printed schedule for the session. With parallel sessions this is critical to the overall success of the conference.

Organization of Oral Sessions

• There are eight parallel sessions in the conference and the Technical Program Committee will try to minimize conflicts of topics between parallel sessions. • The conference will be equipped with a computer video projector and a computer that is connected to the projector for each oral presentation room. Normal audio equipment such as microphones will be provided. • The computers are equipped with Windows 10 as well as Microsoft PowerPoint 2016 (Office), Internet Explorer/Edge (latest), Adobe Acrobat Reader DC/Flash Player, Windows Media Player 12 and QuickTime 7. • To submit (upload) the presentation data, use the unique (personalized) link to the paper management system. The unique link to the paper management system has been emailed to the presenting author. Please upload the presentation materials no later than 24:00 (PST), Thursday, 18 October 2018. • All the authors are requested to (a) visit the Speaker Ready Room at least one day prior to the session, (b) verify their presentation for compatibility and proper operation. If necessary, especially if you have embedded multi-media content, you will have the final opportunity to adjust or tweak your presentation at that time. We suggest the presenting author to bring his/her own computer and a USB thumb drive with presentation materials as backup. • Since your computer may have sophisticated fonts (such as special equation symbols) that the conference computers may not have, it is suggested that when you save your PowerPoint presentations, use "Save As" from your "File" pull-down menu. When a dialog box pops up, click on the "Tools" menu on that dialog box and select "Save Options". Then, check the option "Embed true type fonts". Click "OK" and then click "Save". This allows you to include the fonts you are using in your presentations to minimize the font incompatibility problems. Otherwise, any fonts that are not recognized by the conference computers will be incomprehensible. In addition to the default ".pptx" file format, we suggest that you also save a copy of your presentations in the ".ppsx" (PowerPoint Show) format (the ".ppsx" version may also include some of the special fonts in your presentations). If you have a full version of Adobe Acrobat, we suggest you also save (or print) your presentations into a ".pdf" format and thus you will be able to use the free Adobe Reader software to present in case nothing else would work.

Good Practices

• Show no more than 1 slide per minute of speaking time. This means approximately 10-12 slides MAXIMUM for the 12 minutes presentation at the symposium. Remember, the last three minutes of the presentation are for questions from the audience. It detracts from the quality of the presentation to flash numerous graphs, equations, or tables on the screen in rapid sequence in an effort to squeeze a presentation into its allotted time. • Make the letters on your slides BIG ENOUGH. Suggested minimum font is 14. • Put no more than 12 lines of text or 4 curves on any slide. • Avoid lengthy tabulations of numerical data and limit equations to those for which the terms can be properly defined. • Your audience needs time to interpret the data that you present. While you are very familiar with the data displayed, the audience is not. Describe the abscissa, coordinates, units and the legend for each curve. • When you display a curve, tell the audience what they should be looking for in order to grasp the point you are trying to make. The audience will not have time to figure it out for themselves. • Use repetition in your talk to ensure the facts are understood by the audience. • In addition to the body of the talk, present an introduction and a summary or conclusion. • Include only information or data that can be properly explained in the allotted time. • Repeat any questions that are posed to you. • If a question requires a lengthy reply, suggest that you and the person asking the question meet after the presentation. Then take the discussion out of the meeting room. Poster Presentation Guidelines

Posters will be on display in the Poster Area located in the Kairaku and Waraku rooms in the basement 1 of Main Building. This year we will have three full day poster sessions. Each poster session is divided into two time slots, as follows: • Mornings: 9:30 am to 10:30 am (Posters with odd numbers will be presented) • Afternoons: 3.00 pm to 4.00 pm (Posters with even numbers will be presented) Posters must be posted in the morning between 7:30 am to 8:00 am. They must be removed between 5:30 pm to 6:00 pm at the end of the day. Therefore, each poster will be displayed for a full day (8:00 am to 5:30 pm). Please note, on the last day of conference (Thursday October 25), posters need to be removed at 4:00 pm instead of 5:30 pm since exhibitor booths will be dismantled after 4:00pm.

Instructions

• One poster board is allocated to each presentation. The recommended poster size is Landscape format, Arch E which is 36 inches high by 48 inches wide ( 92 cm x 122 cm ). European alternative ISO A0 (84 cm x 119 cm) can also be used. • Posters must be mounted using push pins provided by the organizing committee. • Each poster presenter is required to defend his/her poster during the respective poster session slot for the paper to be included in the conference proceedings. • Simply posting the pages of your written version of the proceedings paper is NOT effective and thus NOT acceptable for your poster. • The title of your poster should be done in block letters which are AT LEAST 8 to 10 cm (3 to 4 inches) high. • All text must be easily readable from a distance of 1 to 2 meters. Make the lettering at least 1 cm high, smaller lettering will not be legible from a distance of 1 to 2 meters. • All graphs and charts should be AT LEAST 25 X 30 cm (approximately 8.5 x 11 inches) or larger. • It is a good idea to sequentially number your materials in the poster. This will indicate to the viewer a logical progression through your poster. • Provide an introduction (outline) and a summary or conclusion for your poster. • Prepare your poster carefully so that it can be used as the basis to explain and answer questions from the viewers. • It is helpful to have copies of the written version of your paper available for those viewers who may want to study specifics of your work in more detail. • Have your business cards available for those who may wish to contact you at a later date. • Bring along a tablet of blank paper that you may use for a discussion of technical details relating to your poster.

Main Building

Connecting Bridge to International Conference Center Kobe

2F

Entrance Shimin Hiroba Corridor to Shimin Hiroba Station Entrance Entrance

Shopping Arcade SOCO Dining Cafe

Lounge Atrium Tajima Teppanyaki

御手洗

Escalators Elevators Atrium

Bar L’Estacade

 $#" Chapel

Cosmopolitan Salon de Savoir

B1

IkutaIkuta

 KairakuKairaku NunobikiNunobiki

Kitano Kitano  WarakuWaraku

Japanese Garden KikusuiKikusui

Elevators

Cloak

Photo Kokaden   Reception Shrine Studio Lobby

Dressing Rooms

Entrance to Banquet Rooms Ume, Sakura Matsu, Take SAKU

Rainbow

Rose Iris Cattleya Ohwada Lilac Topaz Sapphire

Emerald Diamond

Seto Ruby STUDENT PAPER COMPETITION

- Posters of Student Paper Competition - Kairaku

Session P1-SPC. P1-SPC-4 Ultrafast 4D Doppler Imaging of the P1-SPC-8 3D flow mapping for Lorentz force P1-SPC-12 A Quasi-LTI Frequency-Selective P1-SPC-16 In vivo imaging of a porcine Student paper competition rat brain with a large aperture Row Column driven liquid metal flows in crystallization SAW Circulator coronary artery with a 30/80 MHz dual frequency addressed probe experiments intravascular ultrasound catheter Giuseppe Michetti1, Cristian Cassella1, Flavius Pop1, Chair: Thanasis Loupas 1 1 1 1 1 2 2 2 2 1 2 2 Philips Ultrasound Jack Sauvage , Jonathan Porée , Claire Rabut , Baptiste Kevin Mäder , Norman Thieme , Dagmar Meier , Ahmed Kord , Dimitrios Sounas , Andrea Alù , Matteo Chelsea Munding , Emmanuel Cherin , Natasha Alves , Heiles1, Guillaume Ferin2, Martin Flesch2, An Nguyen- Richard Nauber1, Lars Büttner1, Olf Pätzold2, Jürgen Rinaldi1 David Goertz1,2, Brian Courtney2,3,4, F. Stuart Foster1,2 Dinh2, Mickaël Tanter1, Mathieu Pernot1, Thomas Czarske1 1Northeastern University, Boston, MA, United 1University of Toronto, Toronto, ON, Deffieux1 1Laboratory of Measurement and Sensor System States, 2University of Texas at Austin, United States Canada, 2Sunnybrook Research Institute, Toronto, ON, 1Institut Langevin, ESPCI Paris, PSL Research Techniques, Technische Universität Dresden, Dresden, Canada, 3Sunnybrook Health Sciences Centre, Toronto, University, CNRS UMR 7587, INSERM U979, Germany, 2Institute of Nonferrous Metallurgy and ON, Canada, 4Conavi Medical Inc., Toronto, ON, France, 2Vermon SA, 180 rue du General Renault, Purest Materials, Technische Universität Bergakademie Canada 37000 TOURS, France, France Freiberg, Freiberg, Germany

SPC-1 Nonlinear X-wave ultrasound imaging of P1-SPC-5 Single-Chip Reduced-Wire CMUT-on- P1-SPC-9 Design of Lab-on-a-Chip Surface P1-SPC-13 Novel pMUT-Based Acoustic P1-SPC-17 ASIC design for a single-cable 64- acoustic biomolecules CMOS System for Intracardiac Acoustic Resonance (SAR) Sensor with Duplexer for Underwater and Intra-Body element ultrasound probe Echocardiography Enhanced Sensitivity and Integrated EIS Communication Daniel Sawyer1, David Maresca2, Guillaume Renaud3, Douwe van Willigen1, Jovana Janjic2, Eunchul Kang1, Audrey Lee-Gosselin2, Mikhail Shapiro4 Gwangrok Jung1, Amirabbas Pirouz1, Coskun Tekes2, Kiryl Kustanovich1, Aldo Jesorka1, Ventsislav Flavius Pop1, Bernard Herrera1, Guofeng Chen1, Zu Yao Chang1, Emile Noothout3, Martin D. Verweij2,3, 1Bioengineering, Caltech, Pasadena, CA, United Thomas M. Carpenter3, M. Wasequr Rashid1, Ahmad Yantchev1 Emrecan Demirors1, Raffaele Guida1, Cristian Cassella1, Nicolaas de Jong2,3, Michiel Pertijs1 States, 2Chemical Engineering, Caltech, United Rezvanitabar1, David Cowell3, Steven Freear3, Maysam 1Chalmers University of Technology, Goteborg, Sweden Tommaso Melodia1, Matteo Rinaldi1 1Electronic Instrumentation Laboratory, Delft University States, 3Sorbonne Université, France, 4Caltech, United Ghovanloo1, F. Levent Degertekin1,2 1Northeastern University, Boston, MA, United States of Technology, Delft, Netherlands, 2Thorax Centre, States 1School of Electrical & Computer Engineering, Georgia Erasmus MC, Rotterdam, Netherlands, 3Laboratory of Institute of Technology, Atlanta, GA, United Acoustical Wavefield Imaging, Delft University of States, 2G.W. Woodruff School of Mechanical Technology, Delft, Netherlands Engineering, Georgia Institute of Technology, Atlanta, GA, United States, 3School of Electronic and Electrical Engineering, University of Leeds, Leeds, United Kingdom

P1-SPC-2 A fast 4D B-spline framework for P1-SPC-6 Prostate Shear Wave Elastography: P1-SPC-10 Redatuming for Breast Ultrasound P1-SPC-14 Use of Hierarchical Cascading P1-SPC-18 Modular fabrication and assembly model-based reconstruction and regularization Multiresolution Reconstruction Dependence on Technique for FEM Analysis of Transverse of large 2D Arrays with interface ASICs, PIN- in vector flow imaging Push Beam Spacing Mode Behaviors in SAW Devices PMN-PT composite, and 3D printed backing Ulas Taskin1, Joost van der Neut1, Koen w.a. van Dongen1 Thomas Groenli1,2, Morten Wigen1,2, Patrick Segers3, Derek Y. Chan1, Samantha Lipman1, Mark Palmeri1, D. 1Department of Imaging Physics, Faculty of Applied Xinyi Li1,2, Jingfu Bao1, Yulin Huang1,2, Benfeng Robert Wodnicki1, Haochen Kang1, Jayesh Adhikari1, Lasse Lovstakken1,2 Cody Morris1, Thomas J. Polascik2, Ned C. Rouze1, Sciences, TU Delft, Delft, Netherlands Zhang2,3, Tatsuya Omori2, Ken-ya Hashimoto 2,3 Rui Zhang2, Ruimin Chen1, Laiming Jiang1, Nestor 1Department of Circulation and Medical Imaging, Kathryn Nightingale1 1University of Electronic Science and Technology of Cabrera-Munoz1, Yu Liu2, Victoria Chiu2, Hayong Norwegian University of Science and Technology 1Biomedical Engineering, Duke University, Durham, China, Chengdu, China, People's Republic of, 2Chiba Jung1, Josquin Foiret2, Qifa Zhou1,3, Douglas N. (NTNU), Trondheim, Norway, 2Centre for Innovative NC, United States, 2Surgery, Duke University, Durham, University, Chiba, Japan, 3Shanghai Jiao Tong Stephens2, Katherine Ferrara2 Ultrasound Solutions (CIUS), Norway, 3IBiTech- NC, United States University, China, People's Republic of 1Department of Biomedical Engineering, University of bioMMeda, Ghent University, Ghent, Belgium Southern California, Los Angeles, CA, United States, 2Department of Biomedical Engineering, University of California, Davis, Davis, CA, United States, 3Department of Ophthalmology, University of Southern California, Los Angeles, CA, United States

P1-SPC-3 Ultrasound/Photoacoustic Imaging P1-SPC-7 Omnidirectional spiral surface P1-SPC-11 Trajectory Optimization of Levitated P1-SPC-15 S0-Mode Lithium Niobate Acoustic Platform to Expedite Development of Novel acoustic waves for particles manipulation and Particles in Mid-air Ultrasonic Standing Wave Delay Lines with 1 dB Insertion Loss Glaucoma Treatments multi-size particles separation in a microliter Levitators sessile drop Ruochen Lu1, Tomas Manzaneque1, Yansong Yang1, Kelsey Kubelick1, Eric Snider1, Andrei Karpiouk2, C. Tatsuki Fushimi1, Asier Marzo1, Thomas L. Hill1, Songbin Gong1 Ross Ethier1, Stanislav Emelianov1,2 Naiqing Zhang1, Gopesh Tilvawala1, James Friend1 Bruce W. Drinkwater1 1University of Illinois at Urbana-Champaign, Urbana, 1Wallace H. Coulter Department of Biomedical 1Center for Medical Devices and Instrumentation, 1Department of Mechanical Engineering, University of IL, United States Engineering, Georgia Institute of Technology & Emory University of California, San Diego, La Jolla, CA, Bristol, Bristol, United Kingdom University, Atlanta, GA, United States, 2School of United States Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA, United States Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY ORAL

10:30 am -12:00 pm Oral --- Tuesday, October 23

Session 1A. Session 2A. Session 3A. Session 4A. Session 5A. Session 6A. Session 7A. Session 8A. Cardiac Elasticity Spotlight Session: Hemodynamics: Use of SAW Device & Special Medical Abdominal and Therapeutic Photo-acoustics Estimation and Microbubbles and Application Systems Pelvic Tissue Transducers Chair: Guy Cloutier Visualization Cavitation in Characterization Ultrasound Therapy University of Montreal Chair: Koen W.A. van Chair: Hiroyuki Nakamura | Chair: John Hossack Chair: Yongrae Roh Hospital Dongen Chair: Kai Thomenius Skyworks Solutions, Inc. University of Virginia Chair: Timothy Hall Kyungpook National TU Delft Massachusetts Institute of Chair: Elisa Konofagou University of Wisconsin- University Technology Columbia University Madison Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 10:30 1A-1 Analyzing the 2A-1 Ultrasound- 3A-1 Simultaneous 4A-1 Correlation 5A-1 Coexisting 6A-1 A lightweight, 7A-1 Measured 8A-1 Treatment of shear wave mechanics guided measurement of between passive Surface and Bulk motorized 3D fractional calculus breast tumors using a am in cardiac shear wave photoacoustics: from stimulus and response cavitation imaging and Gyroscopic Effects ultrasound probe for parameters for shear toroidal HIFU elastography using basic science tool to in Flow Mediated positron emission remote monitoring of waves in swine liver transducer. Preliminary finite element clinically-viable Dilation: a pilot clinical tomography imaging of astronauts health from experiments in human simulations functional and study the radiolabeled- Visarute Pinrod, et al ground samples. molecular imaging nanocluster delivery Cornell University Tom Humphrey, et al location and efficiency Michigan State University Annette Caenen, et al Alessandro Ramalli, et al by FUS-mediated Cyril Mossuz, et al Marine Sanchez, et al Ghent University Stanislav Emelianov, et al KU Leuven blood-brain barrier VERMON S.A. LabTAU - INSERM unité Georgia Institute of disruption 1032 Technology and Emory University School of Medicine Yaoheng Yang, et al Washington University in St louis

10:45 1A-2 Validation of 2D 3A-2 Laterally- 4A-2 Artificial stone 5A-2 AlN based dual 6A-2 Development of a 7A-2 Quantitative 8A-2 Design, non-rigid image dependent velocity comminution and LCAT filters on a single mechanically-scanning ultrasound imaging and fabrication and testing am registration to assess estimation bias in behavior of cavitation chip for duplexing microultrasound characterization of of a dual-frequency regional myocardial plane wave Doppler bubbles with annular application capsule endoscopy uterine peristaltic transducer for strain in a clinical ultrasound focused ultrasound device and waves Acoustic Cluster setting demonstration in vivo Therapy activation Yao Zhu, et al Luxi Wei, et al Shin Yoshizawa, et al Institutes of Yizhou Huang, et al Bidisha Chakraborty, et al University of Toronto Tohoku University Microelectronics, A*STAR Yongqiang Qiu, et al Eindhoven University of Kenneth K. Andersen, et al KU Leuven University of Glasgow Technology University College of Southeast Norway

11:00 1A-3 4D mechanical 2A-2 Quantitative GHz 3A-3 Real-Time Flow 4A-3 Differentiation of 5A-3 Leaky SAW 6A-3 Feasibility study 7A-3 Temporal 8A-3 Development of wave velocity mapping ultrasonic imaging of Visualization through tissue, cavitation devices with Beryllium of a coherent multi- Correlations Between Magnetic am using Clutter Filter biological cells and Locally Activated bubbles and blood flow electrodes transducer US imaging Cervical Smooth Muscle Resonance(MR) Wave Imaging. Healthy transparent structures Nanodroplets and High imaging in cavitation- system Force Generation and Compatible subjects versus Frame Rate Imaging enhanced high- Acoustic Backscatter Transcranial 3072- Patients intensity focused Victor Plessky, et al Coefficient Parameters elements Ultrasonic 2D Oliver B. Wright, et al ultrasound treatment GVR Trade SA Laura Peralta, et al Array for Deep Brain Hokkaido University Matthieu Toulemonde, et al King's College London Stimulation and Sebastien Salles, et al Imperial College London Andrew Santoso, et al Neuromodulation NTNU Hayato Ikeda, et al University of Wisconsin- Tohoku University Madison Teng Ma, et al Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences 11:15 1A-4 In vivo 3A-4 Time-Resolved 4A-4 Enhancement of 5A-4 Advanced 6A-4 Reconfigurable 7A-4 Development of 8A-4 A 5 mm x 5 mm estimation of Wall Shear Rate Radiation Response characterization of 1.5D Source Arrays for double Nakagami Square, Aluminum am myocardial mechanical Mapping: Using Ultrasound- surface acoustic wave Improved Elevational distribution model for Lens Based wave propagation in Spatiotemporal Stimulated fields at high Focussing in All- quantitative evaluation Histotripsy the fetus Profiling of a Key Microbubbles: ASMase temperature Optical Ultrasound of early-stage fatty-liver Transducer: Reaching Hemodynamic Factor Dependence Imaging disease the Endoscopic Form Related to Factor Solveig Fadnes, et al Atherosclerosis Robert Weser, et al Department of Circulation Gregory Czarnota, et al IFW Dresden Erwin Alles, et al Kazuki Tamura, et al and Medical Imaging, Sunnybrook Health University College London Chiba university Jeffrey Woodacre, et al NTNU Chung Kit Ho, et al Sciences Centre Dalhousie University University of Waterloo

11:30 1A-5 4D cardiac 2A-3 Compressed 3A-5 In vivo wall shear 4A-5 Ultrasound- 5A-5 High Quality 6A-5 Fibre-Optic 7A-5 System- 8A-5 3D Ultrasound ultrafast imaging of Sensing in stress and blood flow mediated microbubble Factor SAW Ultrasound Imaging Independent Ultrasound Image Guidance and am natural mechanical Photoacoustic mapping using native destruction Resonators Based on Devices for Guidance Attenuation Coefficient Therapy through the waves: towards Tomography blood speckle or suppressed mouse Al / AlN / Sapphire for of Minimally Invasive Estimation Using Rib Cage with a quantitative contrast enhanced glioblastoma growth High Temperature Procedures Spectra Normalization Therapeutic Random elastography of the echo particle image as effectively as Wireless Applications Phased Array human ventricle Markus Haltmeier, et al velocimetry and plane radiation therapy Universität Innsbruck wave imaging Richard Colchester, et al Ping Gong, et al Jérémy Streque, et al University College London Mayo Clinic College of Muhammad Zubair, et al Victor Finel, et al Lifei Zhu, et al Université de Lorraine, Medicine and Science Imperial College London Institut Langevin, INSERM Kai Riemer, et al Washington University in CNRS U979, ESPCI, CNRS UMR Imperial College London St louis 7587, ART

11:45 1A-6 Ultrafast 3A-6 Clinical 4A-6 Tumor Vascular 5A-6 Separation of 6A-6 Design of a fully 7A-6 A deep learning 8A-6 Planar CMUT ultrasound imaging evaluation of wall Normalization by Frequency and populated phased method of transient annular-array and am grants alternate shear stress by Oxygen-Microbubbles Amplitude Modulation array for transcranial elastography for embedded imaging for methods for assessing ultrafast vector flow with Ultrasound Contributions due to HIFU therapies based assessment of liver ultrasound-guided diaphragm function. imaging in carotid External Vibration on a on shock-wave fibrosis HIFU therapy atherosclerotic SAW Resonator exposures with stenosis Shu-Wei Chu, et al aberration correction Damien Bachasson, et al National Tsing Hua Yongshuai Li, et al W. Apoutou N'Djin, et al Institute of Myology University Anin Maskay, et al School of Medicine, LabTAU, INSERM, Centre Guillaume Goudot, et al University of Maine Pavel Rosnitskiy, et al Tsinghua University, Beijing Léon Bérard, Université Institut Langevin, INSERM Physics Faculty, Moscow Lyon 1, Univ Lyon U979 State University

TUESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY ORAL

01:30 pm -03:00 pm Oral --- Tuesday, October 23

Session 1B. Session 2B. Session 3B. Session 4B. Session 5B. Session 6B. Session 7B. Session 8B. Advances in Photoacoustic Tips and Tricks for Contrast Imaging SAW Modeling & Transducers Carotid Elasticity PTF & PTE: Thin Clinical Ultrasound Contrast and Doppler and Applications Design 1 Films and High Theranostic Agents Contrast Imaging Chair: Kentaro Chair: Chris de Korte Power Ultrasonics Chair: Yoshifumi Saijo Chair: Jeffrey Ketterling Chair: Karl Wagner Nakamura Radboud University Medical Tohoku University Chair: Roger Zemp Chair: Svetoslav Nikolov Riverside Research RF360 Europe GmbH Tokyo Institute of Center Chair: Andreas Mayer University of Alberta BK Ultrasound Technology HS Offenburg - Univ. of Applied Sciences, Gengenbach Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 01:30 1B-1 Viscoelasticity 2B-1 Plasmonic gold 3B-1 Higher order 4B-1 Contrast 5B-1 Thin Film 6B-1 Printed polymer 7B-1 Evaluation of 8B-1 Evaluation Measurement in the nanoparticles for singular value enhanced ultrasound Acoustoelectric GHZ transducers for mid-air carotid biomechanical method for high-power pm Liver Using Dispersion combined decomposition for imaging of chronic rat SAW Amplifier Design haptic feedback properties by piezoelectric materials Imaging of Shear Wave photoacoustic imaging high contrast spinal cord injury simultaneous analysis and devices US Elastography and photothermal microvascular imaging of arterial stiffening and therapy using a pulsed Donald Malocha, et al Paul van Neer, et al deformation laser Matthew Bruce, et al Pegasense TNO Takeshi Morita, et al Fuminori Moriyasu, et al Chee Hau Leow, et al University of Washington The Univ. of Tokyo Sanno Hospital Imperial College London Guillaume Goudot, et al Oscar Knights, et al Institut Langevin, INSERM University of Leeds U979

01:45 2B-2 In vivo 3B-2 Adaptive 4B-2 Quantification of 5B-2 Simplified BEM 6B-2 Linear Ultrasonic 7B-2 Strain Photoacoustic, 19F MR grayscale mapping to lipid microbubble shell Model for Fast and Array Development Discontinuities in pm and fluorescent improve molecular pharmacokinetics Accurate Simulation of incorporating Cantor Carotid Atherosclerotic imaging of clinically- ultrasound difference enabled by copper- Surface Acoustic Wave Set Fractal Geometry Plaques – a Novel applicable images porphyrin-lipid Devices Marker for Plaque perfluorocarbon- labeling Vulnerability? loaded nanoparticles Haoyu Fang, et al Jasmine Shu, et al Takanao Suzuki, et al University of Strathclyde Stanford University Maneesha Rajora, et al Murata Manufacturing Tim Vonk, et al Khalid Daoudi, et al University Health Network Co., Ltd., Kyoto Maastricht University Radboud university Medical Center medical center

02:00 1B-2 Echocardiographic 2B-3 Ultrasound and 3B-3 Understanding 4B-3 Contrast- 5B-3 Multi-mode P- 6B-3 Broadband 7B-3 In vivo 3D strain 8B-2 An Ultrasonically pm Particle Image Photoacoustic Imaging the origin of flashing Enhanced Micro- matrix models for the Piezocrystal imaging of the carotid Assisted Sagittal Saw Velocimetry in Heart to Aid Design, artefacts due to Vasculature Imaging: description of Transducer Array for artery Diseases Optimization, and Singular Value A New Statistical interacting modes in Non-Destructive Validation of Decomposition clutter Approach TCSAW and LSAW Evaluation Imaging Daniel Richards, et al Pathogen-like Particle filter devices Applications Stein Fekkes, et al University of Glasgow Haruhiko Abe, et al Vaccines Radboud university medical Osaka National Hospital Billy Y. S. Yiu, et al center Jiaqi Zhu, et al University of Waterloo Markus Mayer, et al Zhen Qiu, et al Kelsey Kubelick, et al Imperial College London RF360 Europe GmbH University of Strathclyde Georgia Institute of Technology & Emory University 02:15 2B-4 A feasibility 3B-4 Identifying 4B-4 Precise 5B-4 Nonclassical 6B-4 A novel design 7B-4 Carotid 8B-3 Improvement of study of targeted Directional collection of power law of third of piezoelectric elastography for crystalline orientation pm nanoparticled-based Components in an microbubbles by order intermodulation ultrasonic transducer detection of vulnerable and electromechanical photoacoustic imaging Augmented Pulse acoustic vortex under in TC-SAW devices with high temperature atherosclerotic plaques: coupling in ScAlN film of ex vivo endoscopic Wave: A Spatial- flow conditions resistance An inter-operator in view of negative ion mucosal resection Velocity Gradient reproducibility study bombardment during tissue from Barrett’s Approach Thomas Finteis, et al sputtering deposition esophagus patients Wei Chen Lo, et al RF360 Europe GmbH Xianwei Yuan, et al National Tsing Hua Harbin Institute Of Zhi Liu, et al Adrian J. Y. Chee, et al University Technology Tsinghua University Shinji Takayanagi, et al Han Ho Jeon, et al University of Waterloo Nagoya Institute of University Health Network Technology

02:30 1B-3 Novel Non- 2B-5 Sono- 3B-5 Fetal heart rate 4B-5 Real-Time 5B-5 Transverse 6B-5 Densification 7B-5 A Machine 8B-4 High-volume Shelled Nanobubbles Photoacoustic measurements of Closed-Loop modes in temperature behavior and Learning Approach to production and non- pm as a New Ultrasound Vaporization of twins using a single Spatiotemporal compensated surface Mechanical Properties Delineating Carotid destructive piezo- Imaging and Drug Polypyrrole coated flexible ultrasound Control of Cavitation acoustic wave devices of PBX Substitute Atherosclerotic Plaque property mapping of Delivery Tool Perfluorocarbon transducer matrix Activity with Passive Composites Structure and 30% Sc-doped Droplets for Clot Lysis Acoustic Mapping Fabricated by Composition by ARFI aluminium nitride thin Ken-ya Hashimoto, et al Ultrasonic Assisted Ultrasound, In Vivo films Katsuro Tachibana, et al Paul Hamelmann, et al Chiba University Pressing of Powder Fukuoka University David Li, et al Eindhoven University of Scott Schoen Jr., et al University of Washington Technology Georgia Institute of Gabriela Torres, et al Stefan Mertin, et al Technology Kezhen Lyu, et al The University of North VTT Technical Research Institute of Chemical Carolina at Chapel Hill Centre of Finland Materials, China Academy of Engineering Physics

02:45 2B-6 Nanobubble 3B-6 Unambiguous 4B-6 Dual-Frequency- 6B-6 High 7B-6 Hadamard 8B-5 PZT epitaxial Facilitated detection and Chirp Passive Temperature condition Encoded Multi-element thick film for pm Optoporation and Ultra visualizing of a Cavitation Imaging in monitoring with a Synthetic Aperture ultrasonic transducer High Frequency catheter with multiple Brain novel, flexible, thin Imaging (H-MSA) for at frequencies below Photoacoustic Imaging active acoustic film sensor High Quality Tracking of 100 MHz of BT-474 Breast sources: in-vivo Shear Waves Cancer Cells in Vitro validation in a swine Hsiang-Ching Lin, et al model National Tsing Hua Daniel Irving, et al Yuka Mazda, et al University novosound Rifat Ahmed, et al Waseda University Filip Bodera, et al University of Rochester Ryerson University Viksit Kumar, et al Mayo Clinic College of Medicine and Science

TUESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY ORAL

04:00 pm -05:30 pm Oral --- Tuesday, October 23

Session 1C. Session 2C. Session 3C. Session 4C. Session 5C. Session 6C. Session 7C. Session 8C. Cardiac and Technical Nanodroplets Microbubbles and BAW Device NDE Vascular Elasticity CMUT Design and Cerebrovascular Advances in Enhanced Imaging Nanoparticles . Applications Imaging Photoacoustic Chair: Rich Ruby Chair: Jafar Saniie Chair: Richard Lopata Imaging Chair: Mingxi Wan Chair: Nobuki Kudo Broadcom Ltd Illinois Institute of Einhoven University of Chair: Alessandro Stuart Chair: Damien Garcia Xi’an Jiaotong University Hokkaido University Technology Technology Savoia CREATIS Chair: Muyinatu Bell Roma Tre University Johns Hopkins University Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 04:00 1C-1 Instantaneous 2C-1 Sparsity-Based 3C-1 Acoustic Wave 4C-1 Enhancing 5C-1 A Fast Thermo- 6C-1 GPU-based 7C-1 Stiffness 8C-1 Collapse-mode Volumetric Flow Rate Super-Resolution for Sparsely-Activated Checkpoint Inhibitor Piezoelectric Finite parallel processing for Evaluation of Aortic CMUT: design and pm Measurement Using Photoacoustic Localization Therapy with Element Model of 3D inverse computation Aneurysm using an characterization High-Frame-Rate Tomography with a Microscopy Ultrasound Stimulated Transient FBAR of full-field material Ultrafast Regularized Ultrasound Ring Array Transducer (AWSALM): A Fast and Microbubbles Dynamics under Large properties based on Tissue-Doppler Optical- Flow Independent RF Signal quantitative laser Flow Principal Strain Chris van Heesch, et al Ultrasound Super- ultrasound Estimator Philips Research Billy Y. S. Yiu, et al David Egolf, et al Resolution Technique Sharshi Bulner, et al visualization University of Waterloo University of Alberta using Nanodroplets Sunnybrook Research Christopher Kirkendall, et Institute al Diya Wang, et al Broadcom Inc Sheng-Po Tseng, et al University of Montreal Ge Zhang, et al National Taipei University Hospital Imperial College London of Technology

04:15 1C-2 Volume flow 2C-2 Sparsity-based 3C-2 Spontaneous 4C-2 Targeted 5C-2 Determining the 6C-2 Optoacoustic 7C-2 A Longitudinal estimation in valvular optimization of the Nucleation of microbubble-cell Off-resonance 3rd Tissue Differentiation Study of the Mechanical pm jets using 3D high initial pressure Perfluorocarbon interactions elucidated Order Nonlinear using a Mach-Zehnder Properties of frame rate ultrasound distribution using a Droplets with combined Constants of a BAW Interferometer: Abdominal Aortic linear array transducer confocal microscopy resonator Preliminary Results Aneurysms: the First in photoacoustic and Brandaris 128 Results Jørgen Avdal, et al imaging David Li, et al ultra-high speed NTNU University of Washington imaging Jing Wu, et al Herve Nguendon Broadcom Kenhagho, et al Emiel van Disseldorp, et al Ruibo Shang, et al Biomedical Laser and Eindhoven University Of Dartmouth College Ines Beekers, et al Optics Group (BLOG) Technology Erasmus MC ,University of Basel

04:30 1C-3 Next-generation 2C-3 Structured 3C-3 Manipulating the 4C-3 The effect of 5C-3 Prediction of the 6C-3 Monitoring 7C-3 Comparison of the 8C-2 A Robust and echocardiography – acousto-optic imaging Dynamic Behavior of sonication on H2 Response of an Changes in shear wave velocities in High Output Pressure pm opportunities and with ultrafast Laser-Activated extravasation and FBAR Resonator Mechanical Properties anastomosis between CMUT Design for challenges ultrasonic plane waves Perfluorocarbon distribution of Using Finite Element of Rock Bolts Using a excised pig aorta, Ultrasound Imaging Nanodroplets Using nanoparticles and Method Low-Power Coded- Dacron, PTFE and and HIFU Ablation Transmit Pulse Shape dextrans in tumor Excitation Scheme custom made arterial Lasse Lovstakken, et al Jean-Luc Gennisson, et al of Ultrafast Ultrasound tissue imaged by models using shear NTNU IR4M / CNRS / UPSUD / Imaging multiphoton Zongliang Cao, et al wave elastography Ji Hoon Jang, et al CEA microscopy Broadcom Inc Johan E. Carlson, et al Stanford University Lulea University of Yiying I. Zhu, et al Technology Miguel Bernal, et al Georgia Institute of Petros Tesfamichael Universidad Pontificia Technology Yemane, et al Bolivariana Norwegian University of Science and Technology (NTNU) 04:45 2C-4 Alternative 3C-4 Individual 4C-4 Development of 5C-4 A Hybrid 3D 6C-4 Experimental 7C-4 Pulse Wave 8C-3 Design of High- elasticity perfluorocarbon a microvascular Thermal / 1D validation of non- Imaging for monitoring Frequency Ultra- pm measurement in deep nanodrop vaporization phantom for studies Piezoelectric Finite collinear wave mixing non-linear material Wideband 1-D CMUT tissue using strain- with 18-MHz plane on microbubble Element Model for model behavior in an Ang-II Arrays for Acoustic photoacoustic imaging waves dynamics and bubble- Rapid Simulation of induced hypertensive Angiography cell interaction inside FBAR Filter Response mouse model Applications a capillary under High Power Hector Hernandez Guan Xu, et al Jeffrey Ketterling, et al Delgadillo, et al University of Michigan Riverside Research University of Twente Paul Kemper, et al Oluwafemi Adelegan, et al Shinji Imai, et al Christopher Kirkendall, et Columbia University North Carolina State Hokkaido University al University Broadcom Inc

05:00 1C-4 Ultrafast Doppler 2C-5 Portable LED- 3C-5 HER2 Targeted 4C-5 Dynamics and 5C-5 Hafnium nitride 6C-5 Full-field Laser- 7C-5 Establishing 8C-4 Microbubble Observation in Rat based photoacoustic Perfluorocarbon Mechanisms of as high acoustic Ultrasound for Reliable Reference Contrast Agent pm Stroke Model --- and ultrasound Nanodroplets for Ultrasound and impedance material for Practical Values for Ultrasound Imaging Using Multi- Comparison with High imaging system for Super-Resolution Microbubble fully insulating Nondestructive Pulse Wave Velocity Frequency CMUT Field Magnetic guiding minimally Ultrasound Imaging Facilitated Intracellular acoustic reflectors Inspection Measurement Methods: Arrays Resonance Imaging invasive procedures Plasmid DNA Uptake An Arterial Phantom with peripheral tissue Validation Study targets Austin Van Namen, et al Mario DeMiguel-Ramos, Eric Flynn, et al Mohammad Maadi, et al Yu-Chieh Kao, et al Dartmouth College Ning Rong, et al et al Los Alamos National University of Alberta Taipei Medical University Tianjin University University of Cambridge Laboratory Adrian J. Y. Chee, et al Mithun Kuniyil Ajith University of Waterloo Singh, et al PreXion Corporation

05:15 1C-5 The continuous 2C-6 Characterizing 3C-6 High-frequency 4C-6 New Insights in 5C-6 Alloy Engineered 7C-6 An ultrasound 8C-5 Broadband vs. cardiac thick-slice non-resolvable tissue molecular ultrasound the Actin Cytoskeleton Single Crystal BAW RF phantom material with sensitive CMUT linear pm acquisition - for structures in imaging using Dynamics of the Filters for 5-6GHz unique features: array: a comparative simultaneous flow and photoacoustic imaging targeted phase-change Sonoporated Human Applications changing viscoelastic study from bare chip tissue motion nanodroplets Umbilical Vein properties while up to the image estimation Endothelial Cells keeping the speed of Eno Hysi, et al Ramakrishna Vetury, et al sound constant Ryerson University Trevor Mitcham, et al Akoustis Maxime Hery, et al Morten Wigen, et al MD Anderson Cancer Caixia Jia, et al Tours University NTNU Center Shanghai Jiao Tong Benjamin Meirza , et al University Lund University

TUESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY POSTER

09:30 am - 04:00 pm Poster --- Tuesday, October 23 Kairaku (posters 1)

Session P1-A2. Session P1-A3. P1-A4-3 Contrast-Enhanced Time-Resolved P1-A5-7 Toward a Shear Wave Based Mode to P1-A7-2 Receive angle steering and clutter Cell Stimulation, HIFU, and Pressure Multifunctional Bubbles and Vector Flow Imaging of Urinary Flow Dynamics Sonographically Monitor the Enrichment of Iron reduction for imaging the speed-of-sound Measurement Applications Oxide Nanoparticles in Drug Targeting inside large blood vessels Applications Takuro Ishii, et al University of Waterloo Maju Kuriakose, et al Chair: Brandon Helfield Chair: Agata Exner Michael Fink, et al University of Bern University of Toronto Case Western Reserve University University of Erlangen-Nuremberg

P1-A2-1 Behavioral responses of ultrasonic P1-A3-1 Biomimetic synthesis of neutrophil- P1-A4-4 Characterization of Heterogeneous P1-A5-8 Shear Wave Computed Tomography P1-A7-3 Computationally Efficient Spatially neuromodulation in freely moving mice microbubble for robust in vivo targeting of Perfusion in Contrast-enhanced Ultrasound with Directional Filtering Variant Deconvolution in Ultrasound Imaging atherosclerotic vulnerable plaques Guofeng Li, et al Michelle Kleckler, et al Chia-Lin Lee, et al Mihai Florea, et al Shenzhen Institutes of Advanced Technology, yang mao, et al University of Minnesota Twin Cities National Taiwan University Aalto University Chinese Academy of Sciences The Key Laboratory of Cardiovascular Remodeling and Function Research, Chinese Ministry of Education

P1-A2-2 Ultrasound stimulation of dopamine P1-A3-2 In vivo acoustic trapping of P1-A4-5 Validation of NSSA-based filtering Session P1-A6. P1-A7-4 Development of extended field of view, neurons in the ventral tegmental area induces microbubbles by a resonant stent using differential targeted enhancement Cardiovascular Elasticity Imaging extended aperture and 3D spatial compounding reanimation from general anesthesia of 3D images to improve ultrasound-based localization of the uterus for radiotherapy Fei li, et al Elizabeth B. Herbst, et al Chair: Hendrik Hansen treatment Tianyuan Bian, et al shenzhen institutes of advanced technology, University of Virginia Radboud University Medical Center Shenzhen Institutes of Advanced Technology, Chinese academy of sciences Chinese Academy of Sciences Sarah Mason, et al Institute of Cancer Research

P1-A2-3 Ultrasound brain stimulation via P1-A3-3 Ultrasound Driven Penetration of Gold P1-A4-6 Dynamic contrast enhanced P1-A6-1 Estimation of the spatial resolution of P1-A7-5 A new adaptive frequency activation of Piezo1 Nanocones in a Tissue Model ultrasound imaging; the effect of imaging a 2D strain estimator using synthetic cardiac compounding method based on a saliency map modes and parameter settings for a images microvascular phantom Zhihai Qiu, et al Xiaoqian Su, et al Sunyoung Oh, et al The Hong Kong Polytechnic University Nanyang Technological University Bidisha Chakraborty, et al SOGANG UNIVERSITY Elahe Moghimirad, et al KU Leuven Joint Department of Physics and CRUK Cancer Imaging Centre, The Institute of Cancer Research and Royal Marsden NHS Foundation Trust, Sutton, London

P1-A2-4 Transcranial focus ultrasound P1-A3-4 Indirect assessment of nanobubble P1-A4-7 A fluid dynamic model for quantitative P1-A6-2 Investigating the degree of shear wave P1-A7-6 Transcranial Imaging Using Coded stimulation modulates saccadic behaviors in size through agarose trapping and ultrasound contrast-enhanced ultrasound imaging: speed anisotropy in function of studied Multiple Transmit Focus Wavefront Synthesis monkey M-Mode imaging validation for the assessment of uteroplacental ventricular zone perfusion Parker O'Brien, et al Xiaojing Long, et al Michael Moore, et al Annette Caenen, et al University of Minnesota Twin Cities Shenzhen Institutes of Advanced Technology, Ryerson University Baudouin Denis de Senneville, et al Ghent University Chinese Academy of Sciences Institut de Mathématiques de Bordeaux

P1-A2-5 High Intensity Focused Ultrasound P1-A3-5 Acoustic characterization of Session P1-A5. P1-A6-3 High frame rate imaging to assess P1-A7-7 Shear shock wave focusing in human Induced Assembly of Suprametallomolecular microbubbles with indocyanine green New Elasticity Imaging Methods myocardial contractility skull phantom: observations with high-frame Hydrogel derivatives for dual contrast imaging using rate ultrasound imaging and matched ultrasound and near infrared fluorescence simulations Chair: Arun Kumar Thittai Marta Orlowska, et al Umesh Jonnalagadda, et al IIT Madras KU Leuven Nanyang Technological University Kenji Yoshida, et al Bharat Tripathi, et al Chiba University University of North Carolina-Chapel Hill P1-A2-6 On the use of spatial coherence for in P1-A3-6 Porphyrin/Camptothecin- P1-A5-1 Hybrid elastography: a new technique P1-A6-4 Imaging the contraction of P1-A7-8 3D Motion Correction for Volumetric situ peak rarefaction pressure estimation Fluoroxyuridine Triad Microbubbles Along with for the assessment of tissue stiffness. mechanically supported ex vivo beating hearts Super-Resolution Ultrasound Imaging Ultrasound and Photodynamic Therapy for Overcoming Multidrug Resistance in Colorectal Bofeng Zhang, et al Cancer Hugo Lorée, et al Louis Fixsen, et al Sevan Harput, et al Duke University Echosens Eindhoven University of Technology Imperial College London

Min Chen, et al Department of Biomedical Engineering, Peking University

P1-A2-7 Ultrasound stimulates insulin P1-A3-7 Ultrasound contrast agent of P1-A5-2 Design and Experimental Validation of P1-A6-5 Bi-directional Ultrasound Assessment P1-A7-9 A Harmonic Motion Imaging (HMI) secretion via activating mechanical sensitive camptothecin-floxuridine microbubbles for Miniature External Mechanical Vibrators of Nonlinear Mechanical Behavior of clinical system for detection and ion channels in pancreatic islet ß cells achieving in situ tumor drug accumulation and towards Clinical Ultrasound Shear Wave Physiologically Pressurized Artery in Both characterization of in-vivo human breast tumors enhancing combined chemotherapeutic efficacy Elastography Normal and Hardening Conditions – Initial feasibility Jinghui Guo, et al The Hong Kong Polytechnic University Xiaolong Liang, et al Heng Yang, et al Yahua Wang, et al Niloufar Saharkhiz, et al Peking University Third Hospital MIT The University of Hong Kong Columbia University

P1-A2-8 Study on dependence of P1-A3-8 The Effect of Lipid Solubilization on P1-A5-3 Quantitative quasi-static ultrasound P1-A6-6 In Vivo Pulse Wave Imaging for Mice P1-A7-10 Quantitative analysis of uterine mechanotransduction sensitivity on the Performance of Doxorubicin-loaded elastography using reference layer: A Carotid Artery Based on 40 MHz Array Ultrafast motion outside pregnancy by dedicated cytoskeletal development using cultured Nanobubbles preliminary Assessment Ultrasound Vector Velocity Estimation ultrasound speckle tracking cardiomyocytes. Pinunta Nittayacharn, et al Sathiyamoorthy Selladurai, et al Yi-Jie Wang, et al Federica Sammali, et al Shota Negishi, et al Case Western Reserve University Indian Institute of Technology Madras(IITM) National Cheng Kung University Eindhoven University of Technology Hokkaido University

P1-A2-9 Real-time field mapping using an Session P1-A4. P1-A5-4 A Convolution Neural Network-based P1-A6-7 High Spatio-Temporal Resolution P1-A7-11 Characterization of the performances ultrasound scanner Contrast-Enhanced Ultrasound Speckle Tracking Method for Ultrasound Arterial Pulse Wave Assessment Using of 4D DCE-US Elastography Multiplane Wave Sliding Decoding Sequence

Kazuhiro Matsui, et al Chair: Hairong Zheng Virginie Grand-Perret, et al INSERM Shenzhen Institutes of Advanced Technology Bo Peng, et al Jinbum Kang, et al IR4M UMR8081 (CNRS, Univ. Paris-Sud, Southwest Petroleum University Sogang University Université Paris-Saclay)

P1-A2-10 Retrospective analysis and P1-A4-1 3D local convective-dispersion P1-A5-5 Mechanical waves in time-dependent Session P1-A7. Session P1-A8. theoretical simulation of the first HIFU treatment characterisation in dynamic contrast-enhanced media may offer a new view on tissue elasticity New Methods and Techniques for Image Guidance and Acoustic point of isointense uterine fibroids on T2WI: a ultrasound recordings based on a finite-element imaging Imaging Microscopy retrospective comparative study scheme Alberico Sabbadini, et al Chair: Hiroshi Kanai Chair: Shinichiro Umemura Faqi Li, et al Rogier R. Wildeboer, et al Delft University of Technology Tohoku University Tohoku University Chongqing Medical University Eindhoven University of Technology

P1-A2-11 Investigation on interaction P1-A4-2 Contrast-agent detection using P1-A5-6 Non-contact sub-surface elastography P1-A7-1 Characterization of B-mode image P1-A8-1 3-D observation of punctual needle by between ultrasound and living tissue orthogonal decoding with pulse-inversion using airborne ultrasound surface motion quality using lag-one coherence (LOC) 2-D shear wave imaging under forced vibration harmonic suppression in Hadamard-encoded camera of needle multi-pulses (HEM) transmission Satoshi Sobue, et al Will Long, et al The University of Tokyo Antoine Aminot, et al Duke University Yoshiki Yamakoshi, et al Che-Chou Shen, et al Institut Langevin, CNRS, ESPCI Paris, PSL Gunma University National Taiwan University of Science and Research University Technology

TUESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY POSTER

09:30 am - 04:00 pm Poster --- Tuesday, October 23 Kairaku (posters 1)

P1-A8-2 In vivo microultrasound visualisation P1-A9-7 Enhanced Second Harmonic Imaging P1-A11-3 Rapid Histotripsy Treatment Using P1-A12-4 High Voltage Excitation and Nonlinear P1-A13-6 Tunable Manipulation of of nerve trauma due to regional anaesthesia using a Pulse Compression Technique Protocol of Fundamental and Second Harmonic Transmission of a 16 MHz AlN-Based Microparticles by CMUT needle insertion and injection Combined with Ultrasound Pulse Inversion Superposition Combined with Hundred- Piezoelectric Micro-Machined Ultrasonic Microsecond Ultrasound Pulses with Sector Transducer Array Approach: Initial Experiments Changde He, et al Anu Chandra, et al Yanis Mehdi Benane, et al North University of China University of Dundee Univ.Lyon, INSA-Lyon, UCBL1, UJM-Saint Etienne, Wen-Juan Liu, et al CNRS, Inserm, CREATIS UMR 5220, U1206 Mingzhu Lu, et al IEMN-DOAE The key Laboratory of Biomedical Information Engineering of Ministry of Education, Xian Jiaotong Univ.

P1-A8-3 Thermal Strain Imaging for Session P1-A10. P1-A11-4 Thrombotripsy for venous P1-A12-5 A Row–Column-Addressed 2D Probe P1-A13-7 A 50MHz CMUT Probe for Medical Sonodynamic Therapy Monitoring: ex vivo and Cardiovascular System recanalization using a high frequency with an Integrated Compound Diverging Lens Ultrasound Imaging in vivo Feasibility Studies transducer of 2.25MHz in a porcine model of femoral venous thrombosis Chair: Chih-Chung Huang Mathias Engholm, et al Steve Zhuang, et al Fu-Feng Lee, et al National Cheng Kung University Technical University of Denmark Kolo Medical Inc. Department of Biomedical Engineering, Tsinghua Guillaume Goudot, et al University Institut Langevin, INSERM U979

P1-A8-4 Reconstruction of Quantitative P1-A10-1 Characterizing the erythrocyte P1-A11-5 Generation of medium-high intensity P1-A12-6 Flexible piezoelectric micromachined P1-A13-8 CMUT surface functionalization with Acoustic Microscopy Images from RF Signals aggregation using the anisotropy of ultrasonic focused acoustic vortex and its application in ultrasonic transducers towards new imine-based polymer for SO2 gas detection Sampled at Innovation Rate backscatter sonothrombolysis applications applications

Jong-Hoon Kim, et al Julien Rouyer, et al Shifang Guo, et al Sheng Sun, et al Dovydas Barauskas, et al University of Toulouse Aix-Marseille université, CNRS, Centrale Marseille School of Life Science and Technology, Xi`an Tianjin University Kaunas University of Technology Jiaotong University

P1-A8-5 A Study for B-Mode Imaging using 100- P1-A10-3 Coronary Plaque Characterization P1-A11-6 Dual-frequency ultrasound P1-A12-7 A Study on Structural Parameters for P1-A13-9 Analysis and Design of High MHz-Range Ultrasound through a Fused Quartz from IVUS Image by using Artificial Intelligence thrombolysis using a high intensity focused Optimizing Wide-band Property of Diaphragm- Frequency CMUT Arrays in Non-Collapsed Fiber Technique ultrasound transducer array Type Transducer Using Piezoelectric Thick Film Mode

Takasuke Irie, et al Yi-Chen Li, et al Wu Sun, et al Yuya Ishiguro, et al Evren Arkan, et al Microsonic Co., Ltd National Cheng Kung University Shenzhen Institutes of Advanced Technology, Tokyo Metropolitan University Georgia Institute of Technology Chinese Academy of Sciences

P1-A8-6 In vitro volume imaging of articular P1-A10-4 Quantitative ultrasound spectroscopy P1-A11-7 High intensity focused ultrasound P1-A12-8 A 6-Degree-of-Freedom Piezoelectric cartilage using chirped coded high frequency measurements of erythrocyte aggregation (HIFU) combines shear wave optical coherence Vibration Microstage with Reduced Cross-Axis ultrasound within superficial veins elastography (SW-OCE) for diseases treatment Coupling and evaluation Anowarul Habib, et al Guy Cloutier, et al Yi Zhang, et al UiT The Arctic University of Norway University of Montreal Hospital Kanheng Zhou, et al University of Electronic Science and Technology of University of Dundee China

Session P1-A9. P1-A10-5 Experimental verification of P1-A11-8 Low-cost ultrasound thermometry for P1-A12-9 Electrical Tuning of Focal Size with Leveraging Deep Learning and Pulse relationship between red blood cell aggregation HIFU therapy using CNN Single Focused Ultrasonic Transducer Compression degree and peak frequency of ultrasonic reflection spectrum with real blood Younsu Kim, et al Yongkui Tang, et al Johns Hopkins University University of Southern Califronia Chair: Mathieu Pernot Takayuki Sato, et al INSERM Tokyo Metropolitan University P1-A9-1 Learning Doppler with convolutional P1-A10-6 Red blood cell aggregation P1-A11-9 Feasibility Study on Noise Reduction Session P1-A13. neural networks (DopplerNet) and its measurement with 40-MHz ultrasound has a Using Continuous Wave Response of Micromachined Transducers - II application to intra-cardiac echography possibility for noninvasive evaluation of blood Therapeutic Ultrasound for High Intensity glucose level in patients with diabetes Focused Ultrasound Treatment Chair: Omer Oralkan Ruud J. G. van Sloun, et al North Carolina State University Eindhoven University of Technology Kanta Nagasawa, et al Ryo Takagi, et al Tohoku University National Institute of Advanced Industrial Science and Technology (AIST)

P1-A9-2 WaveFlow – Towards Integration of P1-A10-7 Nonlinearly Generated Second P1-A11-10 Patched Optimal Scanning Pathway P1-A13-1 A 120+120-Element Crisscross CMUT Ultrasound Processing with Deep Learning Harmonic Ultrasonic Backscatter for with Brute-force Approach for Time Reduction Probe with Real-Time Switchable Electronic and Determining Composition of Human Carotid in High Intensity Focused Ultrasound Treatment Fresnel Focusing Capabilities Plaque Piotr Jarosik, et al Institute of Fundamental Technological Research, Euisuk Chung, et al Alessandro Stuart Savoia, et al Polish Academy of Sciences Russell Fedewa, et al Sogang University Roma Tre University Cleveland Clinic

P1-A9-3 Localization of partially visible needles P1-A10-8 Laser-generated focused ultrasound Session P1-A12. P1-A13-2 CMUT based air coupled transducers in 3D ultrasound using dilated convolutional back-scattered signal analysis for Micromachined Transducers - I for gas-mixture analysis neural networks differentiating blood and clot: A quantitative study Chair: Omer Oralkan Priyadarshini SHANMUGAM, et al Arash Pourtaherian, et al North Carolina State University GREMAN UMR-CNRS 7347, Université de TOURS Eindhoven University of Technology Deblina Biswas, et al Sungkyunkwan University

P1-A9-4 Grading severity of rheumatoid Session P1-A11. P1-A12-1 Efficiency and bandwidth of P1-A13-3 CMUT-based single element arthritis on ultrasound images with deep Histotripsy, Sonothrombolysis and experimental capacitive and commercial piezo transducer applied to 1D transient ultrasound convolutional neural networks HIFU transducers elastography

Jian Tang, et al Borislav Gueorguiev Tomov, et al Dominique Certon, et al Chair: Shin Yoshizawa Nanjing University Technical University of Denmark Tours University Tohoku University

P1-A9-5 Improved Decorrelation Based P1-A11-1 Non-invasive Histotripsy Aberration P1-A12-2 A PMUT array with dynamic P1-A13-4 Capacitance-Voltage Characterization Elevational Motion Estimation with Singular Correction for Soft-Tissue using Cavitation- directivity: A study of its underwater acoustic of CMUT Arrays: Analytical modeling, Value Decomposition and Machine Learning induced Shockwaves power intensity simulations, and experiments

Ching-Yen Lee, et al Jonathan Macoskey, et al Sina Sadeghpour, et al Erik Thomsen, et al National Taiwan University University of Michigan KU Leuven Technical University of Denmark

P1-A9-6 Ultrasound Probe Bandwidth P1-A11-2 Histotripsy Volume Ablation Enabled P1-A12-3 Study on Wide-band Piezoelectric P1-A13-5 Electrode resistance considerations Enhancement Combined with Non-Stationary by Electronic Focal Steering and Bubble Micro-machined Ultrasound Transducers for large CMUT arrays Compression Filters to Improve Image Quality Coalescence (pMUT) by Combined Resonance Frequencies and Controlling Poling Directions. Andreas Havreland, et al Yanis Mehdi Benane, et al Jonathan Lundt, et al Technical University of sDenmark Univ.Lyon, INSA-Lyon, UCBL1, UJM-Saint Etienne, University of Michigan Kenji Suzuki, et al CNRS, Inserm, CREATIS UMR 5220, U1206, Lyon KONICAMINOLTA, INC.

TUESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY POSTER

09:30 am - 04:00 pm Poster --- Tuesday, October 23 Waraku (posters 2)

Session P2-A1. P2-A2-3 Effect of Backing on Carbon-Polymer P2-A3-6 Plane-Wave Phase Coherence Imaging P2-A4-8 In Vivo 40 MHz Ultrafast Ultrasound P2-A6-3 Deep learning for limited-view PTF & PTE: Thin Films and High Nanocomposite Sources for Laser Generation with Singular Value Decomposition Vector Doppler Imaging (VDI) for Mice Carotid photoacoustic tomography reconstruction Power Ultrasonics of Broadband and High Amplitude Ultrasound Artery Hideyuki Hasegawa, et al Yuan Zhou, et al Srinath Rajagopal, et al University of Toyama Hsin Huang, et al Tsinghua University Chair: Koen W.A. van Dongen University College London National Cheng Kung University TU Delft

P2-A1-1 DC-induced piezoelectric cubic PMN- P2-A2-4 Magnetically mediated thermoacoustic P2-A3-7 Low-complexity Delay-Multiply-and- Session P2-A5. P2-A6-4 Using deep neural networks to remove PT/ piezoelectric tetragonal PZT epitaxial stack signal enhanced by coupled magnetic Sum (DMAS) beamforming using baseband Novel Instrumentation and photoacoustic reflection artifacts in ex polarity inverted resonators for frequency resonance spatial coherence Approaches in Photoacoustic vivo tissue switchable filters Imaging Yunqi Luo, et al Che-Chou Shen, et al Derek Allman, et al Takahiro Shimidzu, et al Nanyang Technological University National Taiwan University of Science and Johns Hopkins University Waseda University Technology Chair: Sophinese Iskander-Rizk Erasmus Medical Center

P2-A1-2 Evaluation of frequency shifts in P2-A2-5 Improved lateral resolution using sub P2-A3-8 Phase aberration correction of focused P2-A5-1 An automated breast ultrasound Session P2-A7. thickness-shear mode resonator consisting of pitch sampling of ultrasound data for pulsed ultrasound by optimized refraction- scanner with integrated Doppler flow imaging Industrial Applications c-axis parallel oriented ZnO film for viscosity laser diode-based photoacoustic imaging compensation method and shear wave elastography measurement Chair: Kentaro Nakamura Sowmiya Chandramoorthi, et al Jun Yasuda, et al Corey Kelly, et al Tokyo Institute of Technology Masaya Miyata, et al Indian Institute of Technology Madras(IITM) Hitachi, ltd. University of British Columbia Doshisha university

P2-A1-3 ScAlN free-standing 0.1 mm plates P2-A2-6 Analysis of Elastic Vortex Waves for P2-A3-9 A New Compounding Method for High P2-A5-2 3D Photoacoustic and Ultrafast P2-A7-1 Evaluation of engine oil deterioration with 30-50 MHz resonance frequency Optical Orbital-Angular-Momentum Mode Contrast Ultrafast Ultrasound Imaging Based on Ultrasound Volumetric Flow Imaging with a using shear horizontal surface acoustic wave Conversion by Acoustooptic Interaction Delay Multiply and Sum Bias-Switchable Row-Column 2D Array sensor based on acoustoelectric interaction Chiaki Masamune, et al Waseda University Takuya Shoro, et al Dooyoung Go, et al Chris Ceroici, et al Saya Kobayashi, et al Tokushima University Sogang University University of Alberta Shizuoka University

P2-A1-4 Picosecond-ultrasound study on P2-A2-7 Acousto-Optic Modulator Driven by P2-A3-10 A real-time lag one coherence tool for P2-A5-3 Laser-generated focused ultrasound P2-A7-2 Application of Ultrasonic Assisted End interlayer interaction of monocrystal graphite Longitudinal Leaky Surface Acoustic Waves on adaptive imaging system using CNT-PDMS optoacoustic lenses Milling for Glass Material Bonded Structures for micro-precision tissue treatment Atsuki Wake, et al Nick Bottenus, et al Akira Yoneyama, et al Osaka University Kentaro Hakiri, et al Duke University Jeongmin Heo, et al Yamanashi Industrial Technology Center Integrated Graduate School of Medicine, Sungkyunkwan university Engineering, and Agricultural Sciences, University of Yamanashi

P2-A1-5 Morphology Change of Ultrathin Films P2-A2-8 Minimization of group delay dispersion Session P2-A4. P2-A5-4 The effectiveness of the P2-A7-3 An ultrasonic flextensional array for Studied by Noncontact Piezoelectric Resonance for platelet piezoelectric transducers of Vector Flow Measurements omnidirectional illumination in full-ring acoustic emission techniques on concrete Method acousto-optic devices photoacoustic tomography structures

Chair: Adrian Chee Tomoya Ueno, et al Vladimir Molchanov, et al University of Waterloo Suhail Alshahrani, et al Monica La Mura, et al Osaka University National University of Science and Technology Wayne State University University of Salerno MISIS P2-A1-6 Deposition of Pd semicontinuous films Session P2-A3. P2-A4-1 Quantitative vascular blood flow P2-A5-5 Internal-illumination Photoacoustic P2-A7-4 Modelling and electrical using resistive spectroscopy for hydrogen Adaptive Beamforming imaging: A comparison of vector velocity Computed Tomography with 15-cm Penetration characterization of a cantilever mechanical sensor estimation schemes Depth energy harvester

Chair: Francois Varray Nobutomo Nakamura, et al INSA Lyon Ingvild Kinn Ekroll, et al Mucong Li, et al Thien Hoang, et al Osaka University CIUS, Norwegian University of Science and Duke University Vermon SA Technology, NTNU

P2-A1-7 Investigation of morphotropic phase P2-A3-1 A New Compensated Coherence P2-A4-2 Intraventricular blood velocity P2-A5-6 Axial-Resolution Improved Optical Session P2-A8. boundary in sputter-grown Pb(Zrx,Ti1-x)O3 Factor Beamforming Method for Ultrasound B- measurements – a comparison between iVFM Resolution Photoacoustic Microscopy Using NDE epitaxial films mode Imaging: Preliminary Evaluation in and blood speckle tracking Minimum-Variance Spectral Apodization and Simulation and in-vivo Breast Studies Coherence Weighting Chair: Robert Addison Ryuta Noda, et al Magnus Sælemsminde, et al Rockwell Science Center Waseda University Youngjo Oh, et al Norwegian University of Science and Technology Hong-Sheng Chen, et al Sogang University (NTNU) National Tsing Hua University

P2-A1-8 Polymer films joining with High- P2-A3-2 Short-lag Spatial Coherence Imaging in P2-A4-3 High Frequency Ultrafast Ultrasound P2-A5-7 Simultaneous photoacoustic and P2-A8-1 A GPU-based Portable Phased-Array Intensity Focused Ultrasound: investigation of 1.5-D and 1.75-D Arrays: Beamforming and Vector Flow Imaging for Mice Brain Without ultrasound imaging using a hemispherical System with Full-Matrix Capture the physical principles Array Design Considerations Contrast Agents sensor array Marcin Lewandowski, et al Coralie Koo Sin Lin, et al Matthew Morgan, et al Chin-Fang Hsieh, et al Shunto Takaoka, et al Institute of Fundamental Technological Research, Technische Universität Dresden Duke University National Cheng Kung University Kyoto University Polish Academy of Sciences

Session P2-A2. P2-A3-3 Benefits of adaptive beamforming P2-A4-4 Vortex Ring Phantom for Investigation Session P2-A6. P2-A8-2 Stress dependence of magnetic POA: Opto-Acoustics methods for contrast enhanced high frame-rate of Ultrasound Vector Flow Imaging All-Optical Photoacoustic Imaging hysteresis properties through acoustically ultrasound and Computational Approaches stimulated electromagnetic response in steel Chair: Koen W.A. van Dongen Emilia Badescu, et al Antonio Stanziola, et al Université de Lyon, CREATIS ; CNRS UMR5220 ; Yuhei Suzuki, et al TU Delft Chair: Meng-Lin Li Imperial College London Inserm U1206 ; INSA-Lyon ; Université Lyon 1, Tokyo Univ. of A & T National Tsing Hua University France

P2-A2-1 Sparsity-promoting opto-acoustic P2-A3-4 A dynamic generalized coherence P2-A4-5 Inter-leaved Synthetic Aperture P2-A6-1 Dual-modality All-Optical Ultrasound P2-A8-3 Defect detection in billet using plane- imaging with source estimation factor based on Van Cittert-Zernike theorem Sequences for Measuring High Vector Flow and Photoacoustic Imaging Using Permanent wave and time-of-flight deviation with Velocities Marker Ink transmission method Rajiv Kumar, et al Ali Fatemi, et al Georgia Institute of Technology NTNU Jørgen Jensen, et al Richard Colchester, et al Ryusuke Miyamoto, et al Technical University of Denmark University College London University of Tsukuba

P2-A2-2 Regularized Capon Beamformer using P2-A3-5 Adaptive loading in minimum variance P2-A4-7 Simultaneous Tissue and Flow P2-A6-2 Adaptive All-Optical Ultrasound P2-A8-4 Study about non-contact measurement L1-Norm Applied to Photoacoustic Imaging beamforming for passive imaging of acoustic Estimation using Plane Waves and Transverse Imaging through Temporal Modulation of of the acoustic property in an incline-sided cavitation Oscillation on In Vivo Carotid Excitation Light tissue using pass-through airborne ultrasound Roya Paridar, et al Tarbiat Modares University Tao Sun, et al Vincent Perrot, et al Erwin Alles, et al Shinnosuke Hirata, et al Brigham and Women’s Hospital, Harvard Medical Univ.Lyon, INSA-Lyon, UCB Lyon 1, UJM-Saint University College London Tokyo Institute of Technology School Etienne, CNRS, Inserm

TUESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 TUESDAY POSTER

09:30 am - 04:00 pm Poster --- Tuesday, October 23 Waraku (posters 2)

P2-A8-5 Ultrasonic Pattern Recognition P2-A9-9 Equivalent Circuit Analysis of a P2-A11-2 Study for Temperature Coefficient of P2-A13-2 Microbubble Non-linear Oscillation Algorithm based on Multilayer Perceptron Piezoelectric Multilayered Structure for In-Air Frequency of Surface Acoustic Wave Devices Induced Acoustic Micromixing within Neural Network Ultrasound Sensors with SiOxNy Film Using LiTaO3 Substrate Microfluidic Devices

Boyang Wang, et al Muhammad Shakeel Afzal, et al Atsushi Nishimura, et al Wenjun Zhang, et al Illinois Institute of Technology Kyungpook National University Skyworks Solutions, Inc. Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences

P2-A8-6 Study of amount of gas in soft P2-A9-10 Blood Coagulation Time P2-A11-3 Longitudinal Leaky SAW with Low P2-A13-3 Nanocrystalline Optomechanical container using the noncontact acoustic Measurement Using a 1µL of Whole Blood on a Attenuation on LiTaO3 Thin Plate Bonded to Cavity Excited by SAW Launchers inspection method TE Mode BAW Resonator Quartz Substrate Jouni Ahopelto, et al Shigeya Kawai, et al Negar Majidi, et al Junki Hayashi, et al VTT Technical Research Centre of Finland Graduate School of Engineering, Toin University of Electrical and Electronics Engineering, Ozyegin University of Yamanashi Yokohama University

P2-A8-7 Ultrasonic Communication System P2-A9-11 Non-contact measurement of surface P2-A11-4 Optimized Y-rotated cut of LiNbO3 P2-A13-4 Improving PMUT Transmit Design using Electromagnetic Acoustic wave speeds and estimation of Young’s moduli with least anisotropic and higher Performance via Sub-Micron Thickness Scaling Transducer of tissue-mimicking phantoms by using focused electromechanical in-plane properties for airborne ultrasound omnidirectional surface acoustic waves propagation Xiaoyue Jiang, et al Xin Huang, et al UC Berkeley Illinois Institute of Technology Marie Tabaru, et al Tokyo Institute of Technology Naiqing Zhang, et al University of California, San Diego

Session P2-A9. P2-A9-12 A Novel Phase Evaluation Method for P2-A11-5 Novel Cuts of Quartz Crystals for P2-A13-5 Specificity and sensitivity Sensors Range Detection by Hybrid SAW sensors SAW Resonators with Cubic Frequency- characterization of a resonant bio-sensor made temperature Relations of gallium arsenide

Chair: David Greve Zixiao Lu, et al institute of acoustics, chinese academy of sciences Shaoyun Wang, et al DWGreve Consulting Thérèse Leblois, et al Ningbo University FEMTO-ST

P2-A9-1 ULTRA SONIC CAVITY RESONANCE Session P2-A10. Session P2-A12. P2-A13-6 High-throughput sonoporation of METHOD FOR FLUID QUALITY MONITORING SAW Modeling & Design I BAW Device & Application I single cells within a microfluidic chip APPLICATION

Chair: Ryo Nakagawa Chair: Amelie Hagelauer Xiufang Liu, et al Daijiro Miyazaki, et al Murata Manufacturing Co., Ltd. University of Erlangen-Nuremberg TE connectivity Paul C. Lauterbur Research Center for Biomedical Imaging

P2-A9-2 Acoustic sensor for non-contact P2-A10-1 Acoustic Wave Filter Topologies for P2-A12-1 A Hybrid Acoustic-Wave Resonator P2-A13-7 First steps towards simultaneous analysis of bacterial cells in conducting enhanced performance and Lumped-Element Ladder Filter isolation and detection of exosomes with suspensions carbon nanotube-based SMRs Jordi Mateu, et al Michael Wagner, et al Irina Borodina, et al Universitat Politecnica de Catalunya Friedrich-Alexander-University Erlangen- Teona Mirea Kotel'nikov Institute of Radio Engineering and Nuremberg Universidad Politecnica de Madrid Electronics of RAS, Saratov Branch P2-A9-3 A Delay-line Sensor Based on Wedge P2-A10-2 Fast SAW Device Simulation in P2-A12-2 Resonant and antiresonant Waves COMSOL Using the Hierarchical Cascading frequencies behavior with temperature changes Method in gravimetric sensors Che-Hua Yang, et al National Taipei University of Technology Aleksey Shimko, et al Teona Mirea, et al Tai-Saw Technology Co. Ltd Universidad Politecnica de Madrid

P2-A9-4 Quantifying the performance of state P2-A10-3 A nonlinear FEM model to calculate P2-A12-3 FBAR oscillator stabilized by Rb of the art fiber optic sensors to measure guided third harmonics and intermodulation in TC-SAW atomic resonator for SHF/EHF band wireless elastic waves devices devices

Gert-Jan van Groenestijn, et al Vikrant Chauhan, et al Motoaki Hara, et al TNO Friedrich-Alexander-University Erlangen- National Institute of Information and Nuremberg Communications Technology

P2-A9-5 Integrated Transmitting and Receiving P2-A10-4 P-matrix model for third order electric P2-A12-4 Laterally acoustically coupled BAW Mode Graphene Microphone Array and acoustic nonlinearities in TC-SAW devices filters at 3.6 GHz

Kaihua Cao, et al Vikrant Chauhan, et al Tuomas Pensala, et al Wuhan University of Technology Friedrich-Alexander-University Erlangen- VTT Technical Research Centre of Finland Nueremberg

P2-A9-6 Gas sensor based on the piezoelectric P2-A10-5 Electrothermal modeling of TC SAW P2-A12-5 Investigation of thermal and non- resonator with lateral electric field and film of filter linear effects on the performance of the power chitosan glucolate amplifier - BAW filter - chain in a LTE transmitter Wolfgang Akstaller, et al Boris Zaitsev, et al Friedrich-Alexander-University Erlangen- Kotelnikov's Institute of Radio Engineering and Nueremberg Uwe Stehr, et al Electronics of RAS, Saratov Branch TU Ilmenau

P2-A9-7 Influence of Viscoelastic Stress Session P2-A11. Session P2-A13. Relaxation of Glass-frit Sealing layer on the SAW Device & Application I MEMS & Application I Frequency Stability of a Dual-mode Quartz Pressure Sensor under extreme Pressure Conditions Chair: Jidong Dai Chair: Shuji Tanaka Murata Electronics North America, Inc. Tohoku University Mihir Patel, et al Schlumberger Tech Corp

P2-A9-8 Pressure and Temperature Sensitivity P2-A11-1 Experimental observation of high- P2-A13-1 On the implementation of mode of a Dual-mode Quartz Pressure Sensor for velocity surface acoustic wave (HVSAW) on localization between physical and digital High Pressure Applications highly-textured ScAlN/Sapphire bilayer resonators structure. Application to high frequency devices. Mihir Patel, et al Claude Humbert, et al Schlumberger Tech Corp FEMTO-ST Florian Bartoli, et al CentraleSupélec

TUESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

08:00 am -09:30 am Oral --- Wednesday, October 24

Session 1D. Session 2D. Session 3D. Session 4D. Session 5D. Session 6D. Session 7D. Session 8D. Novel Contrast Tissue Ablation and Advanced Prostate, Thyroid PAT: Acoustic Flow Measurement New High Frequency Agents Vascular Imaging using Beamforming I Elasticity, and Tweezers and and Industrial Developments in and IVUS Photoacoutics (Mustafa Mechanical Particle Applications Medical Imaging Chair: Ayache Karaman Anisotropy Manipulation Chair: Jian Yuan Bouakaz Chair: Michael Kolios Memoriam) Chair: Nishal Ramadas Chair: Kang Kim ALS Shanghai INSERM Ryerson University Chair: Caterina Chair: Eun Sok Kim Elster Instromet University of Pittsburgh Chair: Matthew Gallippi University of Southern O'Donnell University of North California University of Carolina Washington Sapphire Topaz (400) Diamond (300) Emerald (280) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) (220) 08:00 1D-1 Bio- 2D-1 Atrial RF ablation with 3D-1 Multi-covariate 4D-1 evaluation of 5D-1 Magnetic-Free 6D-1 3D flow mapping 7D-1 Image-guided 8D-1 In vivo imaging distribution of gas dual wavelength Imaging of Sub- transrectal Radio Frequency for Lorentz force driven photo-mediated of a porcine am vesicles for cancer photoacoustic imaging resolution Targets ultrasound shear Circulator Based on liquid metal flows in ultrasound therapy coronary artery with molecular (MIST) wave elastography Spatiotemporal crystallization as a novel anti- a 30/80 MHz dual ultrasound imaging (SWE) imaging in Modulation of MEMS experiments vascular treatment frequency Sophinese Iskander-Rizk, et detection and Resonators for eye diseases intravascular al William Walker, et al characterization of ultrasound catheter Guohao Wang, et al Erasmus MC Duke University clinically localized Kevin Mäder, et al The Hong Kong prostate cancer Matteo Rinaldi, et al Technische Universität Xinyi Xie, et al Polytechnic University Northeastern Dresden University of michigan Chelsea Munding, et University al Cheng Wei, et al University of Toronto University of Dundee

08:15 1D-2 Nonlinear X- 2D-2 Real-Time, Video-Rate 3D-2 Synthetic 4D-2 Prostate Shear 6D-2 Feasibility of 7D-2 High- 8D-2 Development wave ultrasound and Depth-Resolved adaptive refocusing Wave Elastography: ultrasound flow resolution imaging of Dual-Element am imaging of acoustic Imaging of Radio-Frequency of ultrafast plane Multiresolution measurements via non- of the breast using Intravascular biomolecules Ablation using All-Optical waves through Reconstruction linear wave propagation full-waveform Ultrasound Ultrasound aberrating media Dependence on inversion Transducers for Push Beam Spacing Third Harmonic Daniel Sawyer, et al Jack Massaad, et al Tissue Imaging Caltech Erwin Alles, et al Hanna Bendjador, et TU Delft Oscar Calderón University College London al Derek Y. Chan, et al Agudo, et al Institut Langevin, Duke University Imperial College JUNSU Lee, et al ESPCI Paris, PSL London Sogang University Research University, CNRS UMR 7587, INSERM U979

08:30 1D-3 Acoustic 2D-3 Automatic detection of 3D-3 Ultrasound 4D-3 Correlation 5D-2 Trajectory 6D-3 Development of a 7D-3 Respiratory 8D-3 Axially- Biomolecules as healthy arterial wall tissue Transcranial between 3D ARFI Optimization of non-intrusive in-line motion Segmented am Genetically in vivo using photoacoustic Imaging based on and quantitative Levitated Particles in tomographic ultrasonic compensation for Cylindrical Encodable Nuclei for multi-spectral imaging Fast Coherent-time- imaging metrics Mid-air Ultrasonic velocity meter to localization-based Transducer Array for Inertial Cavitation delay and from SWEI and Standing Wave measure liquid rheology ultrasound super- Intravascular ARFI Correlative Pixel- multi-parametric MRI Levitators resolution imaging and SWEI Imaging Tobias Erlöv, et al based Beamforming in vivo in normal and Avinoam Bar-Zion, et Lund University cancerous prostate Paul van Neer, et al al tissue Tatsuki Fushimi, et al TNO Jaesok Yu, et al Arsenii Telichko, et al California Institute of Chen Bai, et al University of Bristol University of Stanford University Technology School of Life Science Pittsburgh and Technology, Xi`an D. Cody Morris, et al Jiaotong University Duke University

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

08:45 1D-4 Fluorine- 2D-4 Multi-spectral 3D-4 Distributed 4D-4 Elastography 5D-3 Acoustic 6D-4 Flow Imaging 7D-4 3D Super- 8D-4 A novel dual- modified photoacoustic morphology Phase Aberration of the thyroid by Biomolecules through a Multimode Resolution frequency am Superhydrophobic assessment of human Correction tracking shear Enable Acoustic Waveguide using a Time Ultrasound Imaging transducer for Amorphous Calcium carotid plaques using blind Techniques Based waves generated by Trapping and Reversal Virtual Array using a 2D Sparse intravascular Carbonate- spectral unmixing and on Local Sound vocal cords Manipulation of Array with High ultrasound Doxorubicin histologic validation Speed Estimates vibrations Genetically Volumetric Imaging Nanoparticles for Engineered Cells Richard Nauber, et al Rate Ultrasound TU Dresden Min Su, et al Theranostics Mustafa Umit Arabul, et al Rehman Ali, et al Steve Beuve, et al Shenzhen Institutes of Eindhoven University of Stanford University UMR 1253 iBrain, Di Wu, et al Sevan Harput, et al Advanced Technology Université de Tours, Caltech Imperial College Technology, Chinese Pei-Hua Chiang, et al Inserm London Academy of Sciences National Tsing Hua University

09:00 1D-5 Chemical and 2D-5 Simulation of 3D-5 Matrix 4D-5 Assessing 5D-4 Particle 6D-5 27 kHz Ultrasonic 7D-5 Detection of 8D-5 High frequency acoustic photoacoustic imaging of approach of Mechanical Manipulation and Complex Vibration distal forearm ultrasound needle am characterization of a red blood cell aggregation ultrasound imaging Anisotropy in Separation Using Welding System Using fractures using transducer based on novel ultrasound using a numerical model of and quantification Transversely Macro-Scale Bulk Various Exchangeable bone-enhanced 3D modified PMN-PT contrast agent pulsatile blood flow Isotropic (TI) Elastic Angled Standing Welding Tips for ultrasound imaging ceramic with Materials Using Waves Different Welding ultrahigh clamped William Lambert, et al ARFI-Induced Peak Specimens dielectric Simone A. G. Tae-Hoon Bok, et al Institut Langevin Displacement (PD) at Von F. Botteicher, et permittivity Langeveld, et al Ryerson University Electronically Kedar Chitale, et al al Erasmus MC Steered Rotation Flodesign Sonics Jiromaru Tsujino, et al Rivanna Medical, LLC Angles Kanagawa University Zhiqiang Zhang, et al Shenzhen Institutes of Advanced Md Murad Hossain, et Technology, Chinese al Academy of Sciences The University of North Carolina at Chapel Hill

09:15 1D-6 Characterization 2D-6 Improving tissue 3D-6 Experimental 4D-6 Anisotropic 5D-5 Numerical 6D-6 Automatic 7D-6 Implementation 8D-6 Development of the in-vivo uptake oxygenation estimation Cross –Talk Constructive simulation of estimation of borehole and Clinical of a KNN ceramic am of novel contrast using photoacoustic reduction for 3D Shearwave particle motion in a shape using ultrasonic Evaluation of a Fetal based lead-free agents using spectral analysis multi-line Interference (ACSI) phase modulated data while drilling ALARA System array transducer for photoacoustic transmission Measurements of surface acoustic high-frequency radiofrequency Transverse wave microfluidic ultrasound spectra Muhannad N. Fadhel, et al Anisotropic device Hadrien DOLLFUS, et al Katelyn Flint, et al Keenan Research Centre for Emilia Badescu, et al Elasticity Schlumberger K.K Duke University Biomedical Science of St. Université de Lyon, Zhiqiang Zhang, et al Yanjie Wang, et al Michael’s Hospital CREATIS ; CNRS Gergely Simon, et al Shenzhen Institutes of Ryerson University UMR5220 ; Inserm Peter Hollender, et al Heriot-Watt University Advanced U1206 ; INSA-Lyon ; Duke University Technology, Chinese Université Lyon 1, Academy of Sciences France

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

10:30 am -12:00 pm Oral --- Wednesday, October 24

Session 1E. Session 2E. Session 3E. Session 4E. Session 5E. Session 6E. Session 7E. Session 8E. Microbubbles and Photoacoustics and Advanced Abdominal Organ SAW Modeling & Cancer New Special Session: Nanobubbles Imaging beamforming II Elasticity Design 2 Developments in Technologies and Chair: Gregory Czarnota Brain Imaging Challenges for 3D Chair: Mike Averkiou Chair: William Wright Chair: Jeremy Dahl Chair: Shigao Chen Chair: Marc Solal University of Toronto Imaging University of University College Cork Stanford University Mayo Clinic Qorvo,Inc Chair: Russell Witte Washington University of Arizona Chair: Alfred Yu University of Waterloo Sapphire Kikusui (140) Topaz (400) Diamond (300) Emerald (280) Ikuta (200) Nunobiki (150) Ruby (200) (220) 10:30 1E-1 Molecular 2E-1 Guided acoustic wave 3E-1 Experimental 4E-1 Feasibility of 5E-1 Study on High- 6E-1 Quantitative 7E-1 Ultrafast 4D 8E-1 Modular Modulation of in a single Pt nanowire Implementation of Young’s modulus Isolation SAW ultrasound-based Doppler Imaging of fabrication and am Biological Resolution mapping in Duplexer with On- detection of cancerous the rat brain with a assembly of large 2D Membranes by Enhancement Pancreatic Ductal Chip SAW thyroid nodules large aperture Row Arrays with interface Phospholipid Hiroki Tamura, et al Compression for Adenocarcinoma Compensation Column addressed ASICs, PIN-PMN-PT Microbubbles Osaka University Ultrasound (PDA) tumors Using Circuit Optimized for probe composite, and 3D Diverging Wave Harmonic Motion Isolated Multiple Daniel Rohrbach, et al printed backing Compounding using Elastography (HME) Frequency Bands Riverside Research Eleanor Stride, et al a Tri-State Voltage ex vivo and in vivo Jack Sauvage, et al Oxford University Drive Institut Langevin, Robert Wodnicki, et al Masafumi Iwaki, et al ESPCI Paris University of Southern Alireza Nabavizadeh, TAIYO YUDEN CO., California Yanis Mehdi Benane, et al LTD. et al Columbia University Univ.Lyon

10:45 2E-2 Imaging of wrinkles in 3E-2 The Detection 4E-2 The influence 5E-2 Low-loss, high- 6E-2 Quantitative 7E-2 3D 8E-2 Prototype 3D CFRP composites with Probability of of shear modulus on frequency and large- Ultrasound and Texture Transcranial real-time imaging am laser-ultrasound and tilt Adaptive drug uptake in coupling SH SAW Predictors of Breast Ultrasound system based on a filter signal processing Beamformers pancreatic ductal resonators based on Tumor Response to Tomography of the sparse PZT spiral adenocarcinoma: an SiN/LiNbO3/Si Chemotherapy Prior to Brain in Small array in vitro study Treatment Animals using Full- Lukasz Ambrozinski, et al Alfonso Rodriguez- Waveform Inversion AGH University of Science Molares, et al Jie Zou, et al – an Initial Enrico Boni, et al and Technology Department of Hexuan Wang, et al Resonant Inc. Gregory Czarnota, et al Feasibility Study University of Florence Circulation and University of Sunnybrook Health Medical Imaging, and Rochester Sciences CIUS Centre/University of Thomas Robins, et al Toronto Imperial College London

11:00 1E-2 Investigating 2E-3 New signal processing 3E-3 Iterative 4E-3 Plane wave 5E-3 HIERARCHICAL 6E-3 Predicting 7E-3 Automatic 8E-3 Single-Chip nonlinear porphyrin for fast and accurate ADMIRE for high based single track CASCADING IN FEM Radiotherapy Response segmentation of the Reduced-Wire am nanobubble QEPAS measurements dynamic range b- location shear wave SIMULATIONS OF in Head and Neck cerebral ventricles in CMUT-on-CMOS behaviour for mode elasticity imaging SAW DEVICES Patients Using preterm neonates System for vascular and (pSTL-SWEI) Quantitative Ultrasound using deep learning Intracardiac extravascular raphael Levy, et al enables high with 3D Echocardiography applications ONERA- The French Siegfried Schlunk, et resolution in Julius Koskela, et al reconstructed Aerospace Lab al vivo and ex vivo GVR Trade SA William Tran, et al freehand ultrasound Vanderbilt University murine pancreatic Sunnybrook Health imaging. Gwangrok Jung, et al Carly Pellow, et al tumor imaging Sciences Georgia Institute of Sunnybrook Research Centre/University of Technology Institute Toronto Matthieu Martin, et al Rifat Ahmed, et al Univ Lyon University of Rochester

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

11:15 1E-3 Stabilizing 2E-4 Ultrasonic Phased 3E-4 Accelerating 4E-4 3D Liver Shear 6E-4 In vivo diagnosis 7E-4 3D Multiplane 8E-4 Fast echogenic Array TFM Detection in Nonlinear Speed of Wave Absolute of metastasis in cervical Wave imaging for 4D Orthogonal Row- am nanobubbles by Highly Attenuating Materials Sound Vibro-Elastography lymph nodes using Functional Column Electronic nature-inspired based on Modified Golay- Reconstructions with an xMATRIX backscatter coefficients Ultrasound imaging Scanning with Bias- elastic contrast shell Coded Excitation Using a Randomized Array – A Healthy of the whole-brain Switchable Crossed- design Block Kaczmarz Volunteer Study neuronal activity Electrode Relaxor Algorithm Gloria Valenzuela, et al Arrays and GPU Teng Da, et al Pontificia Universidad Accelerated Al de Leon, et al East China University of Qi Zeng, et al Católica del Perú Claire Rabut, et al Volumetric Case Western Science and Technology Andreas Ihrig, et al University of British Institut Langevin, Reconstruction Reserve University Ruhr-University Columbia ESPCI Paris Bochum Chris Ceroici, et al University of Alberta

11:30 1E-4 Nanobubble 2E-5 Cortical bone 3E-5 High 4E-5 Shear wave 5E-4 Use of 6E-5 Machine-learning 7E-5 Quantitative 8E-5 Panel Extravasation in microstructure assessed by Frequency velocity and Hierarchical for the prediction of ultrasound brain Discussion am Prostate Tumors acoustic microscopy in the Ultrasonic attenuation in 85 Cascading prostate cancer biopsy imaging in 3D Imaged with tibia and proximal femur Tomography Using post-transplant liver Technique for FEM based on three- Ultrasound: Role of shaft is correlated with hip Optimal Transport patients with acute Analysis of dimensional dynamic Piero Tortoli, Jorgen Active versus stiffness and strength Distance cellular rejection and Transverse Mode contrast-enhanced Lluis Guasch, et al Jensen, Steven Passive Targeting comparison with Behaviors in SAW ultrasound Imperial College Freear, Susan Trolier- biopsy findings Devices quantification London McKinstry, Roger Gianluca Iori, et al Andreas Ihrig, et al Zemp, Robert Reshani Perera, et al Charité - Universitätsmedizin Ruhr-University Wodnicki Case Western Berlin Bochum Ivan Nenadic, et al Xinyi Li, et al Rogier R. Wildeboer, et al Reserve University Mayo Clinic University of Eindhoven University of Electronic Science Technology and Technology of China

11:45 1E-5 Virus-like and 2E-6 Efficient and stable 3E-6 REFoCUS: 4E-6 VisR, SWEI, 5E-5 FEM- 6E-6 Quantitative 7E-6 Low Frequency egg-yolk sandwich acoustical coupling for Ultrasound focusing and SDUV calculation of Ultrasound for in vivo Ultrasound am Fe3O4 mesoporous bottom Actuated GHz for the software Ultrasound Detect nonlinear fields in monitoring of anti- Transcranial silica nanoparticles Subsurface Probe beamforming age Increased Degree of SAW resonators angiogenic tumor Imaging for photoacoustic Microscopy Mechanical with a finite number therapy with Coherent imaging of prostate Anisotropy of electrodes Compounding of cancer Nick Bottenus, et al Following Ischemia- Diverging Chirp Benoit Quesson, et al Duke University Reperfusion Injury in Régine Guillermin, et al Waves TNO Pig Kidney, In Vivo Andreas Mayer, et al Aix-Marseille université, Wenkun Bai, et al University of Applied CNRS, Centrale Marseille Shanghai Jiao Tong Science Chen Bai, et al University Md Murad Hossain, et School of Life Science al and Technology, Xi`an University of North Jiaotong University Carolina at Chapel Hill

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

01:30 pm -03:00 pm Oral --- Wednesday, October 24

Session 1F. Session 2F. Session 3F. Session 4F. Session 5F. Session 6F. Session 7F. Session 8F. Advanced Novel Photoacoustic Super Resolution 3D Flow Imaging MEMS Resonator Signal Processing Applications of CMUT/PMUT Systems and Imaging Techniques Microbubble & Application Therapeutic Devices for Real- and Applications Imaging Chair: Jørgen Jensen Chair: Erdal Oruklu Ultrasound Chair: Qifa Zhou Time Technical University of Chair: Sunil Bhave Illinois Institute of University of Southern Applications Chair: Geoffrey Luke Chair: Mickael Tanter Denmark Purdue University Technology Chair: Zhen Xu California Dartmouth College INSERM University of Michigan Chair: Steven Freear University of Leeds Sapphire Topaz (400) Diamond (300) Emerald (280) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) (220) 01:30 1F-1 Real-Time, 2F-1 Non-invasive mapping 3F-1 Deep-ULM: 4F-1 Full 3D Power, 5F-1 S0-Mode 6F-1 Information 7F-1 Ultrasound and 8F-1 Design, Multi-Angle Flow of rat visual cortex Super-resolution Color & Vector Lithium Niobate Transmission through Microbubbles Fabrication and pm Vector Estimation dynamics in vivo using Ultrasound Doppler imaging Acoustic Delay Solids using Ultrasound Promote the Characterization of a with Dealising Using transcranial photoacoustic Localization using large aperture Lines with 1 dB Retention of Hybrid Piezoelectric- GPU voltage-sensitive dye Microscopy through Row Column Array Insertion Loss Fluorescent CMUT Dual- imaging Deep Learning transducers Jafar Saniie, et al Compounds in the Frequency Illinois Institute of Small Intestine Ultrasonic Hassan Nahas, et al Ruochen Lu, et al Technology Transducer University of Waterloo Jeeun Kang, et al Ruud J. G. van Sloun, Jonathan Porée, et al University of Illinois at Johns Hopkins University et al Institut Langevin, Urbana-Champaign Mihnea Vlad Turcanu, Eindhoven University ESPCI Paris, PSL et al Alessandro Stuart of Technology Research University, University of Glasgow Savoia, et al CNRS UMR 7587, Roma Tre University INSERM U979

01:45 1F-2 High Frame 2F - 2 Ultrasound/ 3F-2 A Systematic 4F-2 High-volume- 5F-2 Investigations 7F-2 Luminescence 8F-2 36% Scandium Rate Vector Flow Photoacoustic Imaging Investigation of rate 3D ultrasound on the Quality Factor estimation of the ScAlN Air-coupled pm Imaging: Platform to Expedite Microbubble Spatial imaging and of Lithium Niobate region of reactive Piezoelectric Development as a Development of Novel Sampling stereoscopic PIV in Laterally Vibrating oxygen generation Micromachined New Diagnostic Glaucoma Treatments Requirement and a dynamic left Resonators with by focused Ultrasonic Mode on a Clinical Microbubble ventricular phantom Figure of Merit ultrasound with Transducers Scanner Localization greater than 1,500 multiple foci for Kelsey Kubelick, et al Methods for Super- sonodynamic Georgia Institute of resolution Imaging Jason Voorneveld, et treatment Yuri Kusano, et al Yigang Du, et al Technology & Emory al Luca Colombo, et al University of Shenzhen Mindray University Erasmus MC Carnegie Mellon California, Davis Bio-Medical Pengfei Song, et al University Daisaku Mashiko, et Electronics Co., Ltd. Mayo Clinic al Tohoku University

02:00 1F-3 Parallel 2F-3 Photoacoustic 3F-3 Assessment of 4F-3 The Helical 5F-3 PVDF- 6F-2 Modelling of 7F-3 Antivascular 8F-3 Thin Film PZT- implementation of imaging of human Diabetic Kidney Toroid Flow TrFE/SiO2 channels for intra- photo-mediated based PMUT arrays pm randomized singular inflammatory arthritis using Disease Using Phantom: A Twist Composite Film Bulk corporal communication ultrasound therapy value decomposition light emitting diode Ultrasound for 3-D Flow Imaging Acoustic Wave for and randomized Localization Innovations Resonator for neovascularization Susan Trolier- spatial Microscopy on the Frequency- Wentao Jiang, et al in the eye McKinstry, et al downsampling for Janggun Jo, et al Microvasculature in Modulated Sensor KU Leuven Penn State University real time ultrafast University of Michigan a Rat Kidney: An in Adrian J. Y. Chee, et Application microvessel imaging vivo Feasibility al Xinmai Yang, et al on a multi-core Study University of Waterloo University of Kansas CPUs architecture Ryosuke Kaneko, et al Tohoku university Yi Yang, et al U Wai Lok, et al Department of Mayo Clinic Biomedical Engineering, Tsinghua University

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

02:15 1F-4 Acoustic 2F-4 Characterizing 3F-4 Performance of 4F-4 Simultaneous 5F-4 Spurious mode 6F-3 Optical Imaging of 7F-4 Ultrasound Navigation of intestinal strictures with an Foreground- 4D ultrafast blood free 3.5GHz AlN Far-Field Diffraction of Convolutional pm Intramyocardial endoscopic photoacoustic Background flow and tissue plate mode GHz AlN Transducers Neural Networks Injection Needle probe in rabbits in vivo Separation Doppler imaging of resonator with high into Silicon: Towards Imaging for Catheter Using Color Algorithms for the the human heart FoM Physical Fast Fourier Monitoring of Doppler Detection of Transform Computing Microwave Ablation Echocardiography Hao Lei, et al Microbubbles in University of Michigan Super-Resolution Clément Papadacci, Nan Wang, et al Imaging et al Institutes of Yutong Liu, et al Siyuan Zhang, et al Minako Katayama, et Institut Langevin, Microelectronics, Cornell University Xi’ an Jiaotong al INSERM U979, A*STAR University Mayo Clinic Marion Piepenbrock, ESPCI, CNRS UMR et al 7587, ART Ruhr-University Bochum

02:30 1F-5 Matrix 2F-5 Development of an 3F-5 Improved 4F-5 Combining 5F-5 A Radio 6F-4 GHz Ultrasonic 7F-5 A catheter 8F-4 1D Lumped transducers for real- ultrasound and super-resolution by automatic angle Frequency Comb Digital to Analog based ultrasound Parameter Modeling pm time 3D imaging: photoacoustic endoscopy exploiting correction and 3-D Filter for Sparse Converter for Wavefront device for treating of CPUT: A From intra-cardiac to system for imaging of microbubble tracking Doppler for Fourier Transform- Signal processing chronic total Capacitive trans-cranial gynecological disorders kinematics in Aortic Stenosis based Spectrum occlusions Transducer Without applications ultrasound imaging severity assessment Sensing DC Bias or Pre- Mamdouh Abdelmejeed, Charge Maryam Basij, et al et al Alex Wright, et al Nico de Jong, et al Wayne State University Oren Solomon, et al Stefano Fiorentini, et Ruochen Lu, et al Cornell University Sunnybrook Research Erasmus Medical Technion al University of Illinois at Institute Sushruta Surappa, et Centre NTNU Urbana-Champaign al Georgia Institute of Technology

02:45 2F-6 Fast label-free 3F-6 What is the 4F-6 Using 5F-6 Novel topology 6F-5 An inverse 7F-6 Ultrasound 8F-5 Design and photoacoustic histology Resolving Power of functional for a non-reciprocal approach for ultrasonic Oncotripsy: Implementation of pm system using a MEMS Ultrasound ultrasound imaging MEMS filter imaging by total Targeting Cancer Wideband CMUTs scanner Localization and 3D navigation focusing point for close Cells Selectively Via for Airborne Microscopy? - for neonatal sleep reflectors separation Resonant Harmonic Applications Systematic Analysis phases Michele Pirro, et al Excitation Jin Woo Baik, et al Using a New Forked discrimination northeastern Pohang University of Science Microvessel univeristy Nans Laroche, et al Oluwafemi Adelegan, and Technology Phantom Design The Phased Array David Mittelstein, et al et al Jerome Baranger, et Company California Institute of North Carolina State al Technology University Hanyue Shangguan, Institut Langevin, et al ESPCI Paris, PSL University of Waterloo Research University, CNRS UMR 7587, INSERM U979

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

04:00 pm -05:30 pm Oral --- Wednesday, October 24

Session 1G. Session 2G. Session 3G. Session 4G. Session 5G. Session 6G. Session 7G. Session 8G. Functional POA: Opto-Acoustics Super Resolution Vector Flow Novel Bio & Chemical Monitoring and Ultrasound Assesment by and Contrast Imaging Measurement Sensors Mapping Methods Electronics Remote Chair: Vincent Laude Brain imaging Systems and in Ultrasound Modulation CNRS Chair: Enrico Boni Modeling Chair: James Friend Therapy Chair: David Cowell Chair: Nico de Jong University of Florence Methods for UCSD University of Leeds Chair: Jan D'hooge Erasmus Medical Centre Tissue Chair: Costas Arvanitis KU Leuven Characterization Georgia Tech

Chair: Jonathan Mamou Riverside Research Sapphire Ikuta (200) Topaz (400) Diamond (300) Emerald (280) Nunobiki (150) Kikusui (140) Ruby (200) (220) 04:00 1G-1 Towards 2G-1 Moving acoustic field 3G-1 Deep 4G-1 A fast 4D B- 5G-1 In vivo 6G-1 Design of Lab-on- 7G-1 Self-adaptive 8G-1 ASIC design Tomographic for the control of electronic Transcranial spline framework for estimation of a-Chip Surface Acoustic 3D time reversal for a single-cable 64- pm Reconstruction of excitations in Ultrasound model-based cortical thickness Resonance (SAR) cavity for safe element ultrasound Current Source semiconductor Localization reconstruction and and porosity by axial Sensor with Enhanced ultrasound therapy probe Densities with nanostructures Microscopy of the regularization in transmission: Sensitivity and through the ribcage Multichannel adult human brain vector flow imaging Comparison with Integrated EIS Acoustoelectric vascularization high resolution Douwe van Willigen, Brain Imaging Paulo Santos, et al computed Justine Robin, et al et al (mABI) Using Paul-Drude-Institut für Thomas Groenli, et al tomography Kiryl Kustanovich, et al Institut Langevin, Delft University of Ellipsoidal Human Festkörperelektronik Charlie Demené, et al Norwegian University Chalmers University of ESPCI Paris, PSL Technology Head Model Institut Langevin, of Science and Technology Research University, ESPCI Paris, PSL Technology (NTNU) Donatien CNRS UMR 7587, Research University, Ramiandrisoa, et al INSERM U979 Tushar Bera, et al CNRS UMR 7587, Bleu Solid University of Arizona INSERM U979

04:15 1G-2 Real-time 3G-2 Ultrafast 4G-2 Lagrangian 5G-2 Assessment of 6G-2 c-axis tilted ScAlN 7G-2 High- 8G-2 Integrated displacement and Volumetric coupling of SPH with cardiomyocyte film shear mode resolution Front End Circuitry pm cavitation imaging of Ultrasound ultrasound contractility using resonators Transcranial Passive for Microultrasound non-invasive Localization simulation for vector high frequency for biosensing Acoustic Mapping Capsule Endoscopy neuromodulation of Microscopy in vivo flow imaging ultrasound using Delay Multiple the peripheral investigation and Sum nervous system via Hana Yazaki, et al Beamformer Holly Lay, et al focused ultrasound Baptiste Heiles, et al Eric Strohm, et al Waseda University University of Glasgow Institut Langevin, Damien Garcia, et al University of Toronto ESPCI Paris, PSL Creatis Shukuan Lu, et al Stephen Lee, et al Research University, Xi'an Jiaotong Columbia University CNRS UMR 7587, University INSERM U979

04:30 1G-3 Transcranial 2G-2 Structural and 3G-3 In vivo 3D 4G-3 Flow changes 5G-3 Estimation of 6G-3 Wireless CO2 SAW 7G-3 Detection of 8G-3 A 256-Element Acoustoelectric Functional Imaging with imaging of lymph after biological and viscoelastic sensors with a the focused- Spiral CMUT Array pm Brain Imaging: Concurrent Photoacoustic nodes via high frame mechanical aortic properties of tissue nanoporous ZIF-8 ultrasound-induced with Integrated Progress and and Ultrasound Microscopy rate contrast valve implantation with arbitrary power- sensing layer blood-brain barrier Analog Front End Challenges enhanced measured with VFI law attenuation opening by diffusion and Transmit ultrasound and tensor imaging Beamforming Yuqi Tang, et al super resolution David Greve, et al in non-human Circuits Russell Witte, et al Duke University Kristoffer Hansen, et Bharat Tripathi, et al DWGreve Consulting primates University of Arizona al University of North Health Sciences Jiaqi Zhu, et al Copenhagen Carolina-Chapel Hill Alessandro Stuart Imperial College University Hospital and North Carolina Maria Eleni Savoia, et al London State University Karakatsani, et al Roma Tre University Columbia University

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY ORAL

04:45 2G-3 Design of 3G-4 Gas vesicles 4G-4 Vector 5G-4 Ultrasound 6G-4 Post- 7G-4 Wideband 8G-4 Real-Time FIR Acoustooptical Devices as hemodynamic Projectile Imaging to Multiple Scattering Complementary-Metal- Image-based Filter Normalisation pm Based on KY(WO4)2 Crystal enhancers for detect regional in Cortical Bone: Oxide-Semiconductor Transskull of Ultrasound noninvasive changes in Effect of Pore Size Compatible Piezoelectric Refocusing of Analog Front Ends functional extracranial blood and Pore Micro-Machined Ultrasound Beams for Broadband Vladimir Molchanov, et al ultrasound imaging velocity: A lower- Concentration Ultrasonic Transducers Using Dual-Mode Imaging National University of Science of the mouse brain body suction study Ultrasound Arrays: and Technology MISIS Ex Vivo Results Yasamin Robert Reger, et al Thomas Carpenter, et David Maresca, et al Jason Au, et al Karbalaeisadegh, et al Sandia National al California Institute of University of Waterloo North Carolina State Laboratories Hasan Aldiabat, et al University of Leeds Technology University University of Minnesota--Twin Cities

05:00 1G-4 X-Ray Induced 2G-4 High sensitivity sub- 3G-5 Kalman Filter- 4G-5 Vector Flow 5G-5 Sizing cells 6G-5 A compact and 7G-5 Fast MR 8G-5 A Power- Acoustic Computed nanosecond pump probe based Microvessel Imaging Validated by using acoustic flow sensitive liquid sensor thermometry for FUS Efficient Transmit pm Tomography for measurement with surface Inpainting for Super- Patient-Specific cytometry based on a monitoring using an Beamformer ASIC Real-Time plasmon resonance Resolution Imaging Fluid-Structure circumferential mode echo-shifted for 3-D Catheter- Monitoring of Interaction (FSI) sequence with Based/ Endoscopic External Beam Models Eric Strohm, et al simultaneous multi- Probes Radiotherapy Hayato Ichihashi, et al Pengfei Song, et al University of Toronto Qin Lin, et al slice imaging Doshisha university Mayo Clinic Shenzhen Institutes of Marie Traberg, et al Advanced Technology, Zhao Chen, et al Wei Zhang, et al Technical University Chinese Academy of Chao Zou, et al Delft University of University of Michigan of Denmark Sciences Shenzhen Institutes of Technology Advanced Technology, Chinese Academy of Sciences

05:15 1G-5 On the 2G-5 Modelling the iono- 3G-6 Human 4G-6 Combined 5G-6 Skin 6G-6 Improvement of 7G-6 Passive 8G-6 Modified Performance of acoustic wave field for transcranial super- contrast-enhanced Moisturizer Changes signal to noise ratio for cavitation mapping Harmonic Reduction pm Delay Estimators for proton beam range resolution imaging echocardiography Morphology and Quartz Crystal during blood-brain Pulse Width Magnetomotive verification and 2D vector flow Acoustic Impedance Microbalance with barrier opening is Modulation Imaging mapping at high of Skin viscous damping facilitated through (mHRPWM) for Danai Eleni Soulioti, frame rate using treatment with Switched Excitation Koen W.A. van Dongen, et al et al diverging waves ultrasonic pulses of of Resonant HIFU Thomas Ersepke, et al Delft University of Technology University of North Yoshifumi Saijo, et al Sawit Na songkhla, et al inverse polarity Transducers Ruhr-University Carolina at Chapel Hill Tohoku University Tokyo Institute of Bochum and North Carolina Luzhen Nie, et al Technology State University University of Leeds Antonios David Cowell, et al Pouliopoulos, et al University of Leeds Columbia University

WEDNESDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY POSTER

09:30 am - 04:00 pm Poster --- Wednesday, October 24 Kairaku (posters 1)

Session P1-B2. P1-B3-6 Real-time investigation of cell P1-B4-7 Separation of contrast agents from P1-B6-5 Measurement of Passive Elastic P1-B7-8 Automatic spatial mechanical Emerging Methods and Initiatives membrane damage induced by acoustic droplet tissue via an unfolded deep learning scheme Property of Human Gastrocnemius Muscle in inhomogeneity detection in atherosclerotic vaporization in tissue mimicking hydrogel Vivo using Dynamic Ultrasound B-mode and carotid arteries in-vivo Shear-wave Elastography Image Sequences Chair: Giulia Matrone Oren Solomon, et al University of Pavia Lei Zhang, et al Technion Grigorios Marios Karageorgos, et al School of Life Science and Technology, Xi’an Yang Xiao, et al Columbia University Jiaotong University Shenzhen Institutes of Advanced Technology,Chinese Academy of Sciences

P1-B2-1 Density- and Compressibility-Weighted P1-B3-7 Lysosome Exocytosis Involved in the Session P1-B5. P1-B6-6 Pulmonary edema model study using Session P1-B8. Ultrasound Scattering Tomography Resealing of the Perforated Membrane by Abdominal Elasticity Imaging lung ultrasound surface wave elastography Functional Assessment by Remote Acoustic Cavitation Modulation Quinn Barber, et al Chair: Jianwen Luo Jinling Zhou, et al University of Alberta Caixia Jia, et al Mayo Clinic Tsinghua University Chair: Alessandro Ramalli Shanghai Jiao Tong University University of Florence

P1-B2-2 The Ultrasound File Format P1-B3-8 Experimental study for active control P1-B5-1 Kidney biopsy score prediction based P1-B6-7 Comparison of placental elastography P1-B8-1 Mobile Platform for Acoustoelectric of bubble-surrounded cells by acoustic on shear wave elastography measurements and and contrast-enhanced ultrasound imaging in a Brain Imaging in Rats radiation force with considering optimal machine learning murine intrauterine growth restriction model Olivier Bernard, et al production and cell viability CREATIS Alex Burton, et al Luiz Vasconcelos, et al Emmanuel Simon, et al University of Arizona Kohji Masuda, et al Mayo Clinic UMR 1253, iBrain, University of Tours, Inserm Tokyo Univ. of A&T

P1-B2-3 Improving quality of high-frame-rate P1-B3-9 Ultrasound-Induced Acid-Base P1-B5-2 Obtaining Equivalent Liver Shear Wave P1-B6-8 SHEAR WAVE SPEED DISPERSION P1-B8-2 Effects of Ultrasound Frequency and imaging with coherent and incoherent Neutralization-Generated CO2 microbubbles on Speed Measurements with Multiple Transducers COMPARISON IN NORMAL AND ABNORMAL Beam Pattern on Acoustoelectric Cardiac processing Epidermal Penetration PLACENTAS Imaging Mallory Selzo, et al Jian-yu Lu, et al Hui-Ching Hsu, et al Siemens Healthineers Emmanuel Simon, et al Alexander Alvarez, et al The University of Toledo National Tsing Hua University UMR 1253, iBrain, University of Tours, Inserm University of Arizona

P1-B2-4 Synthetic transmit aperture P1-B3-10 Microscopic examination P1-B5-3 Could ultrasound elastography reflect Session P1-B7. P1-B8-3 2D mapping of the electrical activation beamforming for sound velocity estimation of sonothrombolysis process inside the liver function reserve? Cardiovascular Imaging in the live heart using the acoustoelectric effect: using channel-domain differential phase transparent to ultrasound parallel plate flow a parametric study gradient chamber Tingting Qiu, et al Chair: Marie Traberg Department of ultrasound, West China Hospital, Technical University of Denmark Beatrice Berthon, et al Che-Chou Shen, et al Wojciech Secomski, et al Sichuan University Institut Langevin, ESPCI Paris, PSL Research National Taiwan University of Science and Institute of Fundamental Technological Research University, CNRS UMR 7587, INSERM U979 Technology

P1-B2-5 Efficient Pseudo-dynamic Delay Session P1-B4. P1-B5-4 Large Field-of-View Shear Wave P1-B7-1 Ultrasonically measured propagation P1-B8-4 Real-time Thermoacoustic Imaging and Calculation using Optimal Zone Segmentation Acoustic Droplets and Bubbles Imaging for Hepatocellular Carcinoma speed of myocardial contraction rapidly Thermometry Using a Linear Ultrasound Array for Ultra-portable Ultrasound Imaging System Applications Screening decreased in swine heart just after avascularisation of coronary artery Chandra Karunakaran, et al Pilsu Kim, et al Samantha Lipman, et al University of Arizona Chair: Klazina Kooiman Sogang University Duke University Akane Hayashi, et al Erasmus Medical Center Tohoku University Session P1-B3. P1-B4-1 Evidence of Laser-Activated P1-B5-5 A Two-dimensional (2D) Systems P1-B7-2 Ultrasound imaging of cardiac fiber P1-B8-5 Detectability of Model Thrombus as a Microbubbles, Droplets, and Perfluorocarbon Nanodroplet Extravasation In Biology-based Discrete Liver Tissue Model for orientation: What are we looking at? Function of Size and Stiffness using Nanoparticles Vivo Simulations of Ultrasound Shear Wave Magnetomotive Ultrasound Elastography (SWE) Alessandro Ramalli, et al Steven K. Yarmoska, et al KU Leuven Benjamin Levy, et al Chair: Katsuro Tachibana Georgia Institute of Technology and Emory Jingfeng Jiang, et al The University of North Carolina at Chapel Hill Fukuoka University University Michigan Technological University

P1-B3-1 Reduction of ultrasound energy to P1-B4-2 Ultrasound and Optical Imaging of Session P1-B6. P1-B7-3 Detection of mechanical activation of P1-B8-6 Real-Time Magnetomotive Ultrasound induce cellular damage by selective intracellular Perfluorocarbon Nanodroplet Adhesion to Elasticity in Pre-Clinical and Clinical the left ventricle using high frame rate Imaging Using a Recursive Estimator aggregation of phase-change nano-droplets Endothelial Cells under Atheroprone Flow Applications ultrasound imaging Conditions Tim C. Kranemann, et al Ayumu Ishijima, et al Kaja Kvåle, et al Ruhr-University Bochum Chair: Gianmarco Pinton The University of Tokyo Ge Zhang, et al GE Vingmed Ultrasound University of North Carolina Imperial College London

P1-B3-2 Acoustic droplet vaporization induced P1-B4-3 Enhanced Extravasation of Magnetic P1-B6-1 Subresolution displacements and P1-B7-4 Spiral complex movements of the Session P1-B9. physicochemical effects at the single-cell level Perfluorocarbon Nanodroplets with Bimodal shear shock wave tracking in the human brain heart wall at the beginning of myocardial High-Frequency Tissue Size Distribution by Two-step contraction detected by high frame speckle Characterization Magnetic/Ultrasound Synergistic Manipulationa tracking Ching-Hsiang Fan, et al Sandhya Chandrasekaran, et al National Tsing Hua University North Carolina State University Chair: Eric Strohm Jixiu Huang, et al Hiroshi Kanai, et al University of Toronto Xi'an Jiaotong University Tohoku University

P1-B3-3 Effects of Pulse Length and Pulse P1-B4-4 Effects of Flowing Lipid-shelled P1-B6-2 Measurement of the nonlinear elastic P1-B7-5 Adaptive Normalized Convolution for P1-B9-1 Estimating the change in cellular size Repetition Frequency on the Cavitation Microbubbles and Phase-shift Nanodroplets on properties of ex vivo porcine brain: applications 4D reconstruction of freehand- rotated 2D TEE variance during cell death using the Dynamics of the flowing Microbubbles the Characteristics of Cavitation during to traumatic brain injury sequences polydisperse structure factor model Population Focused Ultrasound Exposure David Espindola, et al Raja Sekhar Bandaru, et al Emilie Franceschini, et al Mouwen Cheng, et al Tianqi Xu, et al University of North Carolina at Chapel Hill and Erasmus MC Aix-Marseille université, CNRS, Centrale Marseille Shanghai Jiao Tong University School of Life Science and Technology, Xi`an North Carolina State University Jiaotong University

P1-B3-4 Tumor hypoxic microenvironment P1-B4-5 Synchronized ADV and ODV for P1-B6-3 A novel non-invasive ultrasound vibro- P1-B7-6 Ultrasound Sub-pixel Speckle Tracking P1-B9-2 Verification of error factors and alteration and cancer therapy with biogenic enhanced cavitation elastography technique for assessing patients with Off-plane Motion Detector for Precise accuracy improvement in speed of sound nanoparticle-based oxygen delivery with unilateral papilledema and choroidal folds Vascular Imaging analysis at ultra-high frequency Sy-Han Huang, et al Lin Song, et al National Taiwan University Boran Zhou, et al Hideki Yoshikawa, et al Toshiki Matsuzaki, et al The Hong Kong Polytechnic University Mayo Clinic HITACHI Ltd. Chiba University

P1-B3-5 Acoustic phase-shift nanodroplets P1-B4-6 Ultrasound-based Cell Sorting with P1-B6-4 Texture Features in Viscoelastic P1-B7-7 Automatic quantification of Extra- P1-B9-3 Speed of sound analysis from micro to mediated miRNA therapy for hepatocellular Microbubbles Response (VisR) Ultrasound Images Medial Thickness in carotid ultrasound macro size by wide area ultrasound carcinoma Differentiate Dystrophic from Control Skeletal microscopic measurement Muscles in a Dog Model of Duchenne Muscular Thomas Matula, et al Dystrophy, In Vivo Guillaume Zahnd, et al Wei Dong, et al Univ. of Washington Chair for Computer Aided Medical Procedures & Takuya Ogawa, et al Xi’an Jiaotong University Augmented Reality, Technische Universität Chiba University Christopher Moore, et al München University of North Carolina at Chapel Hill

WEDNESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY POSTER

09:30 am - 04:00 pm Poster --- Wednesday, October 24 Kairaku (posters 1)

P1-B9-4 Three-dimensional Acoustic P1-B10-7 Relative quality of tumor growth P1-B12-4 High speed high frequency miniature P1-B13-7 Nonlinear Behavior of Contact- P1-B14-8 Human Activity Recognition Based on Impedance Imaging for Cultured Biological equations describing volume and vascular forward-looking ultrasound system for clinical Resonance Atomic Force Microscopy due Two-Dimensional Acoustic Arrays Cells evolution assessed with ultrasound applications to Stick-Slip phenomena Xinhua Guo, et al Naohiro Hozumi, et al Jerome Griffon, et al Xueqiao Wang, et al M Kalyan Phani, et al School of Mechanical and Electronic Engineering, Toyohashi University of Technology Laboratoire d'Imagerie Biomédicale (Sorbonne Newway Technology (US), Inc OP Jindal University Wuhan University of Technology University, CNRS, INSERM)

P1-B9-5 Enhancement of bandwidth and SNR Session P1-B11. P1-B12-5 Novel thin film transducers for P1-B13-8 A study on feasibility of method using P1-B14-9 A Recurrent Neural Network Classifier with ultra-high-frequency ultrasound using Neuromodulation and Brain durable high-resolution imaging in industry and high-intensity aerial ultrasonic waves for for Ultrasonic NDE Applications chirps for acoustic microscopy Applications medicine detection of foreign substance inside soft material Michael Marino, et al Kazuyo Ito, et al Ivan Shorokhov, et al Illinois Institute of Technology Chair: James Kwan Chiba University Novosound Ltd, Biocity, Bo’ness Road, Newhouse, Li Jin, et al Nanyang Technological University of Singapore Scotland Graduate School of Science and Technology, Nihon University

P1-B9-6 Non-invasive intracellular observation P1-B11-1 Measurement of Focused Ultrasound P1-B12-6 A Distal Micro-Motor Ultrasonic P1-B13-9 A Compressed Sensing Based P1-B14-10 Analog computing for acoustic of cancer cells associated with proliferation Neural Stimulation; Somatosensory Evoked Imaging Catheter Miniaturized Photoacoustic Imaging System spatial signals based on metasurfaces Potential at Two Separate Skin Temperatures Thomas Tiong Kwong Soon, et al Yunfei Li, et al Haoran Jin, et al Qi Wei, et al Toyohashi University of Technology Lu Xu, et al National-Regional Key Technology Engineering Nanyang Technological University Nanjing Normal University UC San Diego Laboratory for Medical Ultrasound

P1-B9-7 Acoustic impedance analysis for P1-B11-2 Temperature and cavitation P1-B12-7 Modeling and Characterization of an P1-B13-10 Imaging of disbond and internal structure of cultured cells by 250 MHz monitoring for FUS peripheral neuromodulation Acousto-optical Transducer for Catheter delamination using flexural vibrations ultrasound Tracking in Interventional Magnetic Resonance generated by laser modulation Imaging Hermes Kamimura, et al Tamaki Honda, et al Columbia University Takahiro Hayashi, et al Chiba University Yusuf Yaras, et al Kyoto Universityd Georgia Institute of Technology

P1-B9-8 In vivo attenuation coefficient P1-B11-3 Transcranial Focused Ultrasound P1-B12-8 High frequency Transducer Based on P1-B13-11 Suppression of surface wave signal estimation of the healthy forearm and thigh Stimulation Decreases Blood Pressure in Ultrathin Li doped (K0.45Na0.55)NbO3 Single artifacts in laser-ultrasound imaging of CFRP human dermis Spontaneously Hypertensive Rats Crystal for 80MHz Intravascular Ultrasound and composites Photoacoustic Imaging Ana Saavedra, et al Dapeng Li, et al Lukasz Ambrozinski, et al Pontificia Universidad Católica del Perú School of Life Science and Technology, Xi`an Tao Zhang, et al AGH University of Science and Technology Jiaotong University Huazhong University of Science and Technology

Session P1-B10. P1-B11-4 Noninvasive delivery of adenoviral- Session P1-B13. Session P1-B14. Spectral-Based and Elastographic mediated suicide gene to treat glioma through Acoustic Imaging Signal Processing Tissue Characterization focused ultrasound-induced BBB opening Chair: Joel Harley Chair: Erdal Oruklu Min Pan, et al Chair: Emilie Franceschini University of Utah Illinois Institute of Technology Shenzhen Hospital (Futian) of Guangzhou CNRS University of Chinese Medicine P1-B10-1 In situ calibration to account for P1-B11-5 Ultrasonic-magnetic Hybrid Gene- P1-B13-1 Preliminary experiments of 3- P1-B14-2 A Subspace Based Method for Near transmission losses in backscatter coefficient delivery System for Parkinson’s Disease dimensional Fourier beamforming with no Transducer Interference Suppression estimation. Treatment approximate interpolation for wavenumber matching Johan E. Carlson, et al Trong Nguyen, et al Chun-Yao Wu, et al Lulea University of Technology University of Illinois at Urbana Champaign National Tsing Hua University Chikayoshi Sumi, et al Sophia University

P1-B10-2 Quantitative ultrasound and P1-B11-6 Study on the antitumor effect of P1-B13-2 Ultrasonic Array Imaging through P1-B14-3 Sparse Representation with Partially immunohistochemistry characterization at sonodynamic therapy on nude mice bearing Reverberating Layers for Industrial Process Known Support and Subspace Expansion for different stages of murine tumor development intracranial glioblastoma xenografts Analysis Echo Estimation in Ultrasonic NDE Applications

Jerome Griffon, et al Yongpeng Huang, et al Marcus Ingram, et al Yufeng Lu, et al Laboratoire d'Imagerie Biomédicale (Sorbonne Shenzhen University University of Strathclyde Bradley University University, CNRS, INSERM)

P1-B10-3 Coherent ultrasound scattering in the Session P1-B12. P1-B13-3 Large-Panel Multitouch Ultrasonic P1-B14-4 Mode Separation and Reconstruction young Rhesus macaque brain: effects of Catheters and High-Frequency Touchscreen using Lamb wave of Ultrasonic Guided Waves Based on exposure to anesthetics Transducers Synchrosqueezed Wavelet Transform Ki Chang Kang, et al Ivan Rosado-Mendez, et al Hanyang University Zhenli Liu, et al Chair: Nicolas Felix Universidad Nacional Autonoma de Mexico Department of Electronic Engineering, Fudan Vermon SA University, Shanghai, 200433

P1-B10-4 Lung Mass Density Analysis using P1-B12-1 Development of High-Frequency P1-B13-4 Ultrasonic focusing through a steel P1-B14-5 A High Performance Communication Deep Neural Network and Lung Ultrasound Miniature PNN-PZT-based Ceramic Ultrasonic layer for acoustic imaging Platform for Ultrasonic Applications Surface Wave Elastography: a sponge phantom Transducer study Andreas S. Talberg, et al Boyang Wang, et al Qi Zhang, et al NTNU Illinois Institute of Technology Boran Zhou, et al The Hong Kong Polytechnic University Mayo Clinic

P1-B10-5 Determination of Thermal Dose for P1-B12-2 High Performance 60MHz Single P1-B13-5 A Study on Marked Muscle Fiber for P1-B14-6 Fluid layer thickness measurement Ablation Therapies: An Ex Vivo Tissue Crystal PMN-PT Composite for Medical Ultrasonic Skeletal Muscle using a shift-invariant sparse approach Experiment Ultrasound Applications Pan Li, et al Quanchang Li, et al Ami Kling, et al Ramanarao Bommena, et al Shaanxi Normal University Chongqing University Michigan Technological University CTS ADVANCED MATERIALS

P1-B10-6 Analysis of the accuracy and P1-B12-3 Highly Sensitive Array Transducer P1-B13-6 The Coupling Effects in Three Parallel P1-B14-7 A Multi-Resolution Convolutional precision of the least square fitting method for based on a KNN-NTK Composite Lead-free Waveguides Neural Network Architecture for Ultrasonic Flaw simultaneous estimation of backscatter and Piezoelectric Ceramic for High-frequency Detection attenuation coefficients Ultrasonic Imaging Application Guanjun Yin, et al Shaanxi Normal University Kushal Virupakshappa, et al Johan Polack, et al Ruimin Chen, et al Illinois Institute of Technology Pontifica Universidad Catolica del Peru University of Southern California

WEDNESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY POSTER

09:30 am - 04:00 pm Poster --- Wednesday, October 24 Waraku (posters 2)

Session P2-B1. P2-B2-2 Transferable Analytical Model of P2-B4-5 S-sequence Encoded Multiplane Wave Session P2-B6. Session P2-B8. PAT: Acoustic Tweezers and Particle Phononic Bandgap in Cross-hole Phononic Imaging: Phantom and In-vivo Validations Photoacoustic Contrast and Application-Specific Systems and Manipulation Crystals Theranostic Agents Real-Time Acceleration Yinran Chen, et al Takahiro Nishino, et al Department of Biomedical Engineering, Tsinghua Chair: Minoru Kuribayashi Kurosawa Chair: Kelsey Kubelick Chair: Billy Yiu Okayama University University Tokyo Institute of Technology Georgia Institute of Technology University of Waterloo

P2-B1-1 Ultrasound-driven self-assembly of P2-B2-3 Design and Assessment of Phononic P2-B4-6 Reducing Cross-Talk Artifacts for P2-B6-1 Monitoring liposome payload release P2-B8-1 A portable ultrasound device for gold nanocages with different patterns Crystals for Controlling Ultrasonic Wave via Ultrafast Ultrasound Imaging with Arbitrary by photoacoustic spectroscopy of indocyanine measuring the stiffness of carotid artery: Optical Measurement Method Level Codes: Beam Clustering and Optimization green comparison with SphygmoCor carotid-femoral Dimensionality Reduction pulse wave velocity Mian Chen, et al Shenzhen University Kensuke Manabe, et al Adam J. Dixon, et al Okayama University David Egolf, et al University of Virginia Chieh-Ju Tang, et al University of Alberta National Cheng Kung University

P2-B1-2 Experimental feasibility study of non- P2-B2-4 Effective slowness surfaces for Session P2-B5. P2-B6-2 IR808-Anchored MnO Nanoparticles P2-B8-2 A Low-Cost Software-Defined contact acoustic picker considering effect of anisotropic elastic composites Flow Estimation Methods and Imaging Tumor and Inducing Enhanced Ultrasound System Capable of High-Speed stage Applications Phototherapy Effect via Mitochondria-mediated Ultrasound Bubble Tracking Pathway Vincent Laude, et al Yutaka Yamamoto, et al CNRS Pascal Alexander Hager, et al Chair: Pengfei Song Lihua Zhou, et al Integrated Systems Lab, ETH Zürich Tokyo Metropolitan University Mayo Clinic Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences

P2-B1-3 Immobilization of single cells by an P2-B2-5 Surface wave attenuation mechanisms P2-B5-1 Spatiotemporal filtering for synthetic P2-B6-3 Withdrawn P2-B8-3 Automatic B-mode Ultrasound Image array transducer based single-beam acoustic in pillar-based phononic crystals aperture slow flow imaging Optimization for a Wireless Mobile Ultrasound tweezers Imaging System Sebastien Aubert, et al Guillermo Galán Olleros, et al Changhan Yoon, et al SENSeOR SAS Technical University of Denmark Hojung Lee, et al Inje University Sogang University

P2-B1-4 Ultrasonic manipulation of particles on Session P2-B3. P2-B5-2 An Adapted Coherent Flow Power P2-B6-4 Transcranial photoacoustic imaging of P2-B8-4 A Point-of-Care Ultrasound Scanner fluid surface using 2-D CMUT array PMI: Modelling and Inversion Doppler Beamforming Scheme for Improved NMDA-evoked focal circuit dynamics in rat with Software Beamforming on Nvidia Tegra Sensitivity Towards Blood Signal Energy forebrain mobile GPU

Chang Hoon Lee, et al Chair: Minoru Kuribayashi Kurosawa Hanyang University Tokyo Institute of Technology Kathryn Ozgun, et al Jeeun Kang, et al Marcin Lewandowski, et al Vanderbilt University Johns Hopkins University School of Medicine Institute of Fundamental Technological Research, Polish Academy of Sciences

P2-B1-5 Finite element analysis of acoustic P2-B3-1 Theoretical analysis of the slot P2-B5-3 High-frame-rate Ultrasound Motion Session P2-B7. P2-B8-5 A Spline-based Spatial Impulse streaming in a Kundt tube with artificial ridge acoustic waves in two piezoelectric plates of Estimation Based on Pre-beamformed Multi- Disease and Therapy Monitoring Response Ultrasound Simulator with GPU boundary finite length separated by vacuum gap angle Plane Wave Images using Photoacoustics Implementation

Yuji Wada, et al Andrey Teplykh, et al He Li, et al Dimitris Perdios, et al Chair: Pai Chi Li Seikei University Kotelnikov's Institute of Radio Engineering and The University of Hong Kong Ecole Polytechnique Fédérale de Lausanne (EPFL) National Taiwan University Electronics of RAS, Saratov Branch P2-B1-6 Simulation of interparticle radiation P2-B3-2 Acoustic waves guided at the P2-B5-4 De-aliasing color flow mapping with P2-B7-1 Photoacoustic imaging for assessing P2-B8-6 Feasibility of hands-free acquisitions force between solid elastic spheres in a intersection of interfaces and surfaces staggered pulse sequence at improved frame flow-mediated oxygenation for peripheral of the skeletal muscles and the heart during standing wave field rate arterial disease. exercise Pavel Pupyrev, et al Gergely Simon, et al Prokhorov General Physics Institute of the Russian Rei Asami, et al Kathryn Khaw, et al Marloes Sjoerdsma, et al Heriot-Watt University Academy of Sciences Hitachi, Ltd University of Pennsylvania Eindhoven University of Technology

P2-B1-7 Acoustic manipulation of Session P2-B4. P2-B5-5 Super-resolution measurement of fluid P2-B7-2 Integration of Endovenous Laser P2-B8-7 Experimental study to bend thin microbubbles based on implantable and Multi-Line and Multi-Plane Imaging velocity profiles within sub-wavelength Ablation and Photoacoustic Imaging Systems catheter independent to ultrasound propagation biodegradable artificial structures microtubes for Enhanced Treatment of Venous direction by tempo-spatial division emission Insufficiency using multiple transducers Chair: Dongwoon Hyun Fei Li, et al Stanford University David Espindola, et al Shenzhen Institutes of Advanced Technology, University of North Carolina at Chapel Hill and Samuel John, et al Hidetaka Ushimizu, et al Chinese Academy of Sciences North Carolina State University Wayne State University Tokyo Univ. of A&T

P2-B1-8 Acoustic trapping of microparticles at P2-B4-1 Spatial coherence based beamforming P2-B5-6 An ultrafast ultrasound microvessel P2-B7-3 Photoacoustics for non-invasive P2-B8-8 Comparison of longitudinal-mode and the inner and outer wall of a glass capillary in multi-line transmit echocardiography imaging technique for assessing patients with monitoring of kidney damage due to diabetes longitudinal-torsional mode ultrasonic bone unilateral papilledema and choroidal folds and hypertension biopsy devices Qin Lin, et al Giulia Matrone, et al Shenzhen Institutes of Advanced Technology, University of Pavia Boran Zhou, et al Elizabeth Berndl, et al Rebecca Cleary, et al Chinese Academy of Sciences Mayo Clinic Ryerson University University of Glasgow

P2-B1-9 High Frequency Ultrasonic Levitation P2-B4-2 Tri-plane cardiac imaging using multi- P2-B5-7 RADIAL ARTERY REACTIVE P2-B7-4 Pathology Study for Blood Vessel of P2-B8-9 3D Forward-Looking Ultrasound of Red Blood Cells Aggregation line transmission on a spiral array: a feasibility RESPONSE AND SHEAR RATE Ocular Fundus Images by photoacoustic Imaging from a Steerable Single-Element study MEASUREMENTS USING 20 MHZ SYSTEM tomography Intracardiac Catheter Hae Gyun Lim, et al Pohang University of Science and Technology Alessandro Ramalli, et al Andrzej Nowicki, et al Jiayao Zhang, et al Jovana Janjic, et al KU Leuven Institute of Fundamental Technological Research - ShanghaiTech University Erasmus MC PAS

Session P2-B2. P2-B4-3 Orthogonal Frequency Division P2-B5-8 Coded Multiple Parallel Focal Zone P2-B7-5 Photoacoustic spectral analysis at P2-B8-10 Sonopill: Progress Towards PPN: Phononics Multiplexing Combined with Multi Line Scanning for Ultrafast Power Doppler Blood ultraviolet wavelength for assessing the Microultrasound Capsule Endoscopy Transmission for Ultrafast Ultrasound Imaging: Flow Imaging aggressiveness of prostate cancer Experimental Findings Chair: Minoru Kuribayashi Kurosawa Holly Lay, et al Tokyo Institute of Technology Tarek Kaddoura, et al Guan Xu, et al University of Glasgow Libertario Demi, et al University of Alberta University of Michigan University of Trento

P2-B2-1 Experimental evidence of compact P2-B4-4 Multi-Line Transmission and Multi-Line P2-B5-9 Towards Oxygen Metabolism P2-B7-6 Photoacoustic cepstrum analysis for Session P2-B9. waveguide based on whispering gallery in Acquisition with Synthetic Transmit and Filtered Estimation with Ultrafast Speckle-Decorrelation studying vascular networks Spectral Doppler and Clutter Filters phononic crystals plate Delay Multiply and Sum Receive Beamforming Imaging and Functional Photoacoustic Imaging in Cardiac Ultrasound Imaging Eno Hysi, et al Chair: Ingvild Kinn Ekroll Jinfeng Zhao, et al Mayara Nascimento de Oliveira, et al Ryerson University NTNU Tongji University Grigoriy Zurakhov, et al University of Alberta Technion - IIT

WEDNESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 WEDNESDAY POSTER

09:30 am - 04:00 pm Poster --- Wednesday, October 24 Waraku (posters 2)

P2-B9-1 Spectral Doppler Measurements with P2-B10-3 An ultrasonic probe to measure both P2-B11-3 Analysis of SAW Scattering at P2-B13-1 High frequency optical probe for 2-D Sparse Arrays radial arterial pressure and diameter at identical Discontinuity Between Periodic Gratings Using BAW/SAW devices position for early diagnosis of arteriosclerosis Travelling Wave Excitation and Hierarchical Cascading Technique Paolo Mattesini, et al Hugo Chambon, et al University of Florence Mototaka Arakawa, et al CTR AG Tohoku University Yulin Huang, et al University of Electronic Science and Technology of China

P2-B9-2 A New Flow Disturbance Mapping P2-B10-4 Design of a novel zig-zag 192+192 P2-B11-4 Love Wave Mode Resonator with a P2-B13-2 New Technique to Cancel IMD3 in Technique Based on Doppler Bandwidth Row Column Addressed Array Transducer for Wide Stable Temperature Range Electroacoustic Filters Measurements Rodent Super Resolution Imaging: A Simulation study. Yang Yang, et al Marta González-Rodríguez, et al Billy Y. S. Yiu, et al Shanghai Jiao Tong university Universitat Politecnica de Catalunya (UPC), University of Waterloo Mikkel Schou, et al Barcelona, Catalunya,Spain Technical University of Denmark

P2-B9-3 Sparse Transmission Strategy for P2-B10-5 A row-column array for ultrasound- Session P2-B12. P2-B13-3 Monolithic FBAR resonators using Transverse Doppler Spectrum Estimation based tissue anisotropy measurement SAW Sensor & Actuator I AlScN piezoelectric layers.

Regev Cohen, et al Huaiyu Wu, et al Chair: Tao Han Mohanraj Soundara pandian, et al Technion NC state university Shanghai Jiao Tong University SilTerra Malaysia Sdn Bhd

P2-B9-4 Motion Tracking using Neural P2-B10-6 A quantitative study on the impact of P2-B12-1 Wireless, Direct Pressure Sensing P2-B13-4 Fast Nonlinear Procedure for the Networks for a 2D Sample Volume based bit errors on image quality in ultrasound probes with SAW Devices at Elevated Temperatures Nonlinear Analysis of BAW Resonators and Spectral Doppler Imaging with in-probe digitization Filters Gudrun Bruckner, et al Jihye Baek, et al Zhao Chen, et al CTR AG Rafael Perea-Robles, et al Sogang University Delft University of Technology Universitat Politècnica de Catalunya (UPC), Barcelona, Catalunya

P2-B9-5 Low-Complexity Rank-revealing P2-B10-7 Magnetostrictive-Vibration Isolated P2-B12-2 Novel acoustic gratings with high P2-B13-5 AlN-based solidly mounted Spatiotemporal Microvascular Clutter Filter Probe Design for Backward-Mode reflection constant for surface acoustic wave resonators on glass substrates for high Magnetomotive Ultrasound gyroscopes temperature applications John Flynn, et al Verasonics, Inc Ming-Chen Lu, et al Ashraf Mahmoud, et al Teona Mirea, et al National Tsing Hua University Carnegie Mellon University GMME-CEMDATIC-ETSIT-Universidad Politecnica de Madrid. Spain.

P2-B9-6 Efficient and flexible spatiotemporal P2-B10-8 Development of Flexible and Kerfless P2-B12-3 Cell detachment using guided surface Session P2-B14. clutter filtering of high frame rate images using Phased Array Using Sol- acoustic waves Material for Acoustic Wave Device I subspace tracking Gel Composite Spraying Technique

Jiyang Mei, et al Chair: Sergei Zhgoon Bas Generowicz, et al Masayuki Tanabe, et al University of California, San Diego National Research University "MPEI" (Moscow Power TU Delft Kumamoto University Engineering Institute) P2-B9-7 Low-Rank Adaptive Clutter Filtering for P2-B10-9 Design, Fabrication and Testing P2-B12-4 Shape effects and response to an P2-B14-1 Temperature characteristics of Robust Ultrasound Vector Flow Imaging Highly Sensitive Single Element Doppler applied magnetic field in (TbCo2/FeCo) ScAlN/SiO2 BAW resonators Transducers multilayer-based SAW resonators.Shape effects and response to an applied magnetic field in Yigang Du, et al (TbCo2/FeCo) multilayer-based SAW Honoka Igeta, et al Shenzhen Mindray Bio-Medical Electronics Co., Per Kristian Bolstad, et al resonators. Waseda University Ltd. University of Southeast Norway

Harshad Mishra, et al Université de Lorraine

P2-B9-8 Spatial and Temporal Adaptive FIR P2-B10-10 Feasibility of genetic algorithms in P2-B12-5 Acoustofluidics with high selectivity P2-B14-2 Effects of post-deposition vacuum Clutter Filtering 2D ultrasound array optimization using spatio-temporal modulated SAWs annealing on piezoelectric performance of AlScN thin films sputtered on 200 mm production wafers Vincent Perrot, et al Bakary Diarra, et al Liqiang Li, et al Univ.Lyon, INSA-Lyon, UCB Lyon 1, UJM-Saint Electrical, Electronics, Computer & College of mechanical engineering,Zhejiang Etienne, CNRS, Inserm Telecommunication Engineering Department, University Marta Clement, et al Botswana International University of Science & GMME-CEMDATIC-ETSIT-Universidad Politécnica Technology (BIUST) de Madrid

P2-B9-9 Adaptive Independent Component P2-B10-11 Basic study on ultrasonic imaging P2-B12-6 SAW Delay-Line Sensors Only Using P2-B14-3 Evaluation of bonded wafer for SAW Analysis-Based Clutter Filtering for Improved using piezoelectric elements with polarization- Two Reflectors devices using The Line-Focus-Beam Acoustic Non-Contrast Perfusion Ultrasound Imaging inverted layer Microscope Jingping Ruan, et al Jaime Tierney, et al Ryo Nagaoka, et al Shanghai Jiao Tong University Osamu Kawachi, et al Vanderbilt University University of Toyama TAIYO YUDEN Mobile Technogy Co., LTd.

Session P2-B10. Session P2-B11. P2-B12-7 SAW based tube rotation with P2-B14-4 Stress control for highly doped Imaging Transducers SAW Modeling & Design II wireless power transfer Aluminum Scandium Nitride films

Chair: Richard O'Leary Chair: Maximilian Pitschi Sergey Biryukov, et al Sergey Mishin, et al University of Strathclyde RF360 Europe GmbH IFW Dresden AMS, Inc.

P2-B10-1 A 360° Electronic Radial Ultrasound P2-B11-1 FEM-Based Estimation of SAW Power P2-B12-8 Glue-less and robust assembly Endoscope Based on Designed PMN-PT Single Flow Angle in Periodic Gratings method for SAW strain sensors Crystal/Epoxy 2-2 Composite Benfeng Zhang, et al Pascal Nicolay, et al Ting Zhang, et al Shanghai Jiao Tong University CTR AG National-Regional Key Technology Engineering Laboratory for Medical Ultrasound

P2-B10-2 A kerfless PVDF array for P2-B11-2 Theoretical analysis and design of Session P2-B13. photoacoustic imaging longitudinal leaky SAW device consisting of BAW Device & Application II ScAlN film / piezoelectric single crystal substrate Reza Pakdaman Zangabad, et al Chair: Masanori Ueda Erasmus Medical Center TAIYO YUDEN CO., LTD. Masashi Suzuki, et al University of Yamanashi

WEDNESDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY ORAL

08:00 am -09:30 am Oral --- Thursday, October 25

Session 1H. Session 2H. Session 3H. Session 4H. Session 5H. Session 6H. Session 7H. Session 8H. Shear Wave Neuromodulation Automated Image Beamforming for Acoustic Ultrasonic PPN: Phononics Piezoelectric Methods I and Brain Quantification Other Applications Microfluidics Transducer & Transducers Applications Sensor Chair: John Larson Chair: Matthew Urban Chair: Piero Tortoli Chair: Georg Schmitz Chair: David Greve Broadcom Ltd Chair: Sandy Cochran Mayo Clinic Chair: William Apoutou University of Florence Ruhr-Universität Bochum DWGreve Consulting Chair: Mauricio Pereira University of Glasgow N’Djin da Cunha INSERM University of Maine Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 08:00 1H-1 Ultrasound 2H-1 Inhibitory 3H-1 Experimental 4H-1 Segmenting 5H-1 Omnidirectional 6H-1 Fabrication of 7H-1 Radiative 8H-1 The impact of Shear Wave effects of motor Validation of an bone structures in spiral surface transparent damping of local structural am Elastography of neuron activity in Improved Local ultrasound images acoustic waves for capacitive vibrational modes of heterogeneity on Viscoelastic Media mouse peripheral Speed-of-Sound with Locally Weighted particles micromachined a microsphere on an piezoelectric Using Local Phase nerve system using Estimator Using SLSC (LW-SLSC) manipulation and ultrasonic elastic substrate properties of Velocity Based ultrasound-guided Pulse-Echo beamforming multi-size particles transducers (CMUTs) perovskite Imaging (LPVI) focused ultrasound in Ultrasound separation in a ferroelectrics Approach vivo microliter sessile Alexei Maznev, et al Eduardo Gonzalez, et al drop Zhenhao Li, et al MIT Marko Jakovljevic, et al Johns Hopkins University University of Alberta Shujun Zhang, et al Piotr Kijanka, et al Min Gon Kim, et al Stanford University University of Wollongong Mayo Clinic Columbia University Naiqing Zhang, et al University of California, San Diego

08:15 1H-2 Ultrasound 2H-2 Low intensity 3H-2 Fully automatic 4H-2 Influence of 5H-2 Safe and rapid 6H-2 Research on 7H-2 Coupled 8H-2 Piezoelectric Shear Wave pulsed ultrasound real-time ejection beamforming recharging in lithium Ultrasound- phonons, photons Single Crystal am Elastography of Small stimulation improves fraction and MAPSE methods on velocity metal batteries sensitive Ion and RF read-out for Standard Inclusions Using sensorimotor measurements in 2D estimation: in vitro possessing Channels by using phononic circuits Development Local Phase Velocity function in a mouse echocardiography experiments significantly greater Ultrasound Neuro- Based Imaging (LPVI) model of Parkinson's using deep neural charge capacities via modulation Chip Approach disease networks integrated surface Daniel Navarro Urrios, et Lynn Ewart, et al Maxime Polichetti, et al acoustic wave al Naval Undersea Warfare University Lyon, INSA- turbulent electrolyte Xinhui Wang, et al Universidad de Barcelona Center Piotr Kijanka, et al Hui Zhou, et al Erik Smistad, et al Lyon, UCBL, UJM-Saint- mixing Shenzhen Institutes of Mayo Clinic Shenzhen Institutes of Norwegian University of Etienne, CNRS, Inserm, Advanced Technology, Advanced Technology, Science and Technology CREATIS UMR 5220, Chinese Academy of Chinese Academy of (NTNU) U1206, F-69100 An Huang, et al Sciences Sciences Villeurbanne, France University of California, San Diego

08:30 1H-3 Enhanced Shear 2H-3 Focused 3H-3 Zonal 4H-3 Evaluation of 5H-3 Localized 6H-3 Novel pMUT- 7H-3 Surface- 8H-3 Piezoelectric Wave Elastography Ultrasound-enabled segmentation in coherence-based Microfluidic Mixer Based Acoustic mediated mechanical PMN-PZT Single am for HIFU Monitoring Brain Tumor Liquid transrectal ultrasound beamforming for B- Using Planar Fresnel Duplexer for coupling of pillar Crystal-Polymer of Stiff Uterine Biopsy images of the mode and speckle Type GHz Ultrasonic Underwater and Intra- pairs Composites with Fibroids prostate through tracking Transducer Body Communication Wide Usage Range of deep learning echocardiography Temperature and Lifei Zhu, et al Laetitia Raguin, et al Driving Electric Field Sua Bae, et al Washington University in Adarsh Ravi, et al Flavius Pop, et al Femto-st, CNRS, Sogang University St. Louis Ruud J. G. van Sloun, et Pedro Santos, et al Cornell University Northeastern University Université de Bourgogne al KU Leuven Franche-Comté Dong-Ho Kim, et al Eindhoven University of Ceracomp Co., Ltd. Technology 08:45 1H-4 Near-field effect 2H-4 Improved 3H-4 Automated 4H-4 Assessment of 5H-4 Real-Time 6H-4 Immersion 7H-4 Double 8H-4 Progress on elastic wave performance and Detection of Fetal tissue boundary Monitoring of Size PMUTs Fabricated Negativity in Double- towards Piezocrystal am propagation in shear safety of drug Presentation delineation using and Concentration of with a Low Thermal- sided Pillared and Pb-Free wave elastography delivery to the brain and Gestational Age fundamental and Nanoparticles inside Budget Surface Metamaterial Piezoceramic in vivo with Rapid using Low-cost harmonic ADMIRE a reactor using Micromachining Performance Short-Pulse (RaSP) Ultrasound and Deep and SLSC for ultrasound Process Prediction for High Salavat Aglyamov, et al sequences Learning in a percutaneous biopsy Bernard Bonello, et al Power Ultrasound University of Houston Resource-Limited guidance CNRS/Sorbonne Devices Setting Gert-Jan van Groenestijn, Guo-Lun Luo, et al Université Sophie V Morse, et al et al University of California Imperial College London Kazuyuki Dei, et al TNO Nicola Fenu, et al Thomas van den Heuvel, Vanderbilt University University of Glasgow et al Radboud university medical center

09:00 1H-5 Cellquake 2H-5 Bi-modal 3H-5 Fully Automatic 4H-5 Clinical 5H-5 Evaluation of 6H-5 Neuronal 7H-5 Topologically 8H-5 Determination elastography: modulation of Assessment of Mitral Feasibility of viscoelastic stimulation and Valley-protected of elastic and am applying shear wave neuronal excitability Valve Morphology Coherence-Based properties of liquids calcium imaging of Lamb Waves in piezoelectric elastography on cells by ultrasound from 3D Beamforming to based on the oblique retinal neurons using Pillared Metamaterial properties of stimulation in human Transthoracic Distinguish Solid incidence technology surface acoustic Al0.84Sc0.16N thin temporal lobe Echocardiography from Fluid using shear waves films Pol Grasland-Mongrain, epilepsy Hypoechoic Breast horizontal waves at Wei Wang, et al et al Masses frequencies above Sorbonne Université, ENS de Lyon João Pedrosa, et al 100 megahertz from Melanie Stamp, et al UPMC Université Paris Nicolas Kurz, et al Zhengrong Lin, et al KU Leuven c-axis tilted ScAlN University of Melbourne 06 (INSP–UMR CNRS University Freiburg Shenzhen Institutes of Alycen Wiacek, et al thin films 7588) Advanced Technology, Johns Hopkins University Chinese Academy of Sciences, Shenzhen, Yui Yamakawa, et al China Waseda University

09:15 1H-6 Dispersion 2H-6 High-resolution, 3H-6 Semi-automatic 4H-6 Cardiac 5H-6 Forces and 6H-6 Evaluation of 7H-6 Lamb wave 8H-6 High analysis of guided focused ultrasound- 3D geometry deformation imaging torques on rods in an SH-SAW Biosensor in propagation in Piezoelectric am waves in bounded mediated assessment of based on coherent ultrasonic standing Whole Blood coupled-resonator Properties and media induced by neuromodulation and bifurcated carotid compounding of wave elastic waveguides Complex Phase acoustic micro- detailed analysis of artery diverging waves with Transformations in tapping electromyography coded excitation Koji Kano, et al New Ternary characteristics David Greve, et al Japan Radio Co., Ltd. Yan-Feng Wang, et al Perovskite Single reveals a high degree Joerik de Ruijter, et al DWGreve Consulting Beijing Jiaotong Crystals Liang Gao, et al of spatial specificity Eindhoven University of Feifei Zhao, et al University University of Washington in elicited responses Technology Department of in mice in vivo Biomedical Engineering, Zuo-Guang Ye, et al Tsinghua University, Simon Fraser University Beijing Christian Aurup, et al Columbia University

THURSDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY ORAL

10:30 am -12:00 pm Oral --- Thursday, October 25

Session 1I. Session 2I. Session 3I. Session 4I. Session 5I. Session 6I. Session 7I. Session 8I. Shear Wave Neuromodulation Machine Learning Compressed Material and Multi-Parametric PMI: Modelling Multimodal Imaging Methods II and Cellular for Image Imaging Defect and Multi-Wave and Inversion Transducers Bioeffects Reconstruction Characterization Tissue Chair: Kathy and Interpretation Chair: Yonina Eldar Characterization Chair: Robert Chair: Christine Démoré Nightingale Chair: Eleanor Stride Technion Chair: Walter Arnold Thalhammer Sunnybrook Research Duke University University of Oxford Chair: Olivier Bernard Saarland University Chair: Roberto Broadcom Ltd Institute INSA Lyon Lavarello Pontificia Universidad Católica del Perú Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 10:30 1I-1 Feasibility 2I-1 Controllable 3I-1 Machine learning 4I-1 Structured 5I-1 Ultrasonic 6I-1 In vivo 7I-1 Redatuming for 8I-1 Technology of monitoring HIFU Single Neuron GHz to improve breast Ultrasound evaluation of assessment of Breast Ultrasound development of am treatments by Ultrasonic cancer diagnosis by Microscopy segmental variability interstitial fibrosis in Photoacousitc imaging passive elastography Stimulation of Ion multimodal in additively renal allografts using system in CANON Channels in Vitro ultrasound manufactured metal quantitative Ulas Taskin, et al Jovana Janjic, et al components ultrasound – TU Delft Bruno Giammarinaro, et Erasmus MC comparison with Ken-ichi Nagae, et al al Priya S. Laith Sultan, et al estimated glomerular Canon Inc. LabTAU, INSERM, Balasubramanian, et al University of Manish Roy, et al filtration rates Centre Léon Bérard, Cornell University Pennsylvania University of Utah Université Lyon 1 Roberto Lavarello, et al Pontificia Universidad Católica del Perú

10:45 1I-2 Real-time X- 2I-2 Low-Frequency, 3I-2 Machine learning 4I-2 Joint 5I-2 Full waveform 6I-2 Evaluation of the 7I-2 Sparse recovery Plane Shear Wave Low-Intensity for quality assurance optimization of inversion for material microstructural of strong reflectors am Elastography Ultrasound Induces of myocardial strain coding mask and property mapping changes occurring in with an application to Feasibility on Philips Autophagy in SH- curves scan positions for using ultrasonic the myopic sclera non-destructive 2D xMatrix SY5Y Neuronal Cells compressive single phased arrays using high-frequency evaluation Transducer sensor imaging quantitative Mahdi Tabassian, et al ultrasound Xiaowei Huang, et al KU Leuven Katherine Tant, et al Eric Bezzam, et al Man Nguyen, et al Shenzhen Institutes of Pim van der Meulen, et al University of Strathclyde Ecole Polytechnique Philips Research North Advanced Technology, Delft University of Jonathan Mamou, et al Fédérale de Lausanne America Chinese Academy of Technology Riverside Research Sciences

11:00 1I-3 3D Shear Wave 2I-3 Bioelectric 3I-3 High-quality 4I-3 Sparse 5I-3 Automated 6I-3 Multi-parametric 7I-3 Resolution 8I-2 Development of a am Elasticity identification of Reconstruction of Beamforming based Robotically Enabled Acoustic Imaging of analysis and Transrectal Probe for Tomography based aggressive prostate Plane-wave Imaging on Cantor Arrays Ultrasonic Sensing Cervical Insufficiency uncertainty Combined Ultrasound on Laser Speckle cancer using Using Generative for Additive quantification for and Photoaoustic Contrast Imaging ultrasound cell Adversarial Network Manufacturing ultrasound computed Imaging stimulation Regev Cohen, et al Yan Yan, et al tomography Technion Wayne State University Pei-Yu Chao, et al Xi Zhang, et al Anthony Gachagan, et al Jihun Jang, et al National Taiwan Haichong K. Zhang, et al Tsinghua University University of Strathclyde Christian Boehm, et al Sogang University University Johns Hopkins University ETH Zurich 11:15 1I-4 3-D Speckle 2I-4 Ex-vivo 3I-4 Automatic 4I-4 3D anatomical 6I-4 Acoustically 7I-4 Modeling of 8I-3 Dual Frequency Tracking with Two- recording of LEUS- functional imaging in scanning using a stimulated Wave Propagation in array for contrast am Pass Searching and generated neural echocardiography conical transmit electromagnetic Heterogeneous superharmonic Phase-Rotated responses from using deep learning wave: preliminary imaging in biomedical Media Using a imaging Correlation Filtering mouse brain slices based segmentation simulation findings tissues Modified Mixed using a and flow estimation Domain Method MicroElectrode Array Emmanuel Cherin, et al Geng-Shi Jeng, et al (MEA) system Pedro Santos, et al Kenji Ikushima, et al Sunnybrook Research University of Washington Andreas Østvik, et al KU Leuven Tokyo University of A & T Juanjuan Gu, et al Institute Norwegian University of North Carolina State Ivan Suarez Castellanos, Science and Technology University et al INSERM

11:30 1I-5 Passive 2I-5 Experimental 3I-5 Deep 4I-5 Performance of 5I-4 Characterizing 6I-5 Carotid artery 7I-5 Strongly 8I-4 High am elastography: a identification of the Convolutional Neural F-DMAS beamforming Micro- and Nano- plaque components Nonlinear Ultrasound performance seismic imaging of locus of interaction Network for with adjustable Materials based on classification using Simulations in an ultrasonic soft tissues between Low-Energy Ultrasound Image maximum spatial lag their Ultrasonic homodyned-K Axisymmetric transducers from UltraSound and the Enhancement in Multi-Line Dispersion Properties: parametric maps, Coordinate System nanostructured and nervous system Transmission A Feasibility Study elastograms and using k-Wave multilayered Stefan Catheline, et al of lumbricus ultrasound imaging echogenicity analysis piezoelectric LabTAU terrestris during the Dimitris Perdios, et al materials phenomenon of Ecole Polytechnique Daniel Alabi, et al Bradley Treeby, et al neurostimulation Fédérale de Lausanne Giulia Matrone, et al University of Florida Marie-Hélène Roy University College (EPFL) University of Pavia Cardinal, et al London Kui Yao, et al University of Montreal IMRE, A*STAR Jérémy Vion-Bailly, et al Hospital INSERM

11:45 2I-6 Potential of Low 3I-6 Ultrasound 4I-6 Compressed 5I-5 Mechanical 6I-6 Fatty liver 7I-6 Distinguishing 8I-5 A novel Row- Energy UltraSound image processing Sensing Properties of Comet assessment using between noncausal Column Addressed am for inducing based on deep Reconstruction of 67P/Churyumov- ultrasound and nonlocal stack architecture for cardioprotection learning Synthetic Transmit Gerasimenko multifeatures based behavior in a time- enhanced cardiac mechanisms: in-vitro Aperture Dataset for Measured by CASSE on machine learning fractional wave imaging investigations on a Volumetric Diverging and DIM on Board equation hypoxy- Fabian Dietrichson, et al Wave Imaging: A Rosetta's Lander reoxygenation model Norwegian University of Simulation Study Philae YingHsiu Lin, et al Guillaume Ferin, et al of cardiac cells Science and Technology ChangGungUniversity James F. Kelly, et al Vermon SA (NTNU) Michigan State University Yinran Chen, et al Walter Arnold, et al Lorena Petrusca, et al Department of Saarland University Univ Lyon, UJM-Saint- Biomedical Engineering, Etienne, INSA, CNRS Tsinghua University UMR 5520, INSERM U1206, CREATIS, F- 42023, SAINT-ETIENNE

THURSDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY ORAL

01:30 pm -03:00 pm Oral --- Thursday, October 25

Session 1J. Session 2J. Session 3J. Session 4J. Session 5J. Session 6J. Session 7J. Session 8J. Deep Neural Ultrasound High Frame Rate Flow Processing: Sensors and New Class of SAW PGP & PNL: Compressed Networks for Mediated Agent Cardiac Imaging Methods and Actuators Device General Physical Sensing and Ultrasound Image Delivery Applications and Non-Linear Quantification Formation Chair: Massimo Mischi Chair: Robert Addison Chair: Clemens Ruppel Acoustics Chair: Mark Borden Eindhoven University of Chair: Lasse Lovstakken Rockwell Science Center - Chair: Miaomiao Zhang Chair: Adrian Basarab University of Colorado Technology NTNU Chair: Dave Feld KU Leuven University of Toulouse Boulder Broadcom Ltd Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 01:30 1J-1 Evaluating the 2J-1 Focused 3J-1 High frame rate 4J-1 Dual-Frequency 5J-1 High- 6J-1 Prof. Eric 7J-1 Multiple 8J-1 Ultrasound Robustness of Ultrasound Enhanced imaging of natural Alias-Free Color temperature Adler’s Legacy to steerable acoustic signal reconstruction pm Ultrasound Intranasal Delivery of shear waves in the Doppler using Microwave Acoustic Microwave Acoustics fields using a single from sparse samples Beamforming with Neurotrophic Factors human heart Chirping and Pulse Vibration Sensor element bowl using a low-rank and Deep Neural Exhibit Compression transducer and 3D- joint-sparse model Networks Neurorestorative Mauricio Pereira da printed kinoform Effects in Parkinson’s Pedro Santos, et al Anin Maskay, et al Cunha, et al Disease Mouse Model KU Leuven Vincent Perrot, et al University of Maine University of Maine Miaomiao ZHANG, et al Adam Luchies, et al Univ.Lyon, INSA-Lyon, Michael Brown, et al KU Leuven Vanderbilt University UCB Lyon 1, UJM-Saint University College Robin Ji, et al Etienne, CNRS, Inserm London Columbia University

01:45 1J-2 Beamforming 2J-2 Comparison of 3J-2 Longitudinal 4J-2 In-vivo 5J-2 Ultra-Wide-Band 7J-2 Source 8J-2 Compressive and speckle reduction focused ultrasound- and Transversal Abdominal SAW Sensor with Correction for k- Multiplexing of pm using deep neural mediated intranasal Particle Motion Microvasculature HFM Etched space Pseudospectral Ultrasound Signals networks brain drug delivery Induced by Aortic Evaluation based on Reflectors Time Domain Models and focused Valve Closure in the Ultrafast Curved ultrasound-induced Interventricular Array Imaging Adrien Besson, et al Dongwoon Hyun, et al blood-brain barrier Septum Victor Plessky, et al Ben Cox, et al Ecole Polytechnique Stanford University disruption in the GVR Trade SA University College Fédérale de Lausanne delivery of gold Jinbum Kang, et al London nanoclusters to the L.B.H. Keijzer, et al Sogang University brainstem Erasmus MC

Dezhuang Ye, et al Washington University in St louis

02:00 1J-3 Reverberation 2J-3 Ultrasound and 3J-3 Monitoring 4J-3 High Sensitivity 5J-3 Microwave 6J-2 Suprious-Free, 7J-3 Changing the 8J-3 Strategic lateral Noise Suppression in microbubble- canine myocardial Liver Vasculature Resonator Ultrasound Near-Zero-TCF Hetero Speed of Ultrasonic undersampling and pm the Aperture Domain mediated targeted infarction formation Visualization Using a Receivers Acoustic Layer (HAL) Pulses Through Compressed Sensing Using 3D Fully delivery of drug- and recovery with Real-time Coherent SAW Resonators Spatial Structuring of recovery in Convolutional Neural loaded nanoparticles transthoracic cardiac Flow Power Doppler Using LiTaO3 Thin the Acoustic ultrasound imaging Networks to porcine liver strain imaging (CFPD) Imaging Tom S Robbins, et al Plate on Quartz Wavefront System: A Pilot University College Clinical Study London Anand R, et al Leandra Brickson, et al Tommaso Di Ianni, et al Vincent Sayseng, et al Michio Kadota, et al Grace Richard, et al Indian Institute of Stanford University Stanford University Columbia University Tohoku university University of Glasgow Technology You Li, et al Madras(IITM) Stanford University 02:15 1J-4 A fully 2J-4 Focused- 3J-4 An angle 4J-4 In vivo Adaptive 5J-4 Wireless inertial 6J-3 Transverse 7J-4 Focused 8J-4 In-silico convolutional neural ultrasound mediated independent motion focusing for clinical sensing platform self- Modes in I.H.P. SAW Ultrasonic validation of pm network for anti-alpha-synuclein estimator for high Transcranial Ultrafast powered by Resonator and Their Transducer with microstructure beamforming antibody delivery for frame rate cardiac Ultrasound Imaging piezoelectric energy Suppression Method Electrically estimation from ultrasound images the treatment of data sets by Time Reversal of harvester for Controllable Focal- cortical bone Parkinson’s disease Moving Speckle Noise industrial predictive Point Location backscatter maintenance Hideki Iwamoto, et al Arun Nair, et al Bidisha Chakraborty, et al Murata Manufacturing Johns Hopkins Hairong Zhang, et al KU Leuven Justine Robin, et al Co., Ltd. Lurui Zhao, et al Juan Du, et al Columbia University Institut Langevin, ESPCI Maxime Benchemoul, et UNIVERSITY OF Charité - Paris, PSL Research al SOUTHERN Universitätsmedizin University, CNRS UMR Vermon SA CALIFORNIA Berlin 7587, INSERM U979

02:30 1J-5 Ultrasound 2J-5 Ultrasound- 3J-5 4D ultrafast 4J-5 High frequency 5J-5 Modeling and 6J-4 Oriented single- 7J-5 Bayesian 8J-5 Quantification of image reconstruction Enhanced imaging of functional ultrasound experimental crystal LiTaO3 thin spectrum analysis of multispectral pm using deep learning: Distribution and myocardial in mice parametric study of a film on Silicon for non-linear ultrasound photoacoustic a new paradigm Treatment Efficacy of contraction activation dual-cantilever piezo- high performances contrast microbubble images: unsupervised Dox-loaded in normal and magneto-elastic SAW components signals unmixing methods Intratumoral In pathological isolated Bas Koekkoek, et al energy harvester comparison Maxime Gasse, et al Situ Forming Implants rat hearts Erasmus MC Creatis Medical Imaging in Murine HCT-15 Marie Gorisse, et al Konstantinos Diamantis, Research Centre Tumors Xiaobo Rui, et al Soitec et al Aneline Dolet, et al Victor Finel, et al State Key Laboratory of Heriot-Watt University CREATIS Institut Langevin, Precision Measurement Selva Jeganathan, et al INSERM U979, ESPCI, Technology and Case Western Reserve CNRS UMR 7587, ART Instrument,Tianjin University University

02:45 2J-6 Abraxane 3J-6 Enhancing 4J-6 Simultaneous 5J-6 Accelerated 6J-5 Spurious Free 7J-6 HIFU beam: a 8J-6 Improved delivery with Cardiac Positron Noise Suppression aging procedures of SAW Resonators on software package for arbitrary waveform pm microbubble-assisted Emission and Incoherent bending piezoelectric Layered Substrate modeling axially- synthesis for tri-state ultrasound in human Tomography using Artifact Reduction In structures using with Ultra-High Q, symmetric nonlinear transmitters by an pancreatic cancer Ultrafast Ultrasound Ultrafast Ultrasound electrical stress High Coupling and ultrasound beams impulse response mouse model Imaging Microvessel Imaging induced approaches Small TCF radiated by focused factorization enabling therapeutic use of the Viterbi transducers algorithm Jean-Michel Escoffre, et Jonathan Porée, et al Chengwu Huang, et al Thien Hoang, et al Shogo Inoue, et al al Institut Langevin, ESPCI Mayo Clinic Vermon SA Qorvo, Inc. Inserm UMR1253 iBrain Paris, PSL Research Petr Yuldashev, et al John Flynn, et al University, CNRS UMR Physics Faculty, Moscow Verasonics, Inc 7587, INSERM U979 State University

THURSDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY ORAL

04:00 pm -05:30 pm Oral --- Thursday, October 25

Session 1K. Session 2K. Session 3K. Session 4K. Session 5K. Session 6K. Session 7K. Session 8K. Fourier Coding, Cardiovascular Flow Processing: Structural Health Material for Ultrasonic Devices Novel Designs and Beamforming and Beamforming and Imaging Segmentation Monitoring Acoustic Wave Applications Passive Imaging Parametric Device Chair: Margaret Lucas Contrast Imaging Chair: Chair: Matthew Bruce Chair: Patrick Johnston University of Glasgow Chair: Valsala Chair: Marvin Doyley University of Washington NASA Langley Research Chair: Omar Elmazria Kurusingal University of Rochester Chair: Chih-Kuang Yeh Center Université de Lorraine Thales Australia National Tsing Hua University Topaz (400) Diamond (300) Emerald (280) Sapphire (220) Ikuta (200) Nunobiki (150) Kikusui (140) Ruby (200) 04:00 1K-1 Implications of 2K-1 Nondestructive 3K-1 Differentiation 4K-1 Non-Contrast 5K-1 Exploiting 6K-1 SAW based 7K-1 A novel 8K-1 Fibonnaci Spiral lag one coherence on targeted microbubble of carotid artery Perfusion Ultrasound complex boundaries wireless flexible swimmer actuator via Arranged Ultrasound pm real-time adaptive detection using a plaque composition Imaging for through full waveform temperature sensors leaky surface Phased Array for Mid- frequency selection dual-frequency in asymptomatic Assessment of Trans- ultrasonic imaging for on-body acoustic wave Air Haptics beamforming deep individuals using arterial applications neural network compound ultrasound Chemoembolization James Long, et al strain imaging of Hepatic Malignancy Fan Shi, et al Deqing Kong, et al Adam Price, et al Duke University validated by magnetic Imperial College London Cécile Floer, et al Tokyo Institute of Ultrahaptics Dongwoon Hyun, et al resonance imaging Université de Lorraine - Technology Stanford University Jaime Tierney, et al CNRS Vanderbilt University Hendrik Hansen, et al Radboud university medical center

04:15 1K-2 Regularized 2K-2 Improved 3K-2 New Denoising 4K-2 Adaptive SVD 5K-2 Ultrafast 6K-2 Piezoresistive 7K-2 Ultrasonic 8K-2 Lead-free Inversion Method for Contrast-Enhanced Unsharp Masking clutter filter for Phased Array Graphene SAW Propeller with sodium potassium pm Frequency-Domain Ultrasound Imaging Methods for Improved Ultrafast Doppler Imaging: an Transducer Electrically niobate based Reconstruction of by Intima Media imaging using Spatial Application to Closed Controllable piezoelectric thick Full Synthetic combining Hadamard- Thickness Similarity Matrix Crack Propulsion Direction film bimorph Aperture Dataset encoded Multi-pulses Measurements with Characterization Benyamin Davaji, et al structure for energy From Focused with Multiplane Wave Active Contour Cornell University harvesting Transmissions Transmission Segmentation Jerome Baranger, et al Lurui Zhao, et al Institut Langevin, ESPCI Yoshikazu Ohara, et al UNIVERSITY OF Paris, PSL Research Tohoku University SOUTHERN Claire Bantignies, et al Rehman Ali, et al Ping Gong, et al Asraf Moubark, et al University, CNRS UMR CALIFORNIA VERMON Stanford University Mayo Clinic College of University of Leeds 7587, INSERM U979 Medicine and Science

04:30 1K-3 Frequency 2K-3 Acoustic sub- 3K-3 Non-invasive 4K-3 3D HOSVD 5K-3 High frequency 6K-3 Investigation of 7K-3 Special 8K-3 Sparse domain Two-Stage aperture processing myocardial clutter filtering with ultrasonic and Temperature Nonlinear Effects of volumetric PZT array pm Beamforming for (ASAP) for super- performance mapping automatic cutoff photoacoustic Characteristics and the Harmonic 3rd with density tapering Phased Array Imaging contrast using 3D selection applied to studies of polymer Substrate Influence Overtone Thickness- using the Fast Hankel microvascular echocardiographic circular wave cardiac composites with on AlScN-based SAW shear Mode on its Transform imaging: in vivo stress-strain loops: Doppler imaging nanoinclusions Resonators Fundamental Mode in Hendrik J. Vos, et al demonstration for validation against f-3f Modal Erasmus MC preclinical contrast PET Interactions and Drive Fabian Fool, et al and non-contrast Julia Faurie, et al Vytautas Samulionis, et al Anli Ding, et al Level Dependency Delft University of imaging Universite de Montreal Physics Faculty of Vilnius Fraunhofer IAF Technology João Pedrosa, et al University KU Leuven Yook-Kong Yong, et al Chee Hau Leow, et al Rutgers University Imperial College London 04:45 1K-4 Full-wave 2K-4 Multi-Parametric 3K-4 3D direct 4K-4 Noise Debiasing 5K-4 GPU- 6K-4 Polarity inverted 7K-4 A Quasi-LTI 8K-4 A Broadband ultrasound Assessment of visualization and non- for Real-Time SVD accelerated matrix- ScAlN multilayer for Frequency-Selective Technique for pm reconstruction with Treatment Response invasive localization Clutter Filter-Based free 3D application to SAW Circulator Couplant- linear arrays based from 3D Dynamic of atrial and Ultrafast Microvessel reconstruction for transformer in Corrected Pulse-Echo on a Fourier split step Contrast-Enhanced ventricular Imaging ultrasonic rectifying antenna Measurements in a approach Ultrasound arrhythmias using nondestructive Giuseppe Michetti, et al Large Volume Electromechanical testing Northeastern University Pressure Cell Wave Imaging in Chengwu Huang, et al Rei Karasawa, et al Hans-Martin Schwab, et Ahmed El Kaffas, et al patients Mayo Clinic Waseda University al Stanford University Jan Kirchhof, et al Blake Sturtevant, et al Ruhr-University Bochum Fraunhofer IZFP Los Alamos National Lea Melki, et al Laboratory Columbia University

05:00 1K-5 Advanced 2K-5 High-contrast 3K-5 Ultrafast 4K-5 Non-invasive 5K-5 Outer wall 6K-5 Extraction of 7K-5 A Radio 8K-5 A 30 MHz, 3D beamforming 3D in vivo imaging of the heart small vessel imaging inspection using electromechanical Frequency Non- Imaging, Forward pm techniques for microvascular dynamics with of human thyroid acoustic irradiation coupling coefficient reciprocal Network Looking Miniature passive imaging of imaging using cascaded-wave using motion- induced vibration of film/substrate Based on Switched Endoscope based on stable and inertial scanning 2D ultrasound corrected Power from UAV for structure by using the Low-Loss Acoustic a 128-element Relaxor cavitation ultrasound and Doppler Imaging: noncontact acoustic ratio of a third mode Delay Lines Array acoustic sub-aperture Preliminary in vivo inspection method resonant frequency to processing (ASAP) Yang Zhang, et al study a fundamental mode Maxime Polichetti, et al The University of Hong resonant frequency Ruochen Lu, et al Katherine Latham, et al University Lyon, INSA- Kong Tsuneyoshi Sugimoto, et University of Illinois at Dalhousie University Lyon, UCBL, UJM-Saint- Chee Hau Leow, et al Rohit Nayak, et al al Urbana-Champaign Etienne, CNRS, Inserm, Imperial College London Mayo Clinic Toin University of Makoto Totsuka, et al CREATIS UMR 5220, Yokohama Waseda University U1206, F-69100 Villeurbanne, France

05:15 1K-6 Decimated 2K-6 Novel Motion 3K-6 Ventricular 4K-6 Wall Signal 5K-6 Progressive 6K-6 A new method 7K-6 Measurement of 8K-6 Backside Analytic Signal based Correction Algorithm tachycardia re-entry Removal in Doppler online 3-D SAFT for extracting Q factor elastic constants of clamped phased array pm Beamformer for for 3D Dynamic mapping with 3D Ultrasound using processing by matrix of the piezoelectric monoclinic Ga2O3 transducer : From Efficient Contrast Ultrasound electromechanical Principal Component structure exploitation film without removing using resonant FEM to Reconstruction of Without Anatomical wave imaging Pursuit substrate ultrasound characterization Passive Acoustic Bmode Images spectroscopy Mapping Fabian Krieg, et al Julien Grondin, et al Gustavo Chau, et al Fraunhofer Institute for Sarina Kinoshita, et al Cyril Meynier, et al Ahme El Kaffas, et al Columbia University Stanford University Nondestructive Testing Waseda University Takeuchi Naoto, et al Vermon SA Pilsu Kim, et al Stanford IZFP Osaka university Sogang University

THURSDAY ORAL Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY POSTER

09:30 am - 04:00 pm Poster --- Thursday, October 25 Kairaku (posters 1)

Session P1-C2. Session P1-C3. Session P1-C5. P1-C6-6 2D motion estimation based on P1-C7-9 Ultrasound Imaging Improved by the Improving Image Quality with Modelling in Beamforming Elasticity Imaging of the Skin diverging wave coherent compounding and Context Encoder Reconstruction Generative Limited Data transverse oscillations Adversarial Network Chair: Sebastian Salles Chair: Brett Byram Feifei Zhao, et al Chao-Yi Huang, et al Chair: Pieter Kruizinga NTNU Vanderbilt University Department of Biomedical Engineering, Tsinghua National Chung Cheng University Erasmus Medical Center University, Beijing

P1-C2-1 Sparse Orthogonal Diverging Wave P1-C3-1 Determination of Delay Resolution in P1-C5-1 Young’s Modulus of Dermis and P1-C6-7 Influence of Factors on Motion P1-C7-10 RF Data Restoration using Deep Imaging on a High-Frequency Phased Array Baseband I/Q Beamformer Using Error Model of Hypodermis of Healthy Volunteers Measured Artifacts in Strain Estimation with Spatial Neural Network in Subjects Including Bone for Endoscope Array Gain with High Frequency Transient Elastography Angular Compounding Ultrasound Computed Tomography

Christopher Samson, et al Jintae Jang, et al Caroline Chartier, et al Zonghui Pan, et al Yoshiki Watanabe, et al Dalhousie University Sogang University UMR Inserm U1253, Tours, France Department of Biomedical Engineering, Tsinghua The University of Tokyo University

P1-C2-2 Deepforming: a deep learning strategy P1-C3-2 A simple, artifact-free virtual source P1-C5-2 Clinical Interest of High Frequency P1-C6-8 Shear-wave based monitoring of P1-C7-11 Machine learning of regional for ultrasound beamforming applied to sub- model Transient Elastography to Assess Dermis radiofrequency ablations at clinically relevant myocardial strain curves to predict myocardial sampled data Fibrosis in Patients with Venous Insufficiency depths viability Ole Marius Hoel Rindal, et al Walter Simson, et al University of Oslo Yassine Mofid, et al Jochen Kruecker, et al Mahdi Tabassian, et al Chair for Computer Aided Medical Procedures & UMR Inserm U1253, Tours, France Philips Research North America KU Leuven Augmented Reality, Technische Universität München

P1-C2-3 The partial Hadamard matrix for P1-C3-3 Modeling the acoustic field produced P1-C5-3 On-Axis Acoustic Radiation Force- Session P1-C7. P1-C7-12 Use of Deep Learning to Reconstruct performance optimization of compressed by diagnostic ultrasound arrays in plane wave based Elasticity Measurement in Homogeneous Machine Learning for Image Limited-Angle Ultrasound Tomography Images sensing based synthetic transmit aperture mode and Layered, Skin-Mimicking Phantoms Processing in Prostate Cancer: A Simulation Feasibility Study Jing Liu, et al Ting-Yu Lai, et al Kristy Walsh, et al Chair: Grant Kruger School of Medicine, Tsinghua University University of Washington Vanderbilt University Alexis Cheng, et al University of Michigan National Institutes of Health

P1-C2-4 Virtually Extended Array imaging Session P1-C4. P1-C5-4 Noninvasive measurement of lung and P1-C7-1 Automatic classification of cardiac Session P1-C8. improves lateral resolution in high frame rate Bubbles Imaging skin stiffness for assessing interstitial lung events from ultrasound images using deep Signal Processing for Hard and Soft volumetric imaging disease and skin involvement in systemic learning Tissue Imaging sclerosis Chair: Wei-Ning Lee Mehdi Soozande, et al Adrian Meidell Fiorito, et al University of Hong Kong Chair: Veronica He Erasmus MC Xiaoming Zhang, et al Norwegian University of Science and Technology Infraredx Inc. Mayo Clinic

P1-C2-5 Gap-filling method for suppressing the P1-C4-1 Comparing Microbubble Detection P1-C5-5 High resolution SAW elastography for P1-C7-2 Ultrasound image synthesis and P1-C8-1 Enhancing Microcalcifications in grating lobes in ultrasound imaging Algorithms for Super-Resolution Imaging ex-vivo porcine skin specimen anatomical encoding using generative Breast Images by Shrinkage of Wavelet adversary neural networks Coefficients Bae-Hyung Kim, et al Jemma Brown, et al Kairui Feng, et al Mayo Clinic College of Medicine & Science King's College London University of Dundee Oudom Somphone, et al Stine M. Hverven, et al Philips Research France University of Oslo P1-C2-6 Optimal virtual sources distribution in P1-C4-2 Development of Simultaneous Optical Session P1-C6. P1-C7-3 Ultrasound – computerized P1-C8-2 Parameter-sweep inversion for 3-D Diverging Wave Ultrasound Imaging: an Imaging and Super-Resolution Ultrasound to Methods for Elasticity Imaging tomography registration using generative thickness and elastic velocities of long bone experimental study Improve Microbubble Localisation Accuracy adversarial networks using axially-transmitted ultrasonic guided waves Chair: Hideyuki Hasegawa Paolo Mattesini, et al Jemma Brown, et al University of Toyama Naama Cohen, et al University of Florence King's College London Technion Tho N.H.T. Tran, et al University of Alberta

P1-C2-7 Improving contrast and grating lobe P1-C4-3 Subharmonic Plane Wave Imaging of P1-C6-1 Optimization of angular displacement P1-C7-4 Deep learning applied to multi- P1-C8-3 Application of Dynamic Time Warping suppression in sparse array imaging using Liposome-loaded Microbubbles compounding in plane-wave ultrasound structures segmentation in 2D Technique to Evaluate Microstructures of convolutional neural network imaging to improve accuracy of lateral echocardiography : a preliminary investigation Cancellous Bones displacements and strain estimates. of the required database size Luzhen Nie, et al Viksit Kumar, et al University of Leeds Boyi Li, et al Mayo clinic Gijs Hendriks, et al Sarah Leclerc, et al Fudan University Radboud university medical center CREATIS

P1-C2-8 Portable Ultrasound through P1-C4-4 3D In Vitro Ultrasound Super- P1-C6-2 Multi-frequency 3D phase tracking P1-C7-5 The Feasibility of Classification of P1-C8-4 Ringdown suppression for a Compressive Beamforming with Improved Resolution Imaging using a Clinical System method with phased-array beamforming in thyroid nodules integrated expriences based sonothrombolysis catheter using principal Contrast Cartesian coordinate system inference of radiologist and extracted feature component analysis filtering vectors in ultrasound images Kirsten Christensen-Jeffries, et al Jovan Mitrovic, et al Kings College London Soichiro Nunome, et al Adam J. Dixon, et al University of Rochester University of Toyama Shijie Zhang, et al University of Virginia Peking University

P1-C2-9 Artifact Suppressed Sparse Coherent P1-C4-5 A study of radiation force effects in P1-C6-3 Intra-Scan Variability of Natural Shear P1-C7-6 Deep CNN based ultrasound super P1-C8-5 Reconstruction acceleration for Plane Wave Compounding Using Modified plane-wave transmission mode Wave Measurements resolution for high-speed high-resolution B- compressed sensing based synthetic transmit Vernier-Interpolation Angle Sequence mode imaging aperture using quadrature sampling Francesco Guidi, et al L.B.H. Keijzer, et al Ya-Ling Hsieh, et al University of Florence Erasmus MC Woosuk Choi, et al Jing Liu, et al National Tsing Hua University KAIST School of Medicine, Tsinghua University

P1-C2-10 High-frame rate 3D-synthetic transmit P1-C4-6 Poisson Statistical Model of P1-C6-4 Fast randomized singular value P1-C7-7 Cardiac Motion Estimation with P1-C8-6 Wavelet-based Cepstral Analysis for aperture imaging with a reduced number of Ultrasound Super-Resolution Image Acquisition decomposition based clutter filtering for shear Dictionary Learning and Robust Sparse Coding the Estimation of the Mean Scatterer Spacing receiving channels Time wave imaging in Ultrasound Imaging Remie Nasr, et al Ying Li, et al Kirsten Christensen-Jeffries, et al Yuanyuan Wang, et al Nora Ouzir, et al Lebanese University Ryerson University King's College London Department of Biomedical Engineering, Tsinghua University of Toulouse University

P1-C2-11 Ultrafast Ultrasound Imaging with P1-C4-7 Chirp-Coded Excitation for Enhancing P1-C6-5 A Comparative Study of Displacement P1-C7-8 Quality assessment of transperineal P1-C8-7 Jointly Optimized Modulation / Stretchable Probe on Nonplanar Surface: A the Transcranial Penetration in Ultrasound De-noising Strategies: An In Vivo Feasibility ultrasound images of the male pelvic region Filtering Technique for Pseudo-Orthogonal Simulation Study Localization Microscopy: An ex vivo Validation Study Using 3D Whole Breast Ultrasound Data using deep learning Binary Sequences Study Congzhi Wang, et al Jingfeng Jiang, et al Saskia Camps, et al Denis Bujoreanu, et al Shenzhen Institutes of Advanced Technology, the Fu-Feng Lee, et al Michigan Technological University Eindhoven University of Technology Univ.Lyon, INSA-Lyon, UCBL1, UJM-Saint Etienne, Chinese Academy of Sciences Department of Biomedical Engineering, Tsinghua CNRS, Inserm, CREATIS UMR 5220, U1206 University

THURSDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY POSTER

09:30 am - 04:00 pm Poster --- Thursday, October 25 Kairaku (posters 1)

Session P1-C9. Session P1-C10. P1-C11-4 Accumulation of Magnetic P1-C12-7 Theoretical Electroelastic Moduli of P1-C14-4 Near-field multiple traps of acoustic Musculoskeletal System Liver Nanoparticles Employing High Intensity Porous Textured Piezoceramics vortices generated by a sector transducer array Focused Ultrasound for Drug Targeting and its application in object manipulation Applications Chair: Tadashi Yamaguchi Chair: Michael Oelze Antoine Balé, et al Chiba University University of Illinois Université de Tours - GREMAN UMR 7347 CNRS Qingyu Ma, et al Michael Fink, et al Nanjing Normal University University of Erlangen Nuremberg

P1-C9-1 Ultrasound radiation from bovine P1-C10-1 Sensitivity analysis of reference-free P1-C11-5 Controlled Transdermal Hepatitis B P1-C12-8 Eccentric design of Fabry-Perot P1-C14-5 Ultrasonic auger for narrow-gauge cortical bone quantitative ultrasound tissue classification. Immunization using Focused Ultrasound interferometer for high sensitivity and bore-hole drilling broadband ultrasound sensing Taiki Makino, et al Trong Nguyen, et al Mei Yang, et al David Firstbrook, et al Doshisha university University of Illinois at Urbana Champaign Shenzhen University Bingxue Liu, et al University of Glasgow School of Instrumentation Science and Opto- electronics Engineering, Beihang University

P1-C9-2 Ex vivo radius fracture discrimination P1-C10-2 Investigation of A Method for P1-C11-6 Ultrasound targeted microbubble Session P1-C13. P1-C14-6 Lead free Ceramic Transducers for from cortical thickness and porosity obtained Quantifying Diffuse Liver Disease Based on destruction promotes the homing of MSCs in Therapeutic Transducers Sonar Applications by axial transmission Histogram of Ultrasound Signal-to-Noise Ratio rat model of acute injury liver

Chair: Ho-yong Lee Valsala Kurusingal, et al Jean-Gabriel Minonzio, et al Takuma Oguri, et al Ting Sun, et al Ceracomp Co., Ltd Thales Australia Sorbonne Université GE Healthcare Shanghai General Hospital

P1-C9-3 Interpretation of Physical Meaning of P1-C10-3 Quantitative Ultrasound P1-C11-7 Photoacoustic Imaging in the Spinal P1-C13-1 Miniaturized Sub-megahertz Focused Speed of Sound in Cartilage Tissue: Through Spectroscopy to Differentiate Between Cirrhotic Cord: Monitoring Stem Cell Ultrasound Transducers Composed of Comparison with Elasticity and Magnetic and Non-Cirrhotic Patients Therapies for Image-Guided Regenerative Multilayer Hard PZT ceramics Resonance Parameters Medicine Ahmed El Kaffas, et al Ho-Wuk Kim, et al Naotaka Nitta, et al Stanford University Kelsey Kubelick, et al North Carolina State University National Instiute of Advanced Industrial Science Georgia Institute of Technology & Emory University and Technology (AIST)

P1-C9-4 A three-parameter empirical model of P1-C10-4 Envelope statistics and backscattered P1-C11-8 Ultrasound stimulation of synthetic P1-C13-2 High intensity focused ultrasound the angular dependence of the speed of sound power-spectrum analysis of rat livers with high- platelets in vitro. Influence of cross-linkage, (HIFU) combines Optical Coherence in cortical bone frequency annular array applications to healing and effect on drug tomography (OCT) for skin superficial diseases release kinetics. treatment and evaluation Quentin Grimal, et al Takeru Mizoguchi, et al Sorbonne Universite´, UPMC Univ Paris 06, Chiba University Seema Nandi, et al Guan Wang, et al INSERM, CNRS, Laboratoire Imagerie Biomédicale North Carolina State University University of Dundee

P1-C9-5 Study on the wave convergence in P1-C10-5 Characterization of concentrated Session P1-C12. P1-C13-3 Development of low frequency (20 bone for the effective ultrasound radiation scattering media using ultrasound parameric Transducer Modeling and kHz) clinically viable ultrasound applicator for imaging based on Homodyned-K Distribution Characterization chronic wound treatment Masaya Saeki, et al Doshisha university Jui Fang, et al Olivia Ngo, et al Chair: Stefan Rupitsch Chang Gung University Drexel University School of Biomed Friedrich-Alexander University P1-C9-6 In-bioreactor ultrasonic monitoring of P1-C10-6 Quantitative evaluation method for P1-C12-1 Assessment of Electromechanical P1-C13-4 Virtual Prototyping of a Catheter human engineered cartilage liver fibrosis in clinical ultrasound B-mode Coupling Coefficient for a Completed PIN-PMN- Transducer Array for Internal Hepatic image based on optimized multi-Rayleigh model PT Array Sonoporation Guillermo Rus, et al University of Granada Shohei Mori, et al Douglas N. Stephens, et al Alexandru Moldovan, et al Tohoku University University of Calif, Davis University of Strathclyde

P1-C9-7 Monitoring of Tetanic Contractions of P1-C10-7 Verification of frequency dependence P1-C12-2 Comparison of two models for power P1-C13-5 Lead Free Piezoceramic Based Skeletal Muscle Using Wearable Ultrasonic and accuracy in backscatter coefficient analysis dissipation and temperature in piezoelectric Ultrasonic Devise for Medical Application Sensors of fatty liver transducers Muhammad Sadiq, et al Ibrahim AlMohimeed, et al Atsuko Yamada, et al Marcus Wild, et al Active Needle Technology Ltd. Carleton University Chiba University University of South-Eastern Norway

P1-C9-8 Inferring porosity from frequency Session P1-C11. P1-C12-3 A FEM-based Method for Complete Session P1-C14. dependent attenuation in bone mimicking Applications of Therapeutic Parameter Identification of Thin Piezoceramic Transducer Design and Applications porous materials Ultrasound Bars Chair: Xiaoning Jiang Marie Muller, et al Amirfereydoon Mansoori, et al Chair: Hong Chen North Carolina State University North Carolina State University University College of Southeast Norway Washington University at St. Louis

P1-C9-9 Effects of Microstructure on Ultrasonic P1-C11-1 Tumor Recruitment by Fusogenic P1-C12-4 Temporal evolutional acoustic pattern P1-C14-1 Development of anti-cavitation Attenuation in Skull Bone Nanodroplets in Stem Cell-Mediated Drug- generated by a 3D printed Fresnel lens-focused hydrophone -Study on the novel hydrophone Delivery System transducer with new cap structure titanium front plate - Jinjin Liu, et al The First Affiliated Hospital of Wenzhou Medical Yi-Ju Ho, et al Chunlong Fei, et al Michihisa Shiiba, et al University National Tsing Hua University Xidian University Nihon Institute of Medical Science

P1-C9-10 Influence of porosity on apparent P1-C11-2 Catalase-Loaded Mesoporous Zeolite P1-C12-5 Multilayered Carbon Nanotube Yarn P1-C14-2 High efficiency ultrasonic transducer absorption coefficient in porous structures as Implantable Nanocapsules for Ultrasound- Based Optoacoustic Transducer using polarity inverted ZnO thin film mimicking cortical bone Guided Oxygen Self-Sufficient Photodynamic Therapy against Pancreatic Cancer Zeyu Chen, et al Tsuyoshi Majima, et al Yasamin Karbalaeisadegh, et al University of Southern California Waseda University North Carolina State University Zonghai Sheng, et al Shenzhen Institute of Advance Technology Chinese Academy of Sciences

P1-C9-11 Neural Network based Bone Density P1-C11-3 Investigation of Combined P1-C12-6 Micro-Stereolithography of KNN P1-C14-3 New Lead-Free Bi4Ti3O12 Based Sol- Estimation from the Ultrasound Waveforms Sonodynamic and Radiotherapy for Pancreatic Piezoceramics for Ultrasonic Transducers Gel Composites for Ultrasonic Transducers inside Cancellous Bone derived by FDTD Cancer simulations Weicen Chen, et al Shohei Nozawa, et al Richard Browning, et al Nanjing University of Aeronautics and Astronautics Kumamoto University Yoshiki Nagatani, et al University of Oxford Kobe City College of Technology

THURSDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY POSTER

09:30 am - 04:00 pm Poster --- Thursday, October 25 Waraku (posters 2)

Session P2-C1. P2-C2-2 A cylindrical ultrasonic vibration mixer P2-C3-5 Volumetric Color Flow Mapping using P2-C4-8 Imaging-guided dual-target brain P2-C6-2 Preparation and sonocatalytic PGP & PNL: General Physical and for continuous flow chemical process a Row-Column Array stimulation on mouse using array ultrasound performance of a hierarchical structures Non-Linear Acoustics Bi2WO6 microsphere for degradation of Methylene blue Kazuki Harita, et al Jørgen Jensen, et al Guofeng Li, et al Graduate School of Natural Science and Technical University of Denmark Shenzhen Institutes of Advanced Technology, Chair: Yun Jing Technology, Okayama University, okayama, Japan Chinese Academy of Sciences Apeng Sun, et al North Carolina State University Shaanxi Normal University

P2-C1-1 Ultrasound radiation force to remotely P2-C2-3 A cryogenic rotary valve using bolt- P2-C3-6 Relative blood volume estimation from P2-C4-9 Revolving Permanent Magnet for P2-C6-3 Degradation of Rhodamine B in control implanted medical devices clamped type transducer clinical super-resolution US imaging in breast Magnetomotive Ultrasound seawater using ultrasonic combined with cancer periodate Samuel Callé, et al Takefumi Kanda, et al Sandra Sjöstrand, et al GREMAN UMR 7347, Université de Tours, CNRS, Okayama University Stefanie Dencks, et al Lund University Dongdong Du, et al INSA Centre Val de Loire Ruhr-Universität Bochum Shaanxi Normal University

P2-C1-2 Scattering cross-section estimation P2-C2-4 Vibration Amplitude Modulation for P2-C3-7 The use of ultrasound Doppler in P2-C4-10 Sources of 2nd harmonic generation P2-C6-4 Design of an Underwater Vector using passive imaging in reverberating elastic Roughness Sensation Rendering with Dentistry: pulpal blood flow measurement and in a medical ultrasound probe Hydrophone using a Shear Mode Accelerometer plates : case study of rigid isotropic inclusion Ultrasoinc Vibration its clinical advantage over electirc pulp tester. made of Piezoelectric Single Crystals Thong Huynh, et al Lynda chehami, et al Masaya Takasaki, et al Dohyun Kim, et al University College in Southeastern Norway Seonghun Pyo, et al Univ. Valenciennes, CNRS, Univ. Lille, YNCREA, Saitama University Yonsei University, Dept. of Conservative Dentistry Kyungpook National University Centrale Lille, UMR 8520 - IEMN, DOAE, F-59313 Valenciennes

P2-C1-3 Effects of Ultrasonication on Gold P2-C2-5 An ultrasonic motor with 2 mm in rotor P2-C3-8 Functional ultrasound imaging in the Session P2-C5. P2-C6-5 Experimental Evaluation of High Nanowire Arrays diameter using transmission line and a spring non-human primate posterior parietal cortex Transducers Intensity Ultrasound Source System using washer driven by a Langevin transducer. during a memory-guided saccade task Acoustic Waveguide and Concave Transducer with 100 mm Diameter for Calibration of Hannah Johnston, et al Chair: Jiromaru Tsujino Hydrophone Queen's University Belfast Keishu Hosokawa, et al David Maresca, et al Kanagawa University University of Yamanashi California Institute of Technology Shigeru Igarashi, et al Polytechnic University

P2-C1-4 Electrification of sonoluminescing P2-C2-6 Modeling and Experimental Study on P2-C3-9 3D Printed Flow Phantoms with P2-C5-1 Design, realization and Session P2-C7. bubble in water the Current Harmonics of a High Power Fiducial Markers for Super-Resolution characterization of a di?erential charge Material and Defect Characterization Ultrasonic Motor Ultrasound Imaging ampli?er for ultrasonic piezopolymer transducers Hyang-Bok Lee, et al Chair: Patrick Johnston Meiji University Xiaoniu Li, et al Martin Lind Ommen, et al NASA Langley Research Center Nanjing University of Aeronautics and Astronautics Technical University of Denmark Pietro Giannelli, et al University of Florence

P2-C1-5 Looking at the skull in a new light: P2-C2-7 Numerical Simulation of Non- Session P2-C4. P2-C5-2 Performance prediction of ultrasonic P2-C7-1 Ultrasonic detection of stress Rayleigh-Lamb waves in cranial bone. reciprocal Acoustic Waveguide based on Multimodal Systems sensor for automotive application corrosion cracks in pipe samples using guided Indirect Interband Transitions waves

Hector Estrada, et al Chair: Mohammad Mehrmohammadi Youngsoo Choi, et al Helmholtz Center Munich Junyi Ge, et al Wayne State University Hyundai Mobis, APS Control Engineering Team Petter Norli, et al Okayama University Halfwave P2-C1-6 Effect of Electrode Configurations on P2-C2-8 Design of Non-reciprocal Lamb Wave P2-C4-2 An open real-time photoacoustic P2-C5-3 Multielement Interdigital Transducers P2-C7-2 Forward and inverse researches on the Q-factor and Spurious modes for a Doubly Filter by Heterojunction Phononic Crystals imaging scanner for Structural Health Monitoring scattering of ultrasonic surface waves by near- Rotated Contoured Quartz Resonator surface cavities Kenji Tsuruta, et al Aneline Dolet, et al Andrea Bulletti, et al Mihir Patel, et al Okayama University CREATIS Università degli Studi di Firenze Bin Wang, et al Schlumberger Tech Corp Nanjing University of Aeronautics and Astronautics

P2-C1-7 The use of airborne ultrasound for Session P2-C3. P2-C4-3 A configurable module-based P2-C5-4 Detection effect of resonance P2-C7-3 Varroa destructor mite control in beehives Volume and 2D/3D Flow Imaging ultrasound imaging system: all-in-one frequency of both laser Doppler vibrometer and ultrasound, photoacoustics, and elasticity internal defect of concrete structure by spatial imaging spectral entropy Brendan Barry, et al Chair: Charlie Demené University College Cork INSERM Heechul Yoon, et al Kazuko Sugimoto, et al Georgia Institute of Technology Toin University of Yokohama

P2-C1-8 Localization of fatigue cracks using P2-C3-1 4D Ultrasensitive Doppler monitoring P2-C4-4 Design, Development and Cadaveric P2-C5-5 Autonomous Ultrasonic Inspection for P2-C7-4 Characterization of ferroelastic low-frequency nonlinear Lamb waves in of in situ thromboembolic stroke and Validation of a Minimally Invasive Theranostic Complex Geometry Using Unmanned Aerial martensites by resonant ultrasound numerical perspective reperfusion using tissue-type plasminogen Device for Ablative Neuro-Oncology Vehicle spectroscopy. activator in mouse model Xu Jichao, et al Nao Gamo, et al Dayi Zhang, et al Hanus Seiner, et al East China University of Science and Technology Vincent Hingot, et al Johns Hopkins University University of Strathclyde Institute of Thermomechanics, Czech Academy of Institut Langevin, ESPCI Paris, PSL Research Sciences University, CNRS UMR 7587, INSERM U979

P2-C1-9 What Information about High-Pressure P2-C3-2 3D Flow Reconstruction and Wall P2-C4-5 Design, Modeling, and characteration P2-C5-6 Estimating Rheological Properties of P2-C7-5 Study on The Effect of Fiber Weaving Thermophysical Properties of Liquids Can be Shear Stress Evaluation with 2D Ultrafast of a subject specific acoustic collimator for Non-Newtonian Drilling Fluids using Machine on Properties of Composite Materials by Provided by Low-Intensity Ultrasonic Waves? Ultrasound Particle Imaging Velocimetry multi-index ultrasound neuron modulation Learning and Ultrasonic Through-Transmission Acoustic Emission system Techniques Piotr Kielczynski, et al Xinhuan Zhou, et al Yuan Mi, et al Polish Academy of Sciences Imperial College London Chih-Hsien Huang, et al Morten Hansen Jondahl, et al Nanjing University of Aeronautics and Astronautics imec University College of Southeast Norway

Session P2-C2. P2-C3-3 3D coronary blood flow imaging: A P2-C4-6 Design and Implementation of a Dual- Session P2-C6. P2-C7-6 Defect Imaging Using Sub-Sampled PUM & PNR: Ultrasonic Devices and comparison of automatic adaptive clutter filter Transmit/ Receive-Mode Therapeutic Underwater Acoustics Array Data with Least-Squares Migration Non-Reciprocal Acoustics algorithms Ultrasound Phased Array System for Brain Therapy Chair: Jafar Saniie Katherine Tant, et al Cristiana Golfetto, et al University of Strathclyde Chair: Yun Jing Illinois Institute of Technology NTNU Hao-Li Liu, et al North Carolina State University Chang Gung University

P2-C2-1 High-power non-metal ultrasonic P2-C3-4 3D velocity and volume flow P2-C4-7 Precise Transcranial Ultrasound P2-C6-1 Design of an Acoustic Modular P2-C7-7 Effect of Spot Weld Indentation on motor with an alumina vibrator measurement using speckle decorrelation and Imaging/HIFU by Adaptive Beamforming via a Projector for Active Sonobuoys Spot Weld Nugget Characterization high frame rate contrast-enhanced ultrasound Dual-Mode Hand-Held Probe Jiang Wu, et al Hayeong Shim, et al Xiaoli Han, et al Tokyo Institute of Technology Xiaowei Zhou, et al Kiyanoosh Shapoori, et al Kyungpook National University Institute of Acoustics,Chinese Academy of Imperial College London Institute for Diagnostic Imaging Research (IDIR) Sciences s

THURSDAY POSTER Key: Group 1 Group 2 Group 3 Group 4 Group 5 THURSDAY POSTER

09:30 am - 04:00 pm Poster --- Thursday, October 25 Waraku (posters 2)

P2-C7-8 Numerical investigations on P2-C9-4 Diamond SAW resonators made by P2-C11-3 Flexible Lamb wave resonators based localization of material degradation using Minimal-Fab process on lithium niobate thin film guided mixing wave Satoshi Fujii, et al Xin Sun, et al Tang Bo, et al National Institute of Technology, Okinawa College Tianjin University East China University of Science and technology

Session P2-C8. P2-C9-5 Suppression of Propagation Losses in P2-C11-4 An Improved Design for 2D Arrays of Flow Measurement and Microfluidics TC SAW Resonators Using Thin Plates of Capacitive Micromachined Ultrasound LiTaO3 Bonded to Quartz Substrates Transducers: Modeling, Fabrication, and Characterization Chair: Nishal Ramadas Elster Instromet Natalya Naumenko, et al National University of Science and Technology Mario Baum, et al ‘MISIS’ Fraunhofer ENAS

P2-C8-1 Surface Acoustic Wave Based Session P2-C10. P2-C11-5 Apodization technique for significant Acoustofluidic Device for Particle Size Filtering SAW Sensor & Actuator II spurious mode suppression of AlN plate mode resonators

Jin-Chen Hsu, et al Chair: Hagen Schmidt National Yunlin University of Science and IFW Dresden Yao Zhu, et al Technology Institutes of Microelectronics, A*STAR

P2-C8-2 Analysis of Influence of Inconsistent P2-C10-1 AlN/Si based SAW resonators for very P2-C11-6 Quality Factor Improvement of a Performances of Array Elements on Flexural high sensitivity temperature sensors 2.4GHz AlN Checker Mode Resonator by Novel Ultrasonic Phased Array for Measurement of Distributed Anchor Design Ultrasonic Generation and Reception in Fluids Alexandra Nicoloiu, et al IMT-Bucharest Yao Zhu, et al Lei Kang, et al Institutes of Microelectronics, A*STAR University of Warwick

P2-C8-3 Selective killing of tumor cells based P2-C10-2 Displacement of Microparticles on Session P2-C12. on patterned gold nanoparticles via surface Surface Acoustic Wave Delay Line Using High Material for Acoustic Wave Device II acoustic wave device RF Power

Chair: Sylvain Ballandras Wei Zhou, et al Melvin Paquit, et al frec|n|sys SASU Shenzhen Institutes of Advanced Technology, AR-Electronique Chinese Academy of Sciences

P2-C8-4 Minimizing the zero-flow error in P2-C10-3 PbS colloidal quantum dots coated P2-C12-1 The dielectric loss of wurtzite transit time ultrasonic flow meters SAW-based sensor for nitrogen dioxide room Al0.67Sc0.33N thin films for mass production of temperature detection piezoelectric MEMS Douwe van Willigen, et al Delft University of Technology Chen Fu, et al Andrea Mazzalai, et al Shenzhen University Evatec AG P2-C8-5 Viscosity Dependence of Harmonics P2-C10-4 Towards an AlScN-based P2-C12-2 Study of Cr5Si3 Electrodes on and Ultra-harmonics of Acoustic Cavitation packageless acoustic wave sensor with RFID Langasite Surface Acoustic Wave Resonators Noise capabilities, for applications above 350°C. for High Temperature Sensing

Takanobu Kuroyama, et al Pascal Nicolay, et al Jérémy Streque, et al National Institute of Technology, Gifu College CTR AG Université de Lorraine, CNRS

P2-C8-6 Acoustic field characterisation of an P2-C10-5 Development of surface acoustic P2-C12-3 Evaluation of Piezoelectric ultrasonic phased array for a novel flow sensor wave magnetic field sensor incorporating with Ta2O5 Thin Films Using Line-Focus-Beam using an optical microphone. FeCo dot array Ultrasonic Material Characterization System

Reinhard Klambauer, et al Yana Jia, et al Ryota Suenaga, et al Graz University of Technology Institute of Acoustics,Chinese Academy of University of Yamanashi Sciences

Session P2-C9. P2-C10-6 Pd-Cu nanowires coated SAW sensor P2-C12-4 The influence of negative ions SAW Device & Application II for fast Hydrogen gas sensing generation on the arc-melted and hot press sintered ScAl alloy targets to the crystalline orientation and kt2 of the ScAlN films Chair: Shogo Inoue Wen Wang, et al Qorvo, Inc. Institute of Acoustics, Chinese Academy of Sciences Yuka Endo, et al Waseda University

P2-C9-1 Programmable Low Loss Orthogonal Session P2-C11. Frequency Coded SAW Correlator Filters MEMS & Application II

Marshall Smith, et al Chair: Jan Kuypers University of Central Florida Blickfeld GmbH

P2-C9-2 Surface acoustic wave velocity P2-C11-1 Micromachined Aluminum Scandium anomaly in thin piezoelectric film detected by Nitride Lamb Wave Resonators Utilizing Low Picosecond Acoustics: application to extraction Order Symmetric Modes of piezoelectric coefficients Fazel Parsapour, et al Arnaud DEVOS, et al EPFL IEMN CNRS

P2-C9-3 SH-type Spurious Response Free TC- P2-C11-2 ACTIVE AND INACTIVE FRAMES SAW Resonators Using Low Acoustic Velocity IMPROVE FIGURE OF MERIT OF TWO Rayleigh SAW on LiNbO3 Substrate DIMENSIONAL MODE RESONATORS

Masakazu Mimura, et al Jeronimo Segovia-Fernandez, et al Murata Manufacturing Co., Ltd. Texas Instruments Kilby Labs

THURSDAY POSTER Author Index

A Apotheker, Adi ...... 4I-3 Barauskas, Dovydas ...... P1-A13-8 Arabul, Mustafa Umit ...... 2D-4 Barber, Quinn M. .. 2C-1, P1-B2-1, P2-A5-2, P2- Aakhus, Svend ...... 4F-5 Arakawa, Mototaka . P1-A10-6, P1-B7-1, P1-B7- B5-9 Aalen, John ...... P1-B7-3 4, P2-B10-3, P2-C12-3 Bardong, Jochen ...... P2-B12-1, P2-B12-8 Aase, Sveinarne ...... 1A-3 Arbeille, Philippe ...... 6A-1 Baresch, Diego ...... 5D-3 Abbasi, Aavish ...... P2-A5-3 Archibald, Richard ...... 2C-2 Barkmann, Reinhard ...... 2E-5 Abdelmejeed, Mamdouh ...... 6F-3, 6F-4 Arditi, Marcel ...... 3I-5, 8J-2, P2-B8-5 Baron, Thomas ...... P2-C10-2 Abe, Haruhiko ...... 1B-2 Arezza, Nico ...... P1-A3-4 Barrere, Victor ...... 8A-1 Abe, Tamami ...... P1-C10-2 Aristizabal, Sara ...... 6I-1, P1-B5-1 Barry, Brendan ...... P2-C1-7 Abedi, Mohamad ...... 1D-3 Arkan, Evren ...... P1-A13-9 Bartholmai, Brian ...... P1-C5-4 Abenojar, Eric C...... P1-A3-8 Arnal, Bastien ...... 4K-2 Bartoli, Florian . 5A-5, 6K-1, P2-A11-1, P2-C12- Able, Sarah ...... P1-C11-3 Arnold, Walter ...... 5I-5, P1-B13-7 2 Aboagye, Eric O...... 2K-3, 2K-5, 3B-1 Arregui, Guillermo ...... 7H-2 Bar-Zion, Avinoam ...... 1D-3 Abou-Elkacem, Lotfi ...... 2K-1, 3B-2 Arroyo, Junior ...... P1-B9-8 Basarab, Adrian ...... P1-A7-3, P1-A8-4, P1-C7-7 Abundo, Paulene ...... 5D-3 Arthuis, Chloé ...... P1-A4-7, P1-B6-7 Basij, Maryam ...... 2F-5, 6I-3, P2-A2-2 Achim, Alin ...... P1-A8-4 Arvanitis, Costas ...... 4B-5, P2-A3-5 Basilion, James ...... 1E-4 Adachi, Kanta ...... 7K-6 Asada, Shota ...... P2-C2-8 Basset, Nancy ...... 2B-4 Adam, Dan ...... P2-B4-4 Asakawa, Shiori ...... P2-A11-3 Basset, Olivier 3E-1, P1-A9-6, P1-A9-7, P1-C2- Adams, Christopher ...... 8G-6 Asakawa, Taku ...... P1-B13-1 6, P2-B9-1 Adamson, Rob ...... P1-C2-1 Asami, Rei...... P2-B5-4 Bastard, Cécile ...... P1-A5-1 Addouche, Mahmoud ...... P2-B2-5 Ashi, Khalid ...... P2-B7-1 Baud, Olivier ...... 4F-6, 4K-2 Adelegan, Oluwafemi ...... 8C-3, 8F-5 Åslund, Andreas ...... 4C-3 Baum, Mario ...... P2-C11-4 Adhikari, Jayesh ...... 8E-1, P1-SPC-18 Assaad, Jamal ...... P2-C1-2 Baumann, Michael ...... P2-B6-4 Afzal, Muhammad Shakeel ...... P2-A9-9 Atwell, Thomas ...... 6I-1 Bavencoffe, Maxime ...... P2-A7-4 Agano, Toshitaka...... 2C-5 Au, Jason ...... 3B-4, 4F-3, 4G-4 Bawiec, Christopher ...... 8A-6 Agarwal, Anup ...... 4E-4 Aubert, Sebastien ...... P2-B2-5 Beard, Paul ...... 2D-2, 6A-4, 6A-5, P2-A6-1 Aglyamov, Salavat ...... 1H-4 Aubert, Thierry 5A-5, 6K-1, P2-A11-1, P2-C10- Beekers, Ines ...... 1D-5, 4C-2 Ahmed, Rifat ...... 4E-2, 4E-3, 7B-6 4, P2-C12-2 Beeley, James ...... P2-B8-10 Ahn, Hyosang ...... 2F-6 Aubry, Alexandre...... 3D-5 Beers, Christopher ...... P1-A12-1, P1-A12-5 Ahopelto, Jouni ...... P2-A13-3 Auchere, Jean-Christophe ...... 6D-6 Beguin, Estelle ...... P1-C11-3 Aigner, Robert ...... P2-A10-1, P2-B13-4 Auclair, Philippe ...... 6A-1 Bell, Muyinatu ...... 1J-4, 4H-1, P2-A6-4 Aizawa, Kunihiko ...... 3A-1 Audiere, Stephane ...... P1-A13-3 Bellinger, Dwight ...... 4E-6 Ajima, Daisuke ...... P2-C9-3 Audigier, Chloe ...... P1-A11-8 Bellutti, Pierluigi ...... 8G-3 Akkerman, Hylke ...... 6B-1 Aurup, Christian ...... 2H-6 Belohlavek, Marek ...... 1F-4, 3B-6 Akkerman, Remko ...... 6C-4 Austeng, Andreas ...... 3E-2, P1-C3-2, P1-C8-1 Belt, Harm ...... P1-A9-1 Akstaller, Wolfgang ...... P2-A10-5 Auvin, Stephane ...... 4F-6 Benane, Yanis Mehdi .. 3E-1, 4J-1, P1-A9-6, P1- Alabi, Daniel ...... P2-C7-3 Avdal, Jørgen ..... 1C-2, 4F-5, P2-A4-1, P2-B9-8, A9-7, P1-C8-7 Aldiabat, Hasan ...... 7G-4 P2-C3-3 Benchabane, Sarah ...... 7H-3, P2-B2-5 Alessandrini, Martino ...... P1-A6-1 Averkiou, Michalakis ...... P1-C3-3 Benchemoul, Maxime ...... 5J-4 Alexiou, Christoph ...... P1-A5-7 Awan, Aoun-Amin ...... P2-B13-1 Bendjador, Hanna ...... 3D-2, 4J-4 Alhousseini, Ali ...... 6I-3 Azeroual, Raphael ...... 4I-3 Benini, Luca ...... P2-B8-2 Ali, Awaz ...... P2-B8-9 Azuma, Takashi ... P1-A2-11, P1-A2-9, P1-B3-1, Benjeddou, Ayech ...... P2-B13-1 Ali, Rehman ...... 1K-2, 3D-4, 3H-1 P1-C7-10 Bera, Deep ...... 1 K - 3 Alison, Marianne ...... 4F-6 Béra, Jean-Christophe ...... 1K-5 Alizad, Azra ...... 3B-6, 4K-5, P1-C2-5, P1-C2-7 Bera, Tushar ...... 1G-1, P1-B8-1 Allard, Louise ...... P1-A10-4 B Berg, Sigrid ...... 4 C - 3 Alles, Erwin .... 2D-2, 5J-3, 6A-4, 6A-5, P2-A6-2 Baac, Hyoung Won ...... P1-A10-8, P2-A5-3 Bergmann, Alexander ...... P2-C8-6 Allman, Derek ...... P2-A6-4 Bachasson, Damien ...... 1A-6 Bergmans, Jan ...... 3B-5 Almohimeed, Ibrahim ...... P1-C9-7 Bachawal, Sunitha ...... 2J-3 Berkhoff, Arthur ...... 6B-1 Alquier, Daniel ...... P1-A13-2, P1-A13-3 Badano, Luigi ...... 3H-5 Berkovich, Eyak ...... P1-C7-3 Al-Rawhani, Mohammed ...... P2-B8-10 Badescu, Emilia . 3D-6, 3E-1, 4J-1, P1-C2-6, P2- Bernal, Miguel ...... 4F-6, 7C-3 Alsac, Jean-Marc ...... 3A-6 A4-4 Bernard, Adeline ...... P1-A9-7 Alshahrani, Suhail ...... 2F-5, P2-A5-4 Bae, Sua ...... 1H-3, P1-C3-1 Bernard, Florent ...... 6J-4 Altman, Michael ...... 4A-5 Baek, Jihye ...... P2-B9-4 Bernard, Olivier ..... 3H-2, P1-B2-2, P1-C7-1, P1- Alù, Andrea ...... 7K-4, P1-SPC-12 Baeza, Jose ...... P1-C7-8 C7-4 Alvarez, Alexander ...... 1G-1, P1-B8-2 Bagolini, Alvise ...... 8G-3 Bernard, Simon ...... 1H-5 Alves, Natasha ...... 8D-1, P1-SPC-16 Bai, Chen ...... 3D-3, 7E-6 Bernassau, Anne L...... 5D-5, P2-B1-6 Amador, Carolina ...... 6I-1, P1-B5-1 Bai, Wenkun ...... 1D-6, 1E-5 Berndl, Elizabeth ...... 1D-6, P1-C8-6, P2-B7-3 Ambacher, Oliver ...... 6K-3, 8H-5 Bai, Zhiyong ...... 7B-4 Bersvendsen, Jørn ...... P1-B7-3 Ambrogio, Simone ...... P2-A4-4 Baik, Jin Woo ...... 2F-6 Berthon, Beatrice ...... 3J-6, P1-B8-3 Ambrozinski, Lukasz ...... 2E-2, P1-B13-11 Baker, Sam ...... 2J-3 Bertin, Thomas ...... P2-A13-1 Ambroziński, Łukasz ...... 1H-6 Bakhtiari, Sasan ...... P1-B14-5, P2-A8-7 Besson, Adrien ...... 3I-5, 7I-2, 8J-2, P2-B8-5 Aminot, Antoine ...... P1-A5-6 Balasse, Laure ...... 6E-6, P1-B9-1 Bettis, Amanda ...... P1-B6-4 Ammanouil, Rita ...... 8J-5 Balasubramanian, Priya S...... 2I-1 Beurskens, Robert ...... 4C-2, P2-B10-2 Anas, Emran ...... P1-C7-12 Balcerzak, Andrzej...... P2-C1-9 Beuve, Steve ...... 4D-4 Andersen, Kenneth K...... 8A-2 Balé, Antoine ...... P1-C12-7 Bezzam, Eric ...... 7I-2 Andersen, Richard ...... P2-C3-8 Ballandras, Sylvain ...... 5A-5, 6J-4 Bhujwalla, Zaver M...... 2I-3 Andrade, Marco A.B...... 5D-5, P2-B1-6 Bamber, Jeffrey 2K-3, 2K-5, 3B-1, P1-A4-6, P1- Bian, Tianyuan ...... P1-A2-2 Andrén, Erik ...... 6C-3 A7-4 Bielecki, Peter ...... 2 J - 5 Andresson, Roger ...... P2-C4-9 Bandaru, Raja Sekhar ...... P1-B7-5 Binti Jalaluddin, Nur Dalila ...... P1-B9-4 Angelsen, Bjørn ...... 4C-3 Bank, H.T...... P1-C9-8 Biran, Valérie ...... 4F-6 Anthony, Brian ...... P1-A5-2 Bantignies, Claire...... 5J-6, 8K-2, 8K-6, P2-A7-4 Birer, Alain ...... 2I-4 Antich, Cristina ...... P1-C9-6 Banys, Juras ...... 5K-3 Biryukov, Sergey ...... P2-B12-7 Antico, Maria ...... P1-C7-8 Bao, Jingfu .. 5B-5, 5E-4, P1-A12-8, P1-SPC-14, Biswas, Deblina ...... P1-A10-8 Aoust, Guillaume...... 2E-3 P2-B11-3 Bjørkøy, Astrid ...... 4C-3 Aoyagi, Takahiro ...... P2-A9-11 Baranger, Jerome ...... 4F-6, 4K-2 Blackledge, Matthew ...... P1-A7-4 Apostolakis, Iason Zacharias ...... 7C-4, P1-B7-8 Blank, Celine ...... 7A-2, P1-A7-10 Büttner, Lars ...... 6D-1, P1-SPC-8 Chee, Adrian J. Y. 1C-1, 3A-4, 3B-4, 3F-6, 4F-3, Bleyl, Ingo ...... 5B-4, 5E-5, P2-A10-3, P2-A10-4 Byra, Michał ...... P1-A9-2 7C-5 Blondeau-Patissier, Virginie ...... P2-C10-2 Byram, Brett ... 1J-1, 3E-3, 4H-4, 4K-1, P1-C5-3, Chehami, Lynda ...... P1-A12-4, P2-C1-2 Bo, Tang ...... P2-C7-8 P2-B5-2, P2-B9-9 Chen, Bangtao 5A-2, 5F-4, P2-C11-5, P2-C11-6 Bochud, Nicolas ...... P1-C9-2 Byun, Kyung Hee ...... 2F-6 Chen, Bin ...... P2-B7-4 Bocoum, Maïmouna ...... 2C-3 Chen, Chuan ...... P1-C6-1 Boctor, Emad M. .. 2F-1, 2I-3, P1-A11-8, P1-C7- Chen, Guofeng ...... 5F-6, 6H-3, P1-SPC-13 12, P2-B6-4 C Chen, Hong ...... 2H-3, 2J-2, 4A-1, 4A-5 Bodera, Filip ...... 2 B - 6 Cabrelli, Luciana C...... 7C-6 Chen, Hong-Sheng ...... P2-A5-6 Bodnarova, Lucie ...... P2-C7-4 Cabrera-Munoz, Nestor ...... 8E-1, P1-SPC-18 Chen, Jia-Chu ...... 2K-6 Boehm, Christian ...... 7I-3 Cachard, Christian 1K-5, 3E-1, P1-A9-6, P1-A9- Chen, John ...... P1-B6-3, P2-B5-6 Boele , Henk-Jan ...... 4J-5 7, P2-B10-10 Chen, Juan ...... 2B-4, 4B-2 Boiteux, Pierre ...... P2-A13-5 Caenen, Annette ...... 1A-1, P1-A6-2 Chen, Lei ...... P1-A13-7 Bok, Tae-Hoon ...... 2D-5 Cai, Feiyan 6G-5, P1-A13-6, P1-A3-2, P2-B1-7, Chen, Long-Qing ...... 8H-1 Bolstad, Per Kristian ...... P2-B10-9 P2-B1-8 Chen, Mian ...... P2-B1-1, P2-C8-3 Bommena, Ramanarao ...... P1-B12-2 Cai, Ping ...... 4C-6, P1-B3-7 Chen, Min ...... P1-A3-6, P1-A8-3 Bonello, Bernard ...... 7H-4, 7H-5, P2-B2-1 Cain, Charles ...... P1-A11-1, P1-A11-2 Chen, Oscal Tzyh-Chiang ...... P1-C7-9 Boni, Enrico 7D-4, 8E-2, 8G-3, 8K-3, P1-A13-1, Calabrese, Giacomo ...... P2-C5-1 Chen, Pei-Jer ...... 6H-6 P2-B4-3, P2-C4-2 Calderon Agudo, Oscar ...... 7D-2, 7E-2, 7E-5 Chen, Qian ...... P1-C9-9 Borden, Mark ...... P1-C4-5 Caliano, Giosuè ...... 8G-3, P1-A13-1, P2-A7-3 Chen, Qiang ...... P1-C12-4 Borgmann, Anthony ...... 4K-1 Callaghan, Neal ...... 5G-2 Chen, Ruimin . 8D-5, 8D-6, 8E-1, P1-B12-3, P1- Borisch, Eric ...... 1F-3 Callan, John ...... P1-C11-3 C12-1, P1-SPC-18 Borodina, Irina ...... P2-A9-2, P2-A9-6, P2-B3-1 Callé, Samuel 4D-4, P1-B6-7, P1-B6-8, P2-C1-1 Chen, Shigao . 1F-3, 2K-2, 3F-2, 3G-5, 4E-5, 4J- Bos, Thomas ...... 6F-2 Calzolai, Marco ...... P2-C5-3 6, 4K-4, 7A-5 Bosch, Johan G. 3J-2, 4F-2, 4I-1, 4I-2, 4J-5, 8G- Camps, Saskia ...... P1-C7-8 Chen, Shuting ...... 8I-4 5, P1-B7-5, P1-C2-4, P1-C6-3, P2-B10- Camus, Julien ...... 5A-5 Chen, Siping ..... P1-B11-6, P1-B12-6, P2-B10-1, 6, P2-B8-9, P2-B9-6 Cao, Fei ...... P2-B6-3 P2-B1-1 Bose, Rajendran J. C...... 2J-3 Cao, Hui ...... P1-B13-5, P1-B13-6 Chen, Weicen ...... P1-C12-6 Botteicher, Von F...... 7D-5 Cao, Kaihua...... P2-A9-5 Chen, Xiaoyu ...... P1-C9-9 Bottenus, Nick . 1K-1, 1K-2, 3E-6, 7D-6, P1-A6- Cao, Xiaodong ...... 8D-5, 8D-6 Chen, Xin...... P1-B11-6, P2-B1-1 2, P1-A7-1, P2-A3-10 Cao, Zongliang ...... 5C-3 Chen, Yinran ...... 4I-6, P2-B4-5 Bou Matar, Olivier ...... P2-B12-4 Capineri, Lorenzo ...... P2-C5-1, P2-C5-3 Chen, Zeyu ...... P1-C12-5 Bouakaz, Ayache . 2J-6, 7G-2, P1-A4-7, P1-B11- Capuj, Nestor E...... 7H-2 Chen, Zhao ...... 8G-5, P2-B10-6 3, P1-B3-6, P1-B6-7 Carcreff, Ewen ...... 6F-5 Chen, Zhen ...... P2-B7-1 Bouchard, Richard ...... 3C-6 Carlson, Johan E...... 6C-3, P1-B14-2 Chen, Zhuwen ...... P1-C11-2 Bouchoux, Guillaume ...... 8A-6 Carmichael, Chris ...... 5B-1 Cheng, Alexis ...... P1-C7-12 Boulme, Audren ...... 8C-5 Carneiro, Gustavo ...... P1-C7-8 Cheng, Christopher ...... 8F-3 Bourguignon, Sébastien ...... 6F-5 Carpenter, Thomas . 4G-6, 8E-3, 8G-4, 8G-6, P1- Cheng, Galen ...... 2H-3 Bousquet, Marie ...... 6J-4 C4-3, P1-SPC-5 Cheng, Lina ...... P2-A9-12 Bradway, David ...... 7D-6, P1-B2-2 Carpentier, Alexandre ...... 2I-4, 2I-5 Cheng, Lun ...... P2-A9-4 Braga, Marta ...... 2K-3, 2K-5, 3B-1 Carrascal, Carolina...... P1-A5-2 Cheng, Mouwen ...... P1-B3-3 Brayman, Andrew ...... P1-B4-6 Cassella, Cristian 5F-6, 6H-3, 7K-4, P1-SPC-12, Cheng, Qian ...... 7D-1, P1-A9-4 Breedveld, Paul ...... P2-B8-9 P1-SPC-13, P2-C11-2 Cherin, Emmanuel ...... 8D-1, 8I-3, P1-SPC-16 Brekke, Pål ...... P1-B7-3 Cassereau, Didier ...... P1-A5-1 Chester, Daniel ...... P1-C11-8 Brekke, Svein ...... P1-B13-4 Castaneda, Benjamin ...... P1-B9-8 Chetverikova, Kseniya ...... P2-C3-5 Brem, Henry ...... P2-C4-4 Castañeda, Laura ...... P1-B10-3 Chiang, Pei-Hua ...... 1D-4 Brenner, Kevin ...... 8C-2 Catheline, Stefan ...... 1H-5, 1I-1, 1I-5 Chiang, Yu-Jung...... P1-C11-1 Bressand, Diane ...... 2J-6 Cattin , Philippe ...... 6C-2 Chiba, Ko...... P1-C9-5 Brickson, Leandra ...... 1J-2, 1J-3, 2K-1 Caughey, Melissa ...... 4E-6, P1-B6-4 Chin, Chien Ting ...... P2-B1-1 Bridal, Lori ...... P1-B10-2, P1-B10-7 Ceroici, Chris ...... 8C-4, 8E-4, P2-A5-2 Chinchilla, Lenin ...... P1-A10-1 Bring, Martin ...... P1-C12-2 Certon, Dominique... 8C-5, P1-A13-2, P1-A13-3 Chiril, Patricia ...... P1-C7-7 Brodin, Camille ...... P2-C3-1 Chaggares, Chris ...... 8I-3 Chitale, Kedar ...... 5D-4 Brown, Ashley ...... P1-C11-8 Chakraborty, Bidisha .. 1A-2, 3J-4, 4H-3, P1-A6- Chiu, Victoria ...... 8E-1, P1-SPC-18 Brown, Daniel ...... 4H-4, 4K-1 1, P1-A6-3 Chizhikov, Alexander ...... 2G-3 Brown, Jemma . 3B-3, 3C-1, 3G-3, 7D-4, P1-A7- Chambon, Hugo P2-B12-8, P2-B13-1, P2-C10-4, Choi, Hae Young ...... 2F-6 8, P1-C4-1, P1-C4-2, P1-C4-4, P1-C4-6 P2-C11-1 Choi, James J...... 2H-4 Brown, Jeremy .. 8A-4, 8E-4, 8K-5, P1-C2-1, P2- Chan, Derek Y...... 4D-2, 4D-3, P1-SPC-6 Choi, Kyusun ...... 8F-3 A5-2 Chan, Hsiao ...... P1-A2-7 Choi, Min...... P2-B5-9 Brown, Michael ...... 7J-1 Chan, Tiffany G...... 2H-4 Choi, Pak-Kon ...... P2-C1-4 Browning, Richard ...... P1-C11-3 Chandra, Anu ...... P1-A8-2 Choi, Sang Won ...... P1-A11-1 Bruce, Matthew ...... 3F-1, 4B-1 Chandramoorthi, Sowmiya ...... P2-A2-5 Choi, Woosuk ...... P1-C7-6 Bruckner, Gudrun ...... P2-B12-1 Chandrasekaran, Sandhya ...... P1-A7-7, P1-B6-1 Choi, Youngsoo ...... P2-C5-2 Bruneval, Patrick ...... P1-A11-4 Chang, Chienliu ...... 8C-2 Chommeloux, Luc ...... P2-B2-5 Buan Fei, Chan ...... P2-B13-3 Chang, Chien-Wen ...... P1-B11-5 Chopin, Nicolas ...... 8A-1 Budziszewski, Emily ...... 2J-5 Chang, Chih-Chi ...... P1-C7-9 Christensen-Jeffries, Kirsten .. 3B-3, 3C-1, 3G-3, Bujoreanu, Denis .. 3E-1, P1-A9-6, P1-A9-7, P1- Chang, Jin Ho ...... 8D-2, 8I-2 7D-4, P1-A7-8, P1-C4-1, P1-C4-2, P1- C8-7 Chang, Wei-Ting ...... P1-A10-3 C4-4, P1-C4-6 Bulletti, Andrea ...... P2-C5-3 Chang, Zu Yao ...... 8G-1, 8G-5, P1-SPC-17 Christoph, Tim ...... 6K-3 Bulner, Sharshi ...... 4C-1 Chao, Pei-Yu ...... 1I-3 Christopoulos, Vasileios ...... P2-C3-8 Burgess, Mark ...... 1G-2, 7G-6 Chapelon, Jean-Yves ...... 2I-4, 2I-5, 2I-6, 8A-6 Chu, Chewei ...... 6I-6 Burken, Gerard Van ...... P1-B7-5 Chappard, Christine ...... 5G-1 Chu, Hongzuo ...... P1-A9-4 Burmeister, Jacob ...... 2F-5 Chaput, Didier ...... 6A-1 Chu, Shu-Wei ...... 4A-6 Burns, Peter N...... 3A-2, 4B-1 Chartier, Caroline...... P1-C5-1, P1-C5-2 Chua, Geng Li 5A-2, 5F-4, P2-C11-5, P2-C11-6 Burton, Alex ...... P1-B8-1 Chau, Gustavo ...... 4K-6 Chuang, Yi-Hsiang ...... P2-B8-1 Burton, Timothy ...... 2F-5 Chauhan, Vikrant P2-A10-3, P2-A10-4, P2-A12- Chuma, Joseph ...... P2-B10-10 Bush, Nigel L...... 2K-3, 2K-5, 3B-1, 8A-2 5 Chung, Euisuk ...... P1-A11-10 Buskens, Pascal ...... 5H-4 Chavez, Imelda ...... 6E-4 Cinthio, Magnus ...... 2D-3, 7C-6, P2-C4-9 Butaud, Éric ...... 6J-4 Chavrier, Françoise ...... P1-A2-9 Cirocco, Maria ...... 2B-4 Butler, Fidelma ...... P2-C1-7 Chayer, Boris ...... 7C-1, P1-A10-4 Claessens, Tom ...... 4F-2 Claus, Piet ...... 3K-3 De Leon, Al ...... 1E-3, 1E-4, P1-A3-8 Drake, James ...... P2-C4-7 Cleary, Rebecca ...... P2-B8-8 De Menezes, Cahil ...... P1-C4-2 Dres, Martin ...... 1A-6 Clement, Marta . 5C-5, P2-A12-2, P2-B13-5, P2- De Oude , Nina ...... 4J-5 Driad, Rachid ...... 6K-3 B14-2 De Raad, Dino ...... P1-B4-6 Drinkwater, Bruce W...... 5D-2, P1-SPC-11 Cloutier, Guy 1H-5, 4K-3, 6I-5, 7C-1, P1-A10-4 De Rosny, Julien ...... P2-C1-2 Drouin, Alexis ...... 6J-4 Clutton, Eddie ...... 6A-2, 8G-2, P2-B8-10 De Ruijter, Joerik ...... 3H-6 Du, Dongdong ...... P2-C6-3 Cobus, Laura ...... 3D-5 De Vries, I. Jolanda M...... 2B-2 Du, Huarui ...... P1-C7-5 Cochran, Sandy .... 6A-2, 7F-1, 7J-3, 8F-3, 8G-2, De Wit, Jos ...... 1K-3 Du, Jianke ...... P2-A11-5 8H-4, P1-C13-4, P1-C13-5, P2-B8-10, De With, Peter ...... P1-A9-3, P1-C7-8 Du, Juan ...... 8J-4 P2-C1-3 De Zeeuw, Chris ...... 4J-5, P2-B9-6 Du, Xuan ...... P1-A11-5 Cohen, Alan ...... P2-C4-4 Dean, Christopher ...... P1-C14-6 Du, Yigang ...... 1F-2, P2-B9-7 Cohen, Emmanuel ...... 1A-5 Debieu, Eric ...... 6E-6 Du, Yiheng ...... P1-A13-6 Cohen, Naama ...... P1-C7-3 Deffieux, Thomas 3D-2, 3G-4, 4F-1, 7E-1, 7E-4, Duchenne, Jürgen ...... 3K-3 Cohen, Regev . 4I-3, P1-B4-7, P1-C7-3, P2-B9-3 8I-5, P1-SPC-4, P2-C3-1, P2-C3-8 Duclos, Aroune ...... 6F-5 Cohen-Solal, Martine ...... 5G-1 Degertekin, F. Levent 8E-3, 8F-4, P1-A13-9, P1- Dufait, Rémi ...... 6A-1 Coila, Andres ...... P1-B10-6, P1-B9-8 B12-7, P1-SPC-5 Dufilié, Pierre ...... P2-B12-8 Colchester, Richard .... 2D-2, 6A-5, P2-A6-1, P2- Degtiarova, Ganna ...... 3K-3 Dufour, Isabelle ...... P1-A13-2 A6-2 Dehaene, Win ...... 6F-2 Duivenvoorde, Tom ...... 2E-6 Colin, Laurent ...... P1-A13-2, P1-A13-3 Dei, Kazuyuki ...... 3E-3, 4H-4 Dujardin, Paul-Armand ...... P1-A4-7 Collado, Carlos . P2-A10-1, P2-B13-2, P2-B13-4 Dekker, James ...... P2-A12-4 Dumani, Diego ...... P1-C11-7, P2-A2-1 Colombano, Martin F...... 7H-2 Del Galdo, Giovanni ...... 5K-6 Dumesnil, Karine ...... P2-B12-4 Colombo, Luca ...... 5F-2 Del Giudice, Costantino ...... P1-A11-4 Dumitru, Viorel ...... P2-C10-1 Columb, Malachy ...... P1-A8-2 Delachartre, Philippe ...... 7E-3 Dumont, Erik ...... P1-A11-6 Cooley, Michaela...... 1E-3 Delanoe, Catherine...... 4F-6 Dumoux, Marie-Coline 8I-5, 8K-6, P1-B6-8, P2- Copping, Matthew J...... 2H-4 Demené, Charlie .. 3G-1, 3G-4, 4F-6, 4J-4, 4K-2, C1-1 Corbett, Richard ...... P2-A3-3 P2-C3-8 Duncan, James S...... 1I-4 Corominas, Francesc ...... 6D-3 Demi, Libertario ...... P2-B4-3 Duncan, Neill ...... P2-A3-3 Correia, Mafalda ...... 4F-6, 7E-4 Demiguel-Ramos, Mario ...... 5C-5 Dunn, Gavin P...... 2H-3 Cote, Jean-Marc ...... 7H-3 Demirors, Emrecan ...... 6H-3, P1-SPC-13 Dunnhofer, Matteo ...... P1-C7-8 Courjon, Émilie ...... 6J-4 Demore, Christine ...... 2B-4, 8I-3, P1-A8-2 Dunsby, Chris .. 3B-3, 3C-1, 3G-3, 7D-4, P1-A7- Courtney, Brian ...... 8D-1, P1-SPC-16 Den Bok, Henry ...... P1-A5-5 8, P1-C4-1, P1-C4-2, P1-C4-4, P1-C4-6 Couture, Olivier ...... 3G-1, 3G-2, P2-C3-1 Dénarié, Bastien ...... P1-C8-1 Dupuy, Clément ...... 2C-3 Cowell, David ..... 2B-1, 3K-2, 4G-6, 8E-3, 8G-4, Dencks, Stefanie ...... 3F-4, P2-C3-6 Duquesnoy, Maxime ...... 2E-3 8G-6, P1-C4-3, P1-SPC-5 Deng, Guanjun ...... P2-B6-2 Durot, Isabelle ...... 2K-4, 4J-3, P1-C10-3 Cowen, Stephen ...... 1G-1, P1-B8-1 Deng, Kai ...... P2-B7-4 Dziewierz, Jerzy ...... P1-B13-2, P1-C13-4 Cox, Ben ...... 7I-5, 7J-1, 7J-2, P2-A2-3 Deng, Qingsong ...... P2-C6-3 Cox, Benjamin ...... 6A-2, 7F-1, 8G-2 Denis De Senneville, Baudouin ...... P1-A4-7 Cox, Karina ...... 3G-3 Deruiter, Ryan ...... P2-B5-5 E Crake, Calum ...... P2-A3-5 Desjardins, Adrien . 2C-5, 2D-2, 5J-3, 6A-4, 6A- Ebbini, Emad ...... 7G-4, P1-A4-4, P1-A7-6 Croisille, Pierre ...... 2I-6 5, P2-A6-1, P2-A6-2 Ebihara, Tadashi ...... P2-A8-3 Çubukçu, Arzu ...... 4G-6 Desmulliez, Marc P.Y...... 5D-5, 6A-2, 8G-2, P2- Ebner, Thomas ...... 5B-3, P2-A10-3, P2-A10-4 Cueto, Carlos ...... 7E-2 B1-6, P2-B8-10 Eckersley, Robert .. 3A-3, 3B-3, 3C-1, 3G-3, 6A- Cui, Zhiwei ...... P1-B11-3, P1-B4-4 Destrempes, François ...... 6I-5, 7C-1 3, 7D-4, P1-A7-8, P1-C4-1, P1-C4-2, P1- Cumming, David ...... P2-B8-10 Devkota, Jagannath ...... 6G-3 C4-4, P1-C4-6, P2-A3-3 Cummins, Gerard ...... 6A-2, 8G-2, P2-B8-10 Devos, Arnaud ...... P2-C9-2 Edstrand, Adam ...... 6G-4 Cunitz, Bryan ...... 4B-1 D'Hooge, Jan 1A-2, 3E-2, 3H-5, 3I-2, 3J-1, 3J-4, Edvardsen, Thor ...... P1-B7-3 Curtis, Andrew ...... P2-C7-6 3K-3, 4H-3, 4I-4, 4I-5, 6F-2, 8J-1, P1- Edwards, Christopher ...... P1-C7-8 Czarnota, Gregory ...... 4A-4, 6E-2, 6E-3 A6-1, P1-A6-3, P1-B7-2, P1-C7-11, P2- Eggen, Trym ...... 8F-1, P2-C4-10 Czarske, Jürgen ...... 6D-1, 6D-4, P1-SPC-8 B4-1, P2-B4-2, P2-B4-3, P2-B4-4 Egolf, David ...... 2C-1, P2-B4-6 Czernuszewicz, Tomasz ...... 7B-5 Di Bartolomeo, Lindsey ...... 7F-5 El Kaffas, Ahme ...... 2K-6 Di Ianni, Tommaso ...... 2J-3 El Kaffas, Ahmed ...... 2K-4, 4A-4, P1-C10-3 Diabat, Hasan ...... P1-A7-6 El Naqa, Issam ...... 1G-4 D Diamantis, Konstantinos ...... 7J-5 Eldar, Yonina 3F-1, 3F-5, 4I-3, P1-B4-7, P1-C7- Da Costa Filho, Carlos ...... P2-C7-6 Dianis, Scott ...... 4E-4 3, P2-B9-3 Da Silva, Claire ...... 2I-6 Diarra, Bakary ...... P2-B10-10 Elie-Caille, Céline ...... P2-A13-5 Da, Teng ...... 2E-4 Dickinson, Robert ...... 8A-5 Ellens, Nicholas ...... P1-A11-8 Daeichin, Verya ...... 8E-2, 8K-3, P2-B10-2 Diederichsen, Søren Elmin P1-A12-1, P1-A13-4 Ellestad, Sarah ...... 7D-6 Dahl, Jeremy 1J-2, 1J-3, 1K-2, 2J-3, 2K-1, 3B-2, Dietrichson, Fabian ...... 3I-6 Elmazria, Omar 5A-5, 6K-1, P2-A11-1, P2-B12- 3D-4, 3H-1, 4J-3, 4K-6, 8D-3 Dimaria-Ghalili, Rose Ann ...... P1-C13-3 4, P2-C12-2 Dahlstrand, Ulf ...... 2D-3 Dinescu, Adrian ...... P2-C10-1 Elmore, Joshua ...... P2-B6-4 Dai, Zhifei. P1-A3-6, P1-A3-7, P1-A8-3, P1-C4- Ding, Anli ...... 6K-3 Emelianov, Stanislav ..... 2A-1, 2B-3, 2F-2, 3C-3, 7 Ding, Lili ...... 4B-2 P1-B4-1, P1-C11-7, P1-SPC-3, P2-A2-1, Daigle, Ron ...... 1F-3, 3F-2 Dixon, Adam J...... 7D-5, P1-C8-4, P2-B6-1 P2-C4-3 Dallai, Alessandro ...... P2-C4-2 Dixon, Steve ...... P2-C8-2 Endo, Yuka ...... P2-C12-4 Daoudi, Khalid ...... 2B-2 Dizeux, Alexandre ...... P1-B10-7 Engholm, Mathias ...... P1-A12-1, P1-A12-5, P1- Das, Susobhan ...... 1H-4 Djafari-Rouhani, Bahram ...... 7H-4, 7H-5 A13-5, P2-B10-4 Dauson, Erin ...... 5H-6 Djouadi, Mohamed-Abdou ...... 5A-5 Ergun, Arif Sanli ...... 8C-2 Davaji, Benyamin ...... 5A-1, 6K-2 Djoumi, Lyes ...... P2-C10-2 Erlöv, Tobias ...... 2D-3 Davis, Mandy ...... P2-B7-5 Do, Minh ...... P1-B10-1, P1-C10-1 Ermert, Helmut ...... P1-A5-7, P1-C11-4 Dayton, Paul ...... 8C-3, 8I-3, P2-B5-5 Dobie, Gordon ...... P2-C5-5 Ersepke, Thomas ...... 1G-5, P1-B8-6 De Blécourt, Anne ...... 2G-5 Dobrovie, Monica ...... 1A-2 Escoffre, Jean-Michel ...... 2J-6, P1-A4-7 De Jong, Nico ...... 1D-5, 1F-5, 1K-3, 4C-2, 4F-2, Dolet, Aneline ...... 8J-5, P2-C4-2 Espeland, Torvald...... 1A-3, 3I-4, 4F-5 8E-2, 8G-5, 8K-3, P1-C2-4, P2-B10-2, Dollfus, Hadrien ...... 6D-6 Espindola, David .. 3G-6, 5G-3, P1-A7-7, P1-B6- P2-B10-6 Dominello, Michael ...... 2F-5 1, P1-B6-2, P2-B5-5 De Jong, Nicolaas .... 3J-2, 6D-2, 8G-1, P1-A5-5, Dong, Hefeng ...... P1-B13-4 Espinosa, Florian ...... P1-C7-4 P1-C6-3, P1-SPC-17, P2-C8-4 Dong, Wei ...... P1-B3-5, P1-B4-3 Estrada, Hector ...... P2-C1-5 De Korte, Chris 2B-2, 3H-4, 3K-1, 7B-3, P1-C6- Donnelly, Eleanor ...... P1-B4-1, P1-C11-7 Ethier, C. Ross ...... 2F-2, P1-SPC-3 1 Doorduin, Jonne ...... 1A-6 Evertsson, Maria...... 7C-6, P2-C4-9 De Lange Davies, Catharina ...... 4C-3 Doyley, Marvin ...... 4E-2, 4E-3, 7B-6 Evoy, Stephane ...... P2-A9-10 Ewart, Lynn ...... 8H-2 Fortuin, David ...... 1F-4 Giling, Erwin ...... 6D-3 Ewertsen, Caroline ...... 4G-5 Foster, F. Stuart ..... 2B-4, 8D-1, 8I-3, P1-SPC-16 Gjedde, Albert ...... P2-B6-4 Exner, Agata ... 1E-3, 1E-4, 2B-6, 2J-5, P1-A3-4, Franceschini, Emilie .. 6E-6, P1-A10-1, P1-B9-1, Glass, Tyler J...... 4 D - 3 P1-A3-8 P1-C10-7 Gnyawali, Vaskar ...... 5G-5 Frank, Astrid ...... P2-A12-5 Go, Dooyoung ...... 4J-2, P2-A3-9 Frattini, Giovanni ...... P2-C5-1 Goavec-Merou, Gwenhaël ...... P2-A13-1 F Freear, Steven .... 2B-1, 3K-2, 4G-6, 8E-3, 8G-4, Goertz, David 1E-2, 4B-2, 4C-1, 7F-5, 8D-1, P1- Fabiilli, Mario L...... 3C-4 8G-6, P1-C4-3, P1-SPC-5 SPC-16 Fabrega-Foster, Kelly ...... 4H-5 Frenz, Martin ...... P1-A7-2 Goksenin Yaralioglu, Goksen ...... P2-A9-10 Fadhel, Muhannad N. 2C-6, 2D-5, 2D-6, P2-B7- Frerot, Alice ...... 4F-6 Goldbrunner, Roland ...... P2-C1-5 6 Friboulet, Denis ...... 3D-6, P1-C8-7, P2-A4-4 Golfetto, Cristiana ...... P2-C3-3 Fadnes, Solveig ...... 1A-4, P2-A4-1 Friedman, Zvi ...... P2-B4-4 Gomes Paim, Lia ...... 1H-5 Falaewe, Geoffroy ...... P1-C5-2 Friend, James 5H-1, 5H-2, P1-SPC-7, P2-A11-4, Gomez, Alberto ...... 6A-3 Fallon, Ken ...... 5 C - 6 P2-B12-3 Gomez-Lopez, Nardhy ...... 6I-3 Falomo, Eniola ...... 4H-5 Frijlink, Martijn ...... 8A-2, P2-C7-1 Gong, Ping ...... 2K-2, 4J-6, 4K-4, 7A-5, P2-B6-2 Falou, Omar ...... P1-C8-6 Froemel, Joerg ...... 5F-3 Gong, Songbin ...... 5F-1, 5F-5, 7K-5, P1-SPC-15 Fan, Ching-Hsiang ...... P1-B11-5, P1-B3-2 Fu, Chen ...... P2-C10-3 Gong, Yan ...... P1-B11-1 Fan, Zhenzhen ...... 4C-5 Fujii, Satoshi ...... P2-C9-4 Gonzalez, Eduardo ...... 4H-1, 6E-4 Fang, Haoyu ...... 6B-2, 6B-3 Fujiwara, Yudai ...... P1-C10-2 González-Arbesú, J.M...... P2-B13-2 Fang, Jui ...... P1-C10-5 Fushimi, Tatsuki ...... 5D-2, P1-SPC-11 González-Rodríguez, Marta ...... P2-B13-2 Fanni, Luca ...... 8G-3, P1-A13-1 Fuyutsume, Toshiyuki ...... 6J-3 Gorisse, Marie ...... 6J-4 Farber, Mark ...... 7B-5 Gornik, Heather ...... P1-A10-7 Fatemi, Ali ...... P2-A3-4 Goto, Atsushi ...... P1-A2-5 Fatemi, Mostafa 1F-4, 3B-6, 4K-5, P1-C2-5, P1- G Goto, Nobuo ...... P2-A2-6 C2-7 Gachagan, Anthony 5I-2, 6B-2, 6B-3, P1-B13-2, Gottschalk, Sven...... P2-C1-5 Faurie, Julia ...... 4K-3 P1-C13-4 Goubran, Maged ...... 2K-6 Fedewa, Russell ...... P1-A10-7 Gaiffe, Olivier ...... 7H-3 Goudot, Guillaume . 3A-6, 4F-4, 7B-1, P1-A11-4 Fedorov, Fedor ...... P2-A9-6 Galán Olleros, Guillermo...... P2-B5-1 Goundan, Poorani ...... 6E-1 Feeney, Andrew ...... P2-C8-2 Galeotti, Davide ...... 8K-3 Grace, Anthony ...... P2-B6-4 Fei, Chunlong ...... P1-C12-4 Gallippi, Caterina .... 4D-5, 4E-6, 7B-5, P1-B6-4, Granato, Maurizio ...... P2-C5-1 Fekkes, Stein ...... 7B-3 P1-B8-5 Grand-Perret, Virginie ...... P1-A7-11 Fekrazad, M. Houman ...... 7F-6 Gallos, George ...... 7A-3 Gräsel, Melanie ...... 2E-5 Feld, Dave...... 5C-2, 5C-3 Galloula, Alexandre ...... P1-A11-4 Grasland-Mongrain, Pol ...... 1H-5 Feleppa, Ernest ...... 6E-1 Gambin, Barbara ...... P2-B5-7 Grassi, Lorenzo ...... 7C-6 Felmetsger, Valeriy ...... 5C-5, P2-B14-2 Gamo, Nao ...... P2-C4-4 Greaves, Danielle ...... 4G-4 Felt, Stephen A...... 2J-3 Gandikota, Girish ...... 2F-3 Grebenko, Artem ...... P2-A9-6 Feltovich, Helen ...... 7A-3 Gangeh, Mehrdad...... 6E-2 Greenlay, Benjamin ...... 8E-4 Feng, Kairui ...... P1-A11-7, P1-C13-2, P1-C5-5 Gao, Anming ...... 7K-5 Greenleaf, James ...... 4E-5 Feng, Shaotong ...... P1-C14-4 Gao, Chuang ...... P1-A3-7 Gregoire, Jean Marc ...... P1-A13-3 Feng, Xiaohua ...... P2-A2-4 Gao, Chuanhai ...... P1-A12-6, P2-C11-3 Greillier, Paul ...... 1I-1 Feng, Yi ...... P1-B3-5, P1-B3-6 Gao, Fei ...... P2-B7-4 Grendstad, Kristin ...... 4C-3 Fenner, John ...... P2-A4-4 Gao, Liang...... 1H-6 Grenier, Thomas ...... 8J-5, P1-C7-4 Fenu, Nicola ...... 8H-4, P1-C13-5 Gao, Liuqing ...... 7K-5 Greve, David ...... 5H-6, 6G-3 Fenzi, Neal ...... 5E-2 Garan, Hasan ...... 3K-4 Griffin, Benjamin ...... 6G-4 Ferin, Guillaume ...... 4F-1, 5J-4, 5J-6, 7E-1, 8I-5, Garcia Fernandez, David ...... 7H-2 Griffon, Jerome ...... P1-B10-2, P1-B10-7 8K-6, P1-SPC-4, P2-A7-4, P2-C1-1 Garcia, Damien ...... 4G-2, 4J-1, 4K-3, P2-A4-4 Grimal, Quentin ...... P1-C9-4 Fernandez, Samantha ...... 6E-6 Garcia-Duitama, Julian ...... P1-A10-4 Griswold, Karl ...... 3C-5 Fernandez, Sylvie ...... 5G-1 Garcia-Pastor, David ...... P2-B13-4 Groenli, Thomas ...... 4G-1, P1-SPC-2, P2-A4-2 Ferng, Jonathan ...... P1-B8-2 Gariépy, Jean ...... 4C-1 Grondin, Julien ...... 3K-6 Ferrara, Katherine ... 8E-1, P1-C12-1, P1-SPC-18 Garofolakis, Anikitos ...... 3J-6 Gross, Dominique ...... 8C-5 Ferrazzano, Elena ...... 8G-2 Garrett, David ...... 6H-5 Grosso, Massimiliano ...... 6D-3 Fichtner, Andreas ...... 7I-3 Gasse, Maxime ...... 1J-5 Groves, Mari ...... P2-C4-4 Figueroa, Erika ...... 7F-6 Gatsios, George ...... P1-C14-6 Grubb, Christopher ...... 3J-3, 3K-4, 3K-6 Filkov, Gleb ...... P2-A9-6 Gavrilov, Leonid ...... 6A-6 Gruest, Maxime ...... 7B-1 Filoux, Erwan ...... 6A-1 Gayet, Maudy ...... 3H-3 Grundman, Evan...... 5C-6 Finel, Victor ...... 1A-5, 3J-5, 4F-4, 7E-4 Ge, Junyi ...... P2-C2-7 Grüner Bjåstad, Tore ...... P2-C7-1 Fink, Mathias ...... 3D-5, P1-A5-6 Geers, Leon ...... 6D-3 Gu, Juanjuan ...... 7I-4 Fink, Michael ...... P1-A5-7, P1-C11-4 Gehlbach, Peter L...... 2F-1 Gu, Yuandong 5A-2, 5F-4, P1-A12-4, P2-C11-5, Finlay, Malcolm ...... 2D-2, 6A-5 Gelb, Anne ...... 2C-2 P2-C11-6 Finteis, Thomas ...... 5B-4, P2-A10-4 Geleijnse, Marcel ...... P1-B7-5 Guanziroli, Federico ...... 8G-3 Fiorentini, Stefano ...... 4F-5 Gelinck, Gerwin ...... 6B-1 Guasch, Lluis ...... 7E-2, 7E-5 Fiorito, Adrian Meidell ...... P1-C7-1 Gelly, Jean-Francois ...... 8F-1 Guasch, Lluís ...... 7D-2 Firstbrook, David...... P1-C14-5 Generowicz, Bas ...... 4J-5, P2-B9-6 Guerrero, Jorge ...... 6E-4 Fischer, Hans-Herbert ...... 5I-5 Geng, Yizhe ...... P1-A11-3 Guida, Raffaele ...... 6H-3, P1-SPC-13 Fishbein, Grace ...... 1E-3 Gennisson, Jean-Luc ...... 1A-6, 2C-3 Guidi, Francesco...... P1-C4-5 Fitzharris, Greg ...... 1H-5 George, Benedikt ...... P1-C11-4 Guillen, Nicolas ...... 8A-6 Fixsen, Louis ...... P1-A6-4 Gerber, Scott ...... 4E-3 Guillermin, Régine ...... 6E-6 Flesch, Martin ...... 4F-1, 7E-1, 8I-5, P1-SPC-4 Ghanbaja, Jaafar ...... P2-A11-1 Guillet, Benjamin ...... 6E-6, P1-B9-1 Flessa, Thaleia ...... P1-C14-5 Gharib, Morteza ...... 7F-6 Guliy, Olga ...... P2-A9-2 Flewitt, Andrew J...... 5C-5 Ghazvinian Zanjani, Farhad ...... P1-A9-3 Gunasekaran, Vivinya ...... P1-C13-3 Flint, Katelyn ...... 7D-6 Ghim, Mean ...... P1-B4-2 Gunn, Jason ...... 4E-2 Floer, Cécile ...... 6K-1 Ghovanloo, Maysam ...... 8E-3, P1-SPC-5 Guo, Chengbin ...... P1-A2-10 Florea, Mihai ...... P1-A7-3 Giammarinaro, Bruno ...... 1I-1 Guo, Gang ...... P1-B5-3 Flynn, Eric ...... 6C-5 Giannelli, Pietro ...... P2-C5-1, P2-C5-3 Guo, Jianzhong ...... P1-B13-5, P1-B13-6 Flynn, John ...... 8J-6, P2-B9-5 Gibb, Shawn ...... 5C-6 Guo, Jinghui ...... P1-A2-3, P1-A2-7 Foiret, Josquin ...... 8E-1, P1-SPC-18 Giffard-Roisin, Sophie ...... P1-A6-1 Guo, Ruibiao ...... 8A-3 Follet, Helene ...... P1-C9-2 Gijsen, Frank ...... 4 F - 2 Guo, Shifang ...... P1-A11-5 Fontanarosa, Davide ...... P1-C7-8 Giles, Anoja ...... 4A-4 Guo, Xinhua ...... P1-B14-8, P2-A9-5 Fool, Fabian ...... 1K-3, P1-C2-4 Giles-Donovan, Nathan ...... 8H-4 Guo, Xuyan ...... P1-A11-5 Guofeng, Pang ...... 8I-3 Heczko, Oleg ...... P2-C7-4 Huang, Chih-Hsien ...... P2-C4-5 Gupta, Rajan T...... 4D-3 Hegarty, Martin ...... P1-B13-2 Huang, Guijun ...... P1-B12-4 Guzman, Raphael ...... 6C-2 Hehn, Michel ...... P2-B12-4 Huang, Guoyou ...... P1-B3-6 Heifetz, Alexander ...... P1-B14-5, P2-A8-7 Huang, Haoqiang ...... P1-C11-5 Heiles, Baptiste ...... 3G-1, 3G-2, 7E-1, P1-SPC-4 Huang, Haoran ...... P1-A2-10 H Hein, Matthias ...... P2-A12-5 Huang, Hsin ...... P1-A6-6, P2-A4-3, P2-A4-8 Ha, Richard ...... P1-A7-9 Heinonen, I...... 3J-2 Huang, Jih-Yang...... P1-B11-5 Habib, Anowarul ...... P1-A8-6 Heinz, Bernd ...... 8B-4, P2-C12-1 Huang, Jiqing ...... 8A-3, P1-A3-2, P2-B1-7 Hachiya, Hiroyuki ...... 7A-4, P1-C10-6, P2-A8-4 Hendriks, Gijs ...... P1-C6-1 Huang, Jixiu ...... P1-B3-5, P1-B4-3 Hage-Ali, Sami 5A-5, 6K-1, P2-A11-1, P2-B12- Heo, Dasom ...... P2-B1-9 Huang, Lingyun ...... 7B-4 4, P2-C12-2 Heo, Jeongmin ...... P1-A10-8, P2-A5-3 Huang, Manwei ...... 7B-4 Hagelauer, Amelie ...... P2-A10-3, P2-A10-4, P2- Herbst, Elizabeth B...... P1-A4-5 Huang, Pintong ...... 6E-5, P1-A4-1 A10-5, P2-A12-1, P2-A12-5 Heres, Maarten ...... P2-B8-6 Huang, Sheng-Min ...... P2-C4-6 Hager, Pascal Alexander ...... P2-B8-2 Herickhoff, Carl ...... 1K-2, 2J-3, 3D-4, 8D-3 Huang, Sheng-Wen ...... 1I-2 Haghiri, Anne-Marie ...... P1-A7-11 Hermeling, Evelien ...... 7B-2 Huang, Sy-Han ...... P1-B4-5 Hagihara, Yoshihito ...... P2-A7-2 Hernandez Delgadillo, Hector ...... 6C-4 Huang, Wenbin ...... P1-B14-6 Hagiwara, Yoshihiro ...... 6I-4 Hernandez, Christopher ...... 1E-3, 2J-5, P1-A3-4 Huang, Xiaowei ...... 2H-5, 2I-2 Hajnal, Joseph ...... 6A-3 Hernandez-Andrade, Edgar ...... 6I-3 Huang, Xin ...... P2-A8-7 Hakiri, Kentaro ...... P2-A2-7 Hernández-Gil, Javier ...... 2K-3, 2K-5, 3B-1 Huang, Yaocai ...... 6A-2 Hall, Tim ...... P1-A11-1, P1-A11-2 Herrera, Bernard ...... 6H-3, P1-SPC-13 Huang, Yi-Qi ...... 6H-6 Hall, Timothy ...... 7A-3, P1-B10-3 Herrmann, Felix J...... P2-A2-1 Huang, Yizhou ...... 7A-2, P1-A7-10 Haltmeier, Markus ...... 2A-3 Hery, Maxime ...... 8C-5 Huang, Yongpeng ...... P1-B11-6 Hamelmann, Paul ...... 3B-5 Heyde, Brecht ...... 1A-2, 3J-4, P1-A6-1 Huang, Yulin 5B-5, 5E-4, P1-SPC-14, P2-B11-1, Hammond, Robert ...... 5A-3, 5E-2 Heyer, Frans ...... 2E-5 P2-B11-3 Hammond, Ryan ...... 4B-1 Higgins, Peter ...... 2C-4, 2F-4 Huang, Yu-Tung...... 6H-6 Han, Chao ...... 6 B - 5 Hill, Thomas L...... 5D-2, P1-SPC-11 Huang, Zhihong 4D-1, P1-A11-7, P1-C13-2, P1- Han, Dan ...... P1-A11-3 Hingot, Vincent ...... 3G-1, 3G-2, P2-C3-1 C5-5 Han, Tao ..... 4C-6, P1-B3-3, P1-B3-7, P2-B11-1, Hirata, Shinnosuke ...... P1-C10-6, P2-A8-4 Huberfeld, Gilles ...... 2I-4 P2-B11-4, P2-B12-6 Hirose, Sohichi ...... P2-C7-2 Hueltes, Alberto ...... P2-A10-1 Han, Xiaoli ...... P2-C7-7 Hjelmervik, Karina ...... P1-C12-2 Hughes, David Allan ...... 6B-6, P1-B12-5 Han, Yang ...... P1-A7-9 Hladky-Hennion, Anne-Christine ...... P1-C12-7 Hughson, Richard ...... 4G-4 Hanawa, Daisuke ...... P2-A8-4 Ho, Chung Kit ...... 3A-4, P1-A4-3 Humbert, Claude ...... P2-A13-1, P2-B13-1 Hansen, Hendrik . 3K-1, 7B-3, P1-B2-2, P1-C6-1 Ho, Yi-Ju ...... 4A-6, P1-B3-9, P1-C11-1 Hummels, Donald ...... 5A-6, 5J-1 Hansen, Kristoffer ...... 4G-3, 4G-5, P2-B5-1 Hoang, Quan V...... 6I-2 Humphrey, Tom ...... 7A-1 Hansen, Ole ...... P1-A13-4 Hoang, Thien ...... 5J-6, 8K-2, P2-A7-4 Hunter, Alan J...... P1-C8-1 Hansen, Rune ...... 4C-3 Hodge, Michael ...... 5C-6 Hutami, Rahma Rahayu ...... P1-B9-6 Hao, Tao ...... 5B-5 Hoel Rindal, Ole Marius .... 3E-2, 4H-5, P1-B2-2 Huthwaite, Peter ...... 5K-1, 7D-2 Haouari, Rachid ...... P2-C4-5 Hoff, Lars 8A-2, 8F-1, P1-C12-2, P1-C12-3, P2- Huyet, Isabelle ...... 6 J - 4 Hapla, Vaclav ...... 7I-3 B10-9, P2-C4-10 Huynh, Thong ...... P2-C4-10 Hara, Masayuki ...... P2-C2-4 Hofstetter, Christoph ...... 4B-1 Hverven, Stine M...... P1-C8-1 Hara, Motoaki ...... P2-A12-3 Hogrel, Jean-Yves ...... 1A-6 Hwang, Gilgueng ...... P1-A7-11 Hara, Shinsuke ...... P2-A12-3 Hollender, Peter ...... 4D-6, P1-A6-2 Hynynen, Kullervo ...... 1E-2, 4C-1, 7F-5 Hara, Shiro ...... P2-C9-4 Homeister, Jonathon ...... 7B-5 Hysi, Eno 1D-6, 2C-6, 2D-5, 2D-6, P1-C8-6, P2- Harita, Kazuki ...... P2-C2-2 Honarvar, Mohammad ...... 4E-4, P2-A5-1 B7-6 Harkness, Patrick ...... P1-C14-5 Honda, Tamaki ...... P1-B9-7 Hyun, Dongwoon . 1J-2, 1J-3, 2K-1, 3B-2, 3H-1, Harley, Joel B...... 5I-1, P2-C7-3 Hong, Guobin ...... P1-B11-4 4J-3, P2-A3-2 Harput, Sevan ..... 3B-3, 3C-1, 3G-3, 3K-2, 7D-4, Hong, Jiehan ...... 6A-2, 8D-4, P2-C4-8 8A-5, P1-A7-8, P1-C4-1, P1-C4-2, P1- Hong, Mei ...... P1-C11-2 C4-4, P1-C4-6 Hoogi, Assaf ...... 2K-4 I Harraz, Maged M...... 2F-1, 2I-3, P2-B6-4 Hopgood, James ...... 7J-5 Ialy-Radio, Nathalie ...... P1-B8-3 Harribaud, Elisabeth ...... 4F-6 Horikawa, Keitaro ...... P2-A1-6 Iborra, Enrique . 5C-5, P2-A12-2, P2-A13-7, P2- Harris, Emma ...... P1-A4-6, P1-A7-4 Horsley, David ...... 6H-4, 8F-2, P2-A13-4 B13-5, P2-B14-2 Harrison, Brian ...... P1-B12-2 Hosokawa, Keishu ...... P2-C2-5 Ichihashi, Hayato ...... 2G-4 Harrison, Gerard ...... 4E-4 Hossack, John A. .... P1-A4-5, P1-C8-4, P2-B6-1 Idier, Jérôme ...... 6F-5 Harvey, Susan ...... 4H-5 Hossain, Md Murad ...... 4D-5, 4E-6, P1-B8-5 Ido, Tetsuya ...... P2-A12-3 Hasegawa, HideyukiP1-C6-2, P2-A3-6, P2-B10- Hou, Xuandi ...... 1D-1, P1-B3-4 Igarashi, Shigeru...... P2-C6-5 11 Houben, Tim ...... P1-C7-8 Igeta, Honoka ...... P2-B14-1 Hasegawa, Kazuo ...... P2-A9-1 Houlden, Rohan ...... 5C-6 Iglesias, Luis ...... P1-A13-2 Hashimoto , Ken-Ya . 5B-2, 5E-4, P1-A12-8, P1- Hozumi, Naohiro ...... 5G-6, P1-B9-4, P1-B9-6 Ignjatovic, Zeljko ...... P1-C2-8 SPC-14, P2-B11-1, P2-B11-3 Hristov, Dimitre ...... 2K-4, 2K-6 Ihlow, Alexander ...... 5K-6 Hashimoto, Ken-Ya ...... 5B-5 Hsiao, Sheng-Hsuan ...... P1-B2-4 Ihrig, Andreas ...... 3E-4, 3E-5 Hassan, Sonia ...... 6I-3 Hsieh, Bao-Yu ...... 1C-4 Ikeda, Hayato ...... 4A-3 Hassanieh, Haitham ...... 5F-5 Hsieh, Chin-Fang ...... P2-A4-3 Ikonomidou, Chrysanthy ...... P1-B10-3 Hatakeyama, Kodai ...... 2E-6 Hsieh, Pei-Ying ...... P1-B2-4, P2-A3-7 Ikushima, Kenji ...... 6I-4, P2-A8-2 Haupert, Sylvain ...... 5K-2 Hsieh, Scott ...... 3H-1 Ilkhechi, Afshin Kashani ...... 6H-1 Havreland, Andreas .... P1-A12-1, P1-A12-5, P1- Hsieh, Ya-Ling ...... P1-C2-9 Imai, Shinji ...... 4C-4 A13-4, P1-A13-5, P2-B10-4 Hsu, Hui-Ching ...... P1-B3-9 Imakawa, Makoto ...... P2-C12-4 Hayashi, Akane ...... P1-B7-1 Hsu, Jin-Chen ...... P2-C8-1 Ing, Ros Kiri ...... P1-A5-6 Hayashi, Hideki ...... P1-A3-5 Hu, Changhong ...... 1I-2, 4E-4 Ingram, Charles ...... P1-B8-2 Hayashi, Hiromichi ...... 2G-4 Hu, Chang-Lin ...... P1-C7-9 Ingram, Marcus ...... P1-B13-2 Hayashi, Junki ...... P2-A11-3 Hu, Chaoyue ...... P1-B14-8 Ingram, Pier ...... 1G-1, P1-B8-1 Hayashi, Takahiro ...... P1-B13-10 Hu, Dehong ...... P1-C11-2 Inoue, Shogo ...... 6 J - 5 He, Changde ...... P1-A13-6 Hu, Xiaonan ...... P1-B14-8 Inui, Takumi ...... P2-B12-3 He, Le-Ming ...... P1-A12-4 Hu, Yaxin ...... P1-C11-5 Iori, Gianluca ...... 2E-5, 5G-4 He, Qiong . 3F-3, 3I-3, 7A-6, P1-A8-3, P1-C4-7, Huang, An ...... 5H-2 Irie, Takasuke ...... P1-A12-7, P1-A8-5 P1-C6-4, P1-C6-7 Huang, Chao-Yi ...... P1-C7-9 Irvine, Mike ...... P1-C13-5 He, Xiaolin ...... P2-B7-3 Huang, Chengwu . 2K-2, 4J-6, 4K-4, 7A-5, 7B-4 Irving, Daniel ...... 6B-6, P1-B12-5 Healey, Andrew ...... 8A-2 Huang, Chih-Chung P1-A10-3, P1-A6-6, P2-A4- Ishigaki, Yasushi ...... P1-A10-6 Heath-Barnett, Heather ...... P1-B6-4 3, P2-A4-8, P2-B8-1 Ishiguro, Teruo ...... P2-A7-2 Ishiguro, Yuya ...... P1-A12-7 Jin, Haoran ...... P1-B13-9 Kelly, James F...... 7I-6 Ishii, Itaru ...... 8F-2 Jin, Li P1-B13-8 Kemal, Remzi ...... 8C-3 Ishii, Takaaki ...... P2-A7-2, P2-C2-5 Jin, Qiaofeng ...... 1D-4 Kemper, Paul ...... 7C-4, P1-B7-8 Ishii, Takuro ...... 1F-1, 4F-3, P1-A4-3 Jin, Zhibin ...... P1-A9-4 Kenjeres, Sasa ...... 4F-2 Ishijima, Ayumu ...... P1-B3-1 Jin, Zhuang ...... P1-C7-5 Kennedy, Nicole A...... P2-B7-2 Ishikawa, Atsushi ... P2-B2-2, P2-B2-3, P2-C2-7, Jing, Yun ...... 7I-4, P1-A11-6 Ketterling, Jeffrey...... 3C-4, 4B-3, P1-C10-4 P2-C2-8 Jisha, Vadakkancheril S...... P1-B4-1, P2-C4-3 Khaing, Zin Z ...... 3F-1, 4B-1 Ishino, Yuji ...... P2-C2-4 Jo, Janggun ...... 2F-3 Khan, Muhammad Ammar ...... P1-A12-8 Iskander-Rizk, Sophinese ...... 2D-1 Johansen, Tonni Franke ...... P1-B13-4, P2-B10-9 Khaw, Kathryn ...... P2-B7-1 Islam, Ashraful ...... P1-A8-6 John, Samuel ...... P2-B7-2 Khelif, Abdelkrim ...... 7H-3, P2-B2-5 Issa, Naim ...... 6I-1 Johnsen, Eric ...... P1-A11-1 Khider, Lina ...... 3A-6, 7B-1, P1-A11-4 Ito, Hiroyuki ...... P2-A12-3 Johnson, Laura ...... 2C-4, 2F-4 Khlat, Nadim ...... P2-A10-1 Ito, Kazuyo P1-B9-2, P1-B9-3, P1-B9-5, P1-B9- Johnston, Hannah ...... P2-C1-3 Khokhlova, Vera ...... 6A-6, 7J-6 7 Johnston, Patrick ...... 5I-4 Khoury, Elise ...... 4D-4 Ito, Toshimitsu ...... 7K-6 Jondahl, Morten Hansen ...... P2-C5-6 Khumpuang, Sommawan ...... P2-C9-4 Ito, Youichi ...... P1-B13-8 Jonnalagadda, Umesh ...... P1-A2-5, P1-A3-3 Khuri-Yakub, Butrus ...... 8C-2 Ivanytskyy, Oleg ...... 8I-3 Joo, Mingyu ...... P2-A5-3 Kielczynski, Piotr ...... P2-C1-9 Ives, Kimberly ...... P1-A11-1 Jørgensen, Lasse Thurmann ...... P2-C3-5 Kiessling, Fabian ...... P2-C3-6 Ivira, Brice ...... 5C-1, 5C-4 Jud, Pascal ...... P2-B8-2 Kijanka, Piotr ...... 1H-1, 1H-2 Iwaki, Masafumi ...... 5E-1 Julia, Pierre ...... 3A-6 Kim, Bae-Hyung ...... P1-C2-5, P1-C2-7 Iwaki, Sosuke ...... P2-A1-6 Jung, Gwangrok ...... 8E-3, P1-SPC-5 Kim, Chulhong ...... 2F-6 Iwamoto, Hideki ...... 6J-3 Jung, Hayong ...... 8E-1, P1-SPC-18 Kim, Daeho ...... 5C-6 Iwasaki, Ryosuke...... 4A-3 Jung, Olive ...... 1E-3 Kim, Dohyun ...... P2-C3-7 Iwasaki, Yuhei ...... P2-C2-8 Kim, Dong-Ho ...... 8H-3 Iyer, Rajiv ...... P2-C4-4 Kim, Eun Sok ...... 7J-4, 7K-2, P1-A12-9 K Kim, Hoeyong ...... P2-C6-4 Kabbani, Loay ...... P2-B7-2 Kim, Ho-Wuk ...... P1-C13-1 J Kabe, Yoshiro ...... P2-A11-2 Kim, Hyojin ...... 2F-6 Jackson, Thomas N...... 8F-3 Kadam, Shilpa ...... P2-B6-4 Kim, Hyung Ham ...... P2-B1-3, P2-B1-9 Jackson-Lewis, Vernice ...... 2J-1, 2J-4 Kaddoura, Tarek ...... 8C-4, P2-B5-8, P2-B5-9 Kim, Hyunhee ...... P2-B1-9 Jacobs, Mark ...... P2-A9-4 Kadic, Muamer ...... P2-B2-4 Kim, Jeong Nyeon ...... 8F-3 Jacqueline, Maxandre ...... P1-A7-11 Kadota, Michio ...... 6J-2 Kim, Jin Young ...... 2F-6 Jaeger, Michael ...... P1-A7-2 Kajita, Masatoshi ...... P2-A12-3 Kim, Jinwook ...... P1-C13-1 Jago, James ...... 4 E - 4 Kakio, Shoji P2-A11-3, P2-A2-7, P2-B11-2, P2- Kim, Jong-Hoon ...... P1-A8-4 Jakovljevic, Marko ...... 3H-1, 4K-6 C12-3 Kim, Jungho ...... P1-C7-6 Jambawalikar, Sachin ...... 7G-3 Kala, Shashwati ...... P1-A2-3 Kim, Jungsuk ...... P2-C6-4 James, Sheronica ...... P1-A10-7 Kalra, Sanjay ...... P1-C5-4 Kim, Kang ...... 7D-3 Jamil Din, Jazril Bin ...... P2-B13-3 Kamila, Sukanta ...... P1-C11-3 Kim, Kangsik ...... P1-C3-1 Jan, Chen-Kai ...... P2-C4-6 Kamimura, Hermes ...... 2H-1, P1-B11-2 Kim, Kidong ...... 1H-3 Jandhyala, Sidhartha ...... 3C-5 Kamiyama, Naohisa ...... P1-C10-2 Kim, Kyungmin ...... P2-B1-9 Jang, Ji Hoon ...... 8C-2 Kan, Hao ...... P2-C10-3 Kim, Min ...... P2-B8-3 Jang, Jihun ...... 8I-2 Kanai, Hiroshi P1-A10-6, P1-B7-1, P1-B7-4, P2- Kim, Min Gon ...... 2H-1, P1-B11-2 Jang, Jintae ...... P1-C3-1 B10-3 Kim, Mina ...... P1-C7-6 Janjic, Jovana ... 4I-1, 8G-1, P1-SPC-17, P2-B8-9 Kanayama, Yuko ...... P1-C10-2 Kim, Pilsu ...... 1H-3, 1K-6, P1-A11-10, P1-B2-5 Jansen, Rob ...... P2-A9-4 Kanda, Takefumi .... P2-B2-3, P2-C2-2, P2-C2-3 Kim, Yeonggeon ...... P2-B1-9 Jansson, Tomas ...... 2D-3, 7C-6, P2-C4-9 Kaneko, Ryosuke ...... 5F-3 Kim, Young Hun ...... P1-B13-3 Jaros, Jiri ...... 7I-5 Kang, Eunchul ...... 8G-1, 8G-5, P1-SPC-17 Kim, Younghoon ...... P2-C5-2 Jarosik, Piotr ...... P1-A9-2 Kang, Haochen ...... 8E-1, P1-B12-3, P1-SPC-18 Kim, Younsu ...... P1-A11-8, P1-C7-12 Jeganathan, Selva ...... 2J-5 Kang, Jeeun ...... 2F-1, 2I-3, P1-B2-5, P2-B6-4 Kimball, Donald ...... P1-B11-1 Jenderka, Klaus-Vitold ...... P2-A1-8 Kang, Jin U...... P2-B6-4 Kinn Ekroll, Ingvild P2-A4-1, P2-B9-8, P2-C3-3 Jeng, Geng-Shi ...... 1I-4, 2E-2 Kang, Jinbum 4J-2, P1-A6-7, P2-A3-1, P2-A3-9, Kinoshita, Sarina ...... 6K-6 Jensen, Jørgen ...... P2-A4-5, P2-C3-5 P2-B8-3, P2-B9-4 Kirby, Mitchell ...... 1H-6 Jensen, Jørgen Arendt .... 4G-3, 4G-5, P1-A12-1, Kang, Ki Chang ...... P1-B13-3 Kirchhof, Jan ...... 5K-4, 5K-6 P1-A12-5, P1-A13-4, P1-A13-5, P2-B10- Kang, Lei ...... P2-C8-2 Kirkendall, Christopher ...... 5C-1, 5C-4 4, P2-B5-1, P2-C3-9 Kano, Koji ...... 6H-6 Kishida, Kazuhito ...... P2-A11-3 Jeon, Han Ho ...... 2B-4 Kantimahanti, Arjun Kumar ...... P2-B13-3 Kishikawa, Hiroki ...... P2-A2-6 Jeong, Heewon ...... P2-A9-1 Kao, Yu-Chieh ...... 1C-4 Kjaergaard, Jesper ...... 4G-3 Jeong, Jiyeoun ...... 1H-3 Karageorgos, Grigorios Marios ...... P1-B7-8 Klambauer, Reinhard ...... P2-C8-6 Jesorka, Aldo ...... 6G-1, P1-SPC-9 Karakatsani, Maria Eleni ...... 2J-4, 7G-3 Klass, Arne ...... 6 D - 4 Ji, Meiling ...... 3D-3, 7E-6 Karam, Irene ...... 6E-3 Kleckler, Michelle ...... P1-A4-4 Ji, Robin ...... 2J-1 Karanian, John ...... P1-C6-8 Klibanov, Alexander L...... P1-A4-5, P2-B6-1 Jia, Caixia ...... 4C-6, P1-B3-7 Karasawa, Rei .. 6G-2, 6K-4, 6K-6, P2-A1-3, P2- Klimonda, Ziemowit ...... P1-B3-10 Jia, Kun ...... P2-B12-5 C12-4 Kling, Ami ...... P1-B10-5 Jia, Lecheng ...... 5J-5 Karbalaeisadegh, Yasamin ...... 5G-4, P1-C9-10 Knapmeyer, Martin ...... 5I-5 Jia, Licheng ...... P1-A13-6 Karpiouk, Andrei ...... 2F-2, P1-SPC-3, P2-C4-3 Knight, Anna ...... 4D-6 Jia, Yana ...... P2-C10-5, P2-C10-6 Karunakaran, Chandra ...... P1-B8-4 Knights, Oscar ...... 2B-1 Jiang, Huiying ...... P1-B4-3 Kasamatsu, Akifumi ...... P2-A12-3 Kobayashi, Etsuko ...... P1-B3-1 Jiang, Jingfeng ..... P1-A5-4, P1-B10-5, P1-B5-5, Katayama, Minako ...... 1F-4, 3B-6 Kobayashi, Itsuki ...... P1-B7-4 P1-C6-5 Kawachi, Osamu ...... P2-B14-3 Kobayashi, Kazuto 5G-6, P1-B9-4, P1-B9-6, P2- Jiang, Laiming ... 8E-1, P1-B12-3, P1-C12-1, P1- Kawai, Shigeya ...... P2-A8-6 B10-3 SPC-18 Kawasaki, Shin-Ichiro ...... P2-C2-2 Kobayashi, Makiko ...... P1-C14-3, P2-B10-8 Jiang, Qiuju ...... P1-A2-1, P2-C4-8 Kawashima, Tomohiro ...... P1-B9-4 Kobayashi, Saya ...... P2-A7-1 Jiang, Wentao ...... 6F-2 Kazemi, Arash ...... P1-B6-3, P2-B5-6 Kocaturk, Ozgur ...... P1-B12-7 Jiang, Xiaoning ...... P1-C13-1 Ke, Qingqing ...... 8I-4 Kochhar, Abhay ...... 5F-2 Jiang, Xiaoyue ...... P2-A13-4 Ke, Yabing ...... P2-A9-12 Koekkoek, Bas ...... 4J-5, P2-B9-6 Jiang, Yuan ...... P1-A12-6, P2-C11-3 Kehagias, Nikolaos ...... 7H-2 Kogai, Takashi ...... 6H-6 Jiao, Ziyu ...... P1-C7-5 Keijzer, L.B.H...... 3J-2, P1-A5-5, P1-C6-3 Kojima, Yoshitsugu ...... 6I-4 Jichao, Xu ...... P2-C1-8 Keller, Evan ...... P2-B7-5 Kokkonen, Kimmo ...... P2-A10-5 Jimenez, Gema ...... P1-C9-6 Kelly, Corey ...... P2-A5-1 Kolas, Samradnyee ...... P1-C4-2 Kolen, Alexander...... 3B-5 Lacour, Daniel ...... P2-B12-4 Levy, Raphael ...... 2E-3 Kolios, Michael ... 1D-6, 1E-3, 1E-5, 2B-6, 2C-6, Lafon, Cyril ...... 1I-1 Lewandowski, Marcin .... P1-A9-2, P2-A8-1, P2- 2D-5, 2D-6, 5G-2, 5G-5, P1-A3-4, P1- Lafond, Maxime ...... 4A-3 B8-4 C2-10, P1-C8-6, P2-B7-3, P2-B7-6 Lafontant, Alec ...... P1-C13-3 Lewin, Peter ...... P1-C13-3 Komini, Vangjush ...... 3J-1, 3J-4 Lai, Guan-Heng ...... P1-A4-2 Li, Boyi ...... P1-C8-3 Kondo, Kengo ...... P2-A5-7 Lai, Puxiang ...... P2-B6-3 Li, Chong ...... P2-C10-3 Kondoh, Jun ...... P2-A7-1 Lai, Stephen ...... 3C-6 Li, Chunhui . 4D-1, P1-A11-7, P1-C13-2, P1-C5- Kong, Deqing ...... 7K-1 Lai, Ting-Yu ...... P1-C3-3 5 Kono, Yoshio ...... 8K-4 Laimes, Rosa ...... 6E-4 Li, Dan ...... P1-B14-4 Konofagou, Elisa .. 1G-2, 2H-1, 2H-6, 2J-1, 2J-4, Lal, Amit ..... 2I-1, 5A-1, 5H-3, 6F-3, 6F-4, 6K-2 Li, Dapeng ...... P1-B11-3, P1-B4-4 3J-3, 3K-4, 3K-6, 4E-1, 7C-4, 7G-3, 7G- Lalondrelle, Susan ...... P1-A7-4 Li, David ...... 1H-6, 2B-5, 3C-2 6, P1-A7-9, P1-B11-2, P1-B7-8 Lam, Kwok Ho ...... P1-B12-1 Li, Di P1-B12-4 Konoma, Chihiro ...... P2-C9-3 Lambert, William ...... 3D-5 Li, Fan ...... 4C-6, P1-B3-3, P1-C11-6 Koo Sin Lin, Coralie ...... P2-A1-8 Lamberti, Nicola ...... P2-A7-3 Li, Faqi ... 7G-5, P1-A11-7, P1-A2-10, P1-C13-2 Kooi, Eline ...... 7B-2 Lamuraglia, Michele ...... P1-B10-2 Li, Fei 6G-5, 8D-5, 8H-1, P1-A13-6, P1-A3-1, Kooiman, Klazina ...... 1D-5, 4C-2 Lan, Hengrong ...... P2-B7-4 P1-A3-2, P2-B1-7, P2-B1-8 Kord, Ahmed ...... 7K-4, P1-SPC-12 Landry, Thomas ...... 8A-4 Li, Feifei ...... P1-A2-5 Koriakina, Nadezhda ...... 4H-3 Lang, Stephen ...... 4D-1 Li, Guofeng .....P1-A2-1, P1-A2-3, P1-A2-4, P2- Kornegay, Joe ...... P1-B6-4 Langeveld, Simone A. G...... 1D-5 C4-8 Korsten, Hendrikus ...... P1-A9-3 Lanteri, Frederic ...... 8F-1 Li, He 3K-5, P1-A6-5, P2-B5-3 Korta Martiartu, Naiara ...... 7I-3 Larin, Kirill ...... 1H-4 Li, Honglang ...... P2-A9-12 Koshino, Masayoshi ...... 6J-3 Laroche, Nans ...... 6F-5 Li, Hsin-Che ...... P2-A4-3 Koshkina, Olga ...... 2B-2 Laroche, Thierry ...... 5A-5, 6J-4 Li, Hui ...... P2-C10-3 Koskela, Julius ...... 5A-3, 5E-3 Larsen, Niels Bent...... P2-C3-9 Li, Liqiang ...... P2-B12-5 Kouamé, Denis ...... P1-A7-3, P1-A8-4 Lassau, Nathalie ...... P1-A7-11 Li, Meng-Lin . P1-C2-9, P2-A5-6, P2-B10-7, P2- Koyama, Daisuke ...... P1-C9-1 Latham, Katherine ...... 8E-4, 8K-5, P2-A5-2 C4-6 Kraft, Michael ...... P1-A12-2 Lattwein, Kirby R...... 4C-2 Li, Min ...... P2-C10-3 Kranemann, Tim C...... 1G-5, P1-B8-6 Laude, Vincent ...... 7H-3, 7H-6, P2-B2-4 Li, Mucong ...... P2-A5-5 Krauspe, Barbara ...... P2-C3-6 Laudereau, Jean Baptiste ...... 2C-3 Li, Pai Chi...... P1-A5-8, P1-A9-5, P1-B4-5 Krieg, Fabian ...... 5K-6 Laugier, Pascal ...... 5G-1, P1-C9-2, P1-C9-4 Li, Pai-Chi ...... 1I-3 Krøvel-Velle Standal, Øyvind ...... P2-C7-1 Lavarello, Roberto .... 3E-1, 6E-4, 6I-1, P1-A9-7, Li, Pan ...... P1-B13-5, P1-B13-6 Kruecker, Jochen ...... P1-C6-8 P1-B10-6, P1-B9-8 Li, Ping ...... P2-B11-4 Krüger, Harald ...... 5I-5 Lavery, Linda ...... 7D-3 Li, Quanchang ...... P1-B14-6 Kruizinga, Pieter .. 2D-1, 4I-1, 4I-2, 4J-5, P1-B2- Lavery, Martin ...... 7J-3 Li, Renyan ...... 7 G - 2 2, P2-B9-6 Lay, Holly .... 6A-2, 7J-3, 8F-3, 8G-2, P1-C13-4, Li, Runze ...... P1-B12-4 Kubelick, Kelsey ...... 2B-3, 2F-2, P1-C11-7, P1- P2-B8-10 Li, Sanpeng ...... P2-B6-2 SPC-3 Le Guillou-Buffello, Delphine ..... P1-B10-2, P1- Li, Shuying ...... 7F-3 Kucewicz, John ...... P1-B4-6 B10-7 Li, Sinan ...... 5K-2 Kudo, Nobuki ...... 4C-4, P1-A2-8 Le, Lawrence H. .... P1-B14-4, P1-C8-2, P1-C8-3 Li, Wenjun ...... P2-B6-2 Kuijsters, Nienke ...... 7A-2, P1-A7-10 Lebedev, Vadim ...... 8H-5 Li, Xiaoniu ...... P2-C2-6 Kuklis, Filip ...... 7I-5 Leblois, Thérèse ...... P2-A13-1, P2-A13-5 Li, Xiaozhen ...... P2-B10-1 Kulik, Piotr ...... 5F-6 Leclerc, Sarah ...... 3H-2, P1-C7-1, P1-C7-4 Li, Xinyi 5B-5, 5E-4, P1-A12-8, P1-SPC-14, P2- Kulkarni, Shrinidhi ...... 6K-2 Lecomte, Thierry ...... 2J-6 B11-1, P2-B11-3 Kumagai, Kazutoshi ...... 5G-6 Lederman, Robert ...... P1-B12-7 Li, Yang ...... 2G-2 Kumar, Anish ...... P1-B13-7 Lediju Bell, Muyinatu A...... 4H-5 Li, Yanpeng ...... P2-C6-3 Kumar, Rajiv ...... P2-A2-1 Ledoux, Nik ...... 1I-2 Li, Ye 8A-3 Kumar, Viksit ... 1F-4, 3B-6, 4K-5, P1-C2-5, P1- Lee, Chang Hoon ...... P2-B1-4 Li, Yibo ...... 5J-5 C2-7 Lee, Chia-Lin ...... P1-A5-8 Li, Yi-Chen ...... P1-A10-3 Kuniyil Ajith Singh, Mithun ...... 2C-5 Lee, Ching-Yen ...... P1-A9-5 Li, Ying ...... P1-C2-10, P1-C8-3 Kuo, Justin ...... 6F-3, 6F-4 Lee, Fu-Feng ...... 4I-4, P1-A8-3, P1-C4-7 Li, Yongchuan ...... 8A-3, P1-A2-4 Kuraoka, Masaki ...... P1-C9-1 Lee, Hojung...... P2-B8-3 Li, Yongshuai ...... 7A-6 Kurashina, Yuta ...... P2-B12-3 Lee, Ho-Yong ...... 8H-3 Li, Yongxiang ...... 8D-6 Kuriakose, Maju ...... P1-A7-2 Lee, Hyang-Bok ...... P2-C1-4 Li, You ...... 4J-3, 4K-6 Kuroda, Chitose ...... 5K-5, P2-C5-4 Lee, Inje ...... 4D-6 Li, Yujiao...... P1-A11-3 Kuroda, Hidekatsu ...... P1-C10-2 Lee, Jae Hak ...... P1-C7-6 Li, Yunfei ...... P1-B12-6 Kurosawa, Minoru ...... 7K-1, P1-C14-1 Lee, Jim ...... P1-A2-5 Li, Zhenhao ...... 6H-1 Kuroyama, Takanobu ...... P2-C8-5 Lee, Junsu ...... 8D-2 Liang, Suzi ...... 8D-4, P1-A11-6 Kurusingal, Valsala ...... P1-C14-6 Lee, Po-Yang ...... P1-C2-7, P2-B8-1 Liang, Xiaolong ...... P1-A3-6, P1-A3-7 Kurz, Nicolas ...... 6K-3, 8H-5 Lee, Stephanie ...... 6E-1 Liang, Yong ...... P2-C10-5, P2-C10-6 Kusakabe, Koichi ...... P2-A1-4 Lee, Stephen ...... 1G-2, 2H-1, P1-B11-2 Liao, Shusheng ...... P1-C9-9 Kusano, Yuri ...... 6H-4, 8F-2 Lee, Wei-Ning ...... 3K-5, P1-A6-5, P2-B5-3 Liberman, Leonardo ...... 3K-4 Kuscer, Danjela ...... 8K-2 Lee-Gosselin, Audrey ...... 1D-2, 1D-3, 3G-4, P1- Liebgott, Hervé ..3D-6, 3E-1, 4H-2, 4J-1, P1-A9- Kushibiki, Jun-Ichi ...... P2-B14-3, P2-C12-3 SPC-1 6, P1-C2-6, P1-C8-7, P2-A4-4, P2-A4-7, Kustanovich, Kiryl ...... 6G-1, P1-SPC-9 Leguerney, Ingrid...... P1-A7-11 P2-B10-10, P2-B9-1, P2-B9-8 Kuwae, Hiroyuki ...... P2-A11-3 Lei, Hao ...... 1G-4, 2F-4 Liebler, Marko ...... P2-A1-8 Kuypers, Jan H...... P2-A10-5 Leistikow, Merel ...... P2-B8-9 Liew, Weng Heng ...... 8I-4 Kvåle, Kaja ...... P1-B7-3 Lejeune, Agnes ...... 8I-5 Lim, Hae Gyun ...... P2-B1-3, P2-B1-9 Kwan, James ...... P1-A2-5, P1-A3-3 Lemke, Christina ...... 8G-2, P2-B8-10 Lim, Sam Liang ...... 2B-4 Kwon, Joonbum ...... 5C-6 Lenge, Matteo ...... 3A-1 Lin, Haoming ...... P2-B1-1 Kwon, Nancy ...... 2J-4 Lens, Eelco ...... 2G-5 Lin, Hongxiang ...... P1-C7-10 Kwong Soon, Thomas Tiong ...... P1-B9-6 Leow, Chee Hau 2K-3, 2K-5, 3A-5, 3B-1, 3C-1, Lin, Hsiang-Ching ...... 4B-6 3G-3, 7D-4, P2-C3-2, P2-C3-4 Lin, Pengfei ...... P1-C12-4 Lerman, Imanuel ...... P1-B11-1 Lin, Qin ...... 6G-5, P2-B1-8 L Lethiecq, Marc ...... P2-A7-4 Lin, Shuyu ...... P1-B13-5, P1-B13-6 La Mura, Monica ...... P2-A7-3 Leus, Geert ...... 4I-1, 4I-2, 4J-5, P2-B9-6 Lin, Yi-Jui ...... P2-C8-1 La Pietra, Lynn ...... P1-C2-8 Leuschner, Stephan ...... P2-A12-1 Lin, Yinghsiu ...... 6I-6 La, Taianh ...... P2-A5-3 Leuthardt, Eric C...... 2H-3 Lin, Yi-Ting ...... P1-B3-2 Lachaux, Julie ...... P1-A7-11 Levassort, Franck ...... 8K-2, P1-C12-7, P2-A7-4 Lin, Yu-Chun ...... P1-B3-2 Lachowski, Kacper ...... 2B-5 Levy, Benjamin ...... P1-B8-5 Lin, Zhengrong ...... 2H-5, 2I-2, P1-A2-2 Lindquist, Rebecka ...... P2-C4-9 Lucas, Margaret ...... 8B-2, P2-B8-8 Martin, James ...... P2-B8-10 Lindqvist, Ulrika ...... P2-C4-9 Luchies, Adam ...... 1J-1, 4H-4 Martin, Matthieu...... 7E-3 Ling, Bill...... 3G-4 Luke, Geoffrey ...... 2C-2, 3C-5 Martinez, Alejandro ...... 7H-2 Lipkens, Bart ...... 5D-4 Lundt, Jonathan ...... P1-A11-2 Martinez, Florian ...... 3I-5, P2-B8-5 Lipman, Samantha ...... 4D-2, P1-B5-4, P1-SPC-6 Luo, Guo-Lun ...... 6H-4, 8F-2, P2-A13-4 Martinez, Inigo Zubiavrre ...... P1-A8-6 Lippe, Boris ...... 4F-2 Luo, Jianwen . 3F-3, 3I-3, 4H-6, 4I-4, 4I-6, 7A-6, Martini, Alessandra ...... P2-C5-1 Lisok, Ala ...... 2I-3 7B-4, P1-A8-3, P1-C2-3, P1-C4-7, P1- Maruani, Annabel ...... P1-C5-1, P1-C5-2 Little, Callum ...... 6A-5 C6-4, P1-C6-6, P1-C6-7, P1-C8-5, P2- Maruyama, Hitoshi ...... P1-B9-7 Liu, Bingxue ...... P1-C12-8 A6-3, P2-B4-5 Maruyama, Kazuo ...... P1-B3-8 Liu, Bohua ...... P2-C11-3 Luo, Jingting ...... P2-C10-3 Marzo, Asier ...... 5D-2, P1-SPC-11 Liu, Chengcheng ...... P1-C8-3 Luo, Yan ...... P1-B5-3 Masamune, Chiaki ...... P2-A1-3 Liu, Dalong ...... 7G-4, P1-A7-6 Luo, Yukun ...... P1-C7-5 Mashiko, Daisaku ...... 4A-2, 7F-2 Liu, Han ...... P1-B3-6 Luo, Yunqi ...... P1-B13-9, P2-A2-4 Maskay, Anin ...... 5A-6, 5J-1 Liu, Hao-Li ...... P2-C4-6 Lv, Jiashi ...... P2-B12-6 Mason, Sarah ...... P1-A7-4 Liu, Huan ...... P1-A2-10 Lyden, Sean...... P1-A10-7 Måsøy, Svein-Erik ...... 3E-2, P1-B13-4 Liu, Jing ...... 3I-3, 4I-6, P1-C2-3, P1-C8-5 Lyer, Stefan ...... P1-A5-7 Massaad, Jack ...... 6D-2, P2-C8-4 Liu, Jinjin ...... P1-C9-9 Lyu, Kezhen ...... 6B-5 Mastik, Frits ...... 4C-2, 4I-1, P2-B8-9 Liu, Michael ...... 7G-3 Masuda, Kohji ...... P1-B3-8, P2-B8-7 Liu, Qinghuai ...... 7D-1 Mateo, Philippe ...... 3J-5, P1-B8-3 Liu, Rong ...... 8D-6 M Mateo, Tony ...... 8C-5, 8I-5 Liu, Ruming ...... 4C-5 Ma, Bingjie ...... P2-B5-9 Mateu, Jordi ...... P2-A10-1, P2-B13-2, P2-B13-4 Liu, Ruonan ...... 5C-3 Ma, C. P1-B13-7 Mathews, Sunish ...... 6A-5 Liu, Szu-Heng ...... 6H-6 Ma, Jianguo ...... P1-C12-8 Matrone, Giulia ...... 8G-3, P2-B4-1 Liu, Wei ...... 2G-2, P2-A5-5 Ma, Lucai ...... P1-B12-6 Matsuda, Satoru ...... P2-A11-2 Liu, Weijun ...... 2H-3 Ma, Qingyu ...... P1-C14-4 Matsui, Kazuhiro ...... P1-A2-9 Liu, Wei-Wen ...... P1-B4-5 Ma, Teng ... 8A-3, P1-A2-4, P1-C11-2, P1-C2-11 Matsukawa, Mami . 2G-4, P1-C9-1, P1-C9-5, P2- Liu, Wen-Juan ...... P1-A12-4 Maadi, Mohammad ...... 8C-4 A1-2 Liu, Xiao-Jun ...... P1-B14-10 Macconaghy, Brian ...... P1-B4-6 Matsuoka, Takayuki ...... P1-B12-3 Liu, Xin ...... 7G-5 Machet, Laurent ...... P1-C5-1, P1-C5-2 Matsuzaki, Toshiki ...... P1-B9-2, P1-B9-3 Liu, Xiufang ...... P2-A13-2, P2-A13-6 Macleod, Charles ...... P2-C5-5 Mattesini, Paolo ...... P1-C2-6, P2-B9-1 Liu, Xueli ...... P2-C10-3, P2-C10-6 Macoskey, Jonathan ...... P1-A11-1 Matula, Thomas ...... 2B-5, P1-B4-6 Liu, Yanshan ...... P1-A11-3 Macutkevic, Jan ...... 5K-3 Mauldin, F. William ...... P1-A4-5 Liu, Yingzhe ...... P1-A2-2 Mäder, Kevin ...... 6D-1, P1-SPC-8 Mauldin, Jr., F. William ...... 7D-5 Liu, Yongjian ...... 2J-2, 4A-1 Maeda, Moe ...... 4A-3 Mauti, Barbara ...... 8F-1, 8G-3, P1-A13-1 Liu, Yu ...... 8E-1, P1-SPC-18 Maev, Roman ...... P2-C4-7 Mayer, Andreas ...... 5E-5, P2-A10-3, P2-B3-2 Liu, Yutong ...... 6F-3 Magenes, Giovanni ...... 4I-5, P2-B4-1 Mayer, Elena ...... 5E-5, P2-A10-3 Liu, Zenghui ...... 8H-6 Mahmoud, Ashraf ...... P2-B12-2 Mayer, Markus 5B-3, 5B-4, 5E-5, P2-A10-3, P2- Liu, Zhenli ...... P1-B14-4 Mai, Zhanhua ...... 6G-5, P2-B1-8 A10-4 Liu, Zhi ...... 7B-4, P1-C6-7 Maire, Jeremie ...... 7H-2 Mazda, Yuka ...... 8B-5 Liu, Zhipeng ...... 1G-4 Mairesse, Jerome ...... 4F-6 Mazingue, Thomas ...... P2-C12-2 Liu, Ziheng ...... P1-A8-1 Majidi, Negar ...... P2-A9-10 Maznev, Alexei ...... 7H-1 Lloyd, Harriet ...... 4B-3 Majima, Tsuyoshi ...... P1-C14-2 Mazzalai, Andrea ..... 8B-4, P2-B13-3, P2-C12-1 Lo, Wei Chen ...... 4B-4 Majka, Katarzyna ...... P1-B3-10 Mazzanti, Andrea ...... 8G-3 Lobo, Julio ...... 4E-4, P2-A5-1 Makarov, Oleg ...... P2-A2-8 Mc Murtry, Stefan ...... 6K-1 Loendersloot, Richard ...... 6C-4 Makino, Taiki ...... P1-C9-1 Mccormick, Matthew M...... 4D-3 Loew, Leslie M...... 2F-1, P2-B6-4 Makki, Yousuf ...... 2D-2 Mcdannold, Nathan ...... P2-A3-5 Lok, U Wai ...... 1F-3 Makkonen, Tapani ...... P2-A12-4 Mcfadden, Sally A...... 6I-2 Lombard, Olivier ...... P1-A10-1 Malic, Barbara ...... 8K-2 Mcgarry, Matthew ...... 7C-4 Lomello, Marc ...... P2-C12-2 Malla, Adarsha ...... 2F-1, 2I-3, P2-B6-4 Mcgookin, Euan ...... P1-C14-5 Long, Anne ...... P2-A4-7 Malmsjö, Malin ...... 2D-3 Mcgough, Robert J...... 7A-1, 7I-6 Long, Benjamin ...... 8K-1 Malocha, Donald ...... 5B-1, P2-C9-1 Mcgowan, Patrick ...... P1-B12-2 Long, James ...... 1K-1, P2-A3-10 Malounda, Dina ...... 1D-3, 3G-4, 5D-3 Mchale, Anthony ...... P1-C11-3 Long, Jiangying ...... P1-B3-5, P1-B4-3 Malyarenko, Eugene ...... P2-C4-7 Mchugh, Sean ...... 5E-2 Long, Nicholas J...... 2H-4, 2K-3, 2K-5, 3B-1 Mamou, Jonathan 6I-2, 7A-4, P1-A8-4, P1-B9-5, Mclain, Michael ...... 5C-6 Long, Will... 1K-1, 7D-6, P1-A2-6, P1-A7-1, P2- P1-C10-4 Mclaughlan, James R...... 2B-1, 4G-6, P1-C4-3 A3-10 Manabe, Kensuke...... P2-B2-3 Mcleod, Graeme ...... P1-A8-2 Long, Xiaojing ...... 8A-3, P1-A2-4 Manbachi, Amir ...... P2-C4-4 Mcnair, Helen ...... P1-A7-4 Looby, Kevin ...... 1J-2 Manduca, Armando ...... 3F-2, 3G-5, 4J-6, 4K-4 Mcnally, Patricia ...... 7D-6 Lopata, Richard 2D-4, 3H-6, 7C-2, P1-A6-4, P2- Maneas, Efthymios ...... 2C-5 Mcphillips, Rachael ...... P2-B8-10, P2-C1-3 B8-6 Manh, Tung ...... 8F-1 Mehrmohammadi, Mohammad .... 2F-5, 6I-3, P2- Lopez, Pauline ...... 3G-2 Mannaerts, Christophe K...... 3H-3, P1-A4-1 A2-2, P2-A5-4, P2-B7-2 Lopez-Ruiz, Elena ...... P1-C9-6 Mano, Isao...... P1-C9-5 Mei, Jiyang ...... P2-A11-4, P2-B12-3 Lorée, Hugo ...... P1-A5-1 Mansoori, Amirfereydoon ...... P1-C12-3 Mei, Shenchao ...... P2-C10-6 Louboutin, Mathias ...... P2-A2-1 Manzaneque, Tomas . 5F-1, 5F-5, 7K-5, P1-SPC- Meier, Dagmar ...... 6D-1, P1-SPC-8 Loupas, Thanasis ...... 3A-2 15 Meijer, Anton ...... 3K-1 Lovstakken, Lasse . 1A-3, 1A-4, 1C-3, 1C-5, 3H- Mao, Yang...... P1-A3-1, P1-A3-2, P2-B1-7 Meirza , Benjamin ...... 7C-6 2, 3I-4, 3I-6, 4G-1, P1-C7-1, P1-C7-4, Maoxun, Sun ...... P2-C7-8 Melandsø, Frank ...... P1-A8-6 P1-SPC-2, P2-A4-2, P2-B9-8 Marchal, Juan Antonio ...... P1-C9-6 Melchor, Juan ...... P1-C9-6 Lozar, Roger ...... 6K-3 Marchet, Pascal ...... P1-C12-7 Melki, Lea ...... 3 K - 4 Lu, Allen ...... 1I-4 Marcon, Norman ...... 2B-4 Melkonian, Jean-Michel ...... 2E-3 Lu, Jian-Yu ...... P1-B2-3 Maresca, David ..... 1D-2, 1D-3, 3G-4, 5D-3, P1- Melodelima, David ...... 8A-1 Lu, Ming-Chen ...... P2-B10-7 SPC-1, P2-C3-8 Melodia, Tommaso ...... 6H-3, P1-SPC-13 Lu, Mingzhu ...... P1-A11-3 Margolis, David ...... P1-C13-3 Mendes, Vanda ...... P1-A4-7 Lu, Minhua ...... P2-B1-1 Marigo Ferrer, Eloi ...... P2-B13-3 Meng, Long ... 2H-2, 2H-5, 2I-2, 6H-2, P1-A2-2, Lu, Ruochen ...... 5F-1, 5F-5, 7K-5, P1-SPC-15 Marino, Michael ...... P1-B14-7, P1-B14-9 P1-A2-7, P1-A3-2, P2-A13-2, P2-A13-6, Lu, Shukuan ...... 7G-2 Markovsky, Ivan ...... 8J-1 P2-B1-1, P2-B1-7, P2-C8-3 Lu, Yuan ...... 6K-3 Marra, Kayla ...... 4E-2 Meng, Xiaoqing ...... P2-B6-2 Lu, Yufeng ...... P1-B14-3 Martens, Esther ...... P1-C7-8 Menssen, Jan ...... 7B-3 Lu, Zixiao ...... P2-A9-12 Martin, Gilles ...... P2-C10-2 Meral, Can ...... P1-C6-8 Mercier, Hugo ...... 8K-2 Morningstar, Brandon ...... P1-A8-2 Neidrauer, Michael ...... P1-C13-3 Merricks, Elizabeth ...... 4E-6 Morosawa, Susume ...... P1-B7-1 Nelson, Rendon ...... P1-A7-1 Mertens, Luc ...... 1A-1 Morris, D. Cody ...... 4D-2, 4D-3, P1-SPC-6 Nenadic, Ivan ...... 4E-5, P1-B5-1 Mertin, Stefan ...... 8B-4 Morrison, Kyle ...... P1-C12-1, P2-C4-4 Nesbitt, Heather ...... P1-C11-3 Merugu, Srinivas ...... 5A-2, 5F-4, P2-C11-5, P2- Morse, Sophie V...... 2H-4 Neuschmelting, Volker ...... P2-C1-5 C11-6 Moss, Eric ...... 8K-4 Nevozhay, Dmitry ...... 3C-6 Mess, Werner ...... 7B-2 Mosse, Charles ...... 6A-5 Newsome, Isabel ...... 8I-3 Messas, Emmanuel ...... 3A-6, 7B-1, P1-A11-4 Mossuz, Cyril ...... 6A-1 Ng, Gary ...... P1-A9-3 Metzger, Thomas ...... P2-B13-1 Moubark, Asraf ...... 3K-2 Ngo, Olivia ...... P1-C13-3 Meulendijks, Nicole ...... 5H-4 Moulin, Emmanuel ...... P2-C1-2 Nguendon Kenhagho, Herve ...... 6C-2 Meynier, Cyril ...... 8C-5, 8K-6 Moutaouekkil, Mohammed P2-A11-1, P2-B12-4 Ngunjiri, Robert ...... 5G-5 Mezdrokhin, Ilia ...... 7J-6 Mozaffarzadeh, Moein ...... P2-A2-2 Nguyen, Man ...... 1I-2 Mi, Yuan ...... P2-C7-5 Mrowka, Jakub ...... 2E-2, P1-B13-11 Nguyen, Minh ...... P1-A2-5 Michael, Steffen ...... P2-A12-5 Mu, Peitian ...... 6A-2, P2-C4-8 Nguyen, Tiffany-Trang ...... 3C-4 Michaud, Jean-Francois ...... P1-A13-2 Mukherjee, Tamal ...... P2-B12-2 Nguyen, Tin-Quoc ...... 4G-3 Michetti, Giuseppe ...... 5F-6, 7K-4, P1-SPC-12 Mulholland, Anthony ...... 5I-2, 6B-2, P1-B13-2 Nguyen, Trong ...... P1-B10-1, P1-C10-1 Miette, Veronique ...... P1-A13-3, P1-A5-1 Muller, Alexandru ...... P2-C10-1 Nguyendinh, An ...... 5J-4, 8K-2 Mihajlovic, Nenad ...... P1-A9-3 Muller, Jan-Willem ...... P1-A7-2 Nguyen-Dinh, An ..... 5J-6, 7E-1, 8I-5, 8K-6, P1- Mikami, Yuriko ...... P1-C10-2 Muller, Marie .... 5G-4, P1-C11-8, P1-C9-10, P1- SPC-4, P2-A7-4 Milkowski, Andy ...... P1-B5-2 C9-8 Ni, Jun ...... 1G-4, 2F-4 Miller, Eric ...... P2-A3-5 Mulvana, Helen ...... 7F-1 Nichols, Timothy ...... 4E-6 Mills, Bradley ...... 4E-3 Munding, Chelsea ...... 8D-1, P1-SPC-16 Nicolas, Barbara ...... 1K-5, 4H-2, P1-C8-7 Mimura, Masakazu ...... P2-C9-3 Murakami, Mutsuaki ...... P2-A1-4 Nicolay, Pascal ..8H-5, P2-B12-8, P2-B13-1, P2- Minonzio, Jean-Gabriel ...... 5G-1, P1-C9-2 Murakami, Tatsuya ...... P1-A2-11 C10-4, P2-C11-1 Mirault, Tristan ...... 3A-6, 7B-1, P1-A11-4 Murakami, Yoshinobu ...... P1-B9-4 Nicoloiu, Alexandra ...... P2-C10-1 Mirea, Oana ...... 1A-2 Muralt, Paul ...... 8H-5, P2-C11-1 Nie, Luzhen ...... 4G-6, P1-C4-3 Mirea, Teona .... 5C-5, P2-A12-2, P2-A13-7, P2- Murashima, Kensuke ...... P2-A1-4 Nielsen, Michael Bachmann ...... 4G-3, 4G-5 B13-5, P2-B14-2 Murphy, Antony ...... P2-C1-3 Nielsen, Sophie ...... 4G-5 Misawa, Masaki ...... P1-C9-3 Myers, Kelly ...... 4H-5 Niemann, Evan ...... P1-C13-3 Mischi, Massimo . 3B-5, 3F-1, 3F-5, 3H-3, 6E-5, Nierat, Marie-Cécile ...... 1A-6 7A-2, P1-A4-1, P1-A7-10, P1-A9-1 Nightingale, Kathryn . 4D-2, 4D-3, 4D-6, P1-A2- Mishin, Sergey ...... P2-B14-4 N 6, P1-B5-4, P1-SPC-6 Mishra, Harshad ...... P2-B12-4 Na Songkhla, Sawit ...... 6G-6 Niimi, Nobuo ...... 6I-4 Miskinis, Rimantas ...... 5J-2 Nabavizadeh, Alireza ...... 4E-1, P1-A7-9 Nishimura, Atsushi ...... P2-A11-2 Mislati, Reem ...... 4E-2 Nabi, Ghulam ...... 4D-1 Nishino, Takahiro ...... P2-B2-2 Mitcham, Trevor ...... 3C-6 Nachev, Parashkev ...... 7E-5 Nitta, Naotaka ...... P1-C9-3 Mitrovic, Jovan ...... P1-C2-8 Nadkarni, Sumati ...... P1-C13-3 Nittayacharn, Pinunta ...... P1-A3-8 Mittelstein, David ...... 1D-3, 7F-6 Nagae, Ken-Ichi ...... 8I-1 Niu, Lili ... 2H-2, 2H-5, 2I-2, 6H-2, P1-A2-2, P2- Mitton, David ...... P1-C9-2 Nagakubo, Akira ...... 2E-1, P2-A1-4 A13-2, P2-A13-6, P2-C8-3 Miyake, Seren ...... P2-C2-2 Nagamune, Teruyuki ...... P1-B3-1 Niven, Russell ...... 5I-2 Miyamoto, Ryusuke ...... P2-A8-3 Nagaoka, Ryo 4A-3, P1-C6-2, P2-A3-6, P2-B10- Noda, Ryuta ...... P2-A1-7 Miyata, Masaya ...... P2-A1-2 11 Noguchi, Sachiyo ...... P1-C10-2 Miyazaki, Daijiro...... P2-A9-1 Nagasawa, Kanta ...... P1-A10-6 Noimark, Sacha ...... 2D-2, 6A-4, 6A-5, P2-A6-1 Mizoguchi, Takeru ...... P1-C10-4 Nagatani, Yoshiki ...... P1-C9-11, P1-C9-5 Noothout, Emile . 8G-1, 8G-5, 8K-3, P1-SPC-17, Mizuno, Jun ...... P2-A11-3 Nahas, Hassan ...... 1F-1, P1-A4-3 P2-B10-2 Mizuno, Takashi ...... P1-A12-3 Nair, Arun ...... 1J-4, P1-B2-2 Nordon, Alison ...... P1-B13-2 Mizuno, Takeshi ...... P2-C2-4 Nakagawa, Keiichi ...... P1-A2-11 Norli, Petter ...... P2-C7-1 Mizuno, Yosuke ...... P2-C2-1 Nakagawa, Ryo ...... 5B-2 Norman, Sumner ...... P2-C3-8 Mizutani, Koichi ...... P2-A8-3 Nakagawa, Shoma ...... 1H-5 Norton, Joseph ...... P2-B8-10 Mo, Fu ...... P1-B4-4 Nakagawa, Yutaka ...... P2-A8-6 Nourmahnad, Atousa ...... 1D-3 Mo, Runyang ...... P2-C6-2 Nakamoto, Takamichi ...... 6G-6 Novell, Anthony ...... 2J-6, P1-A4-7 Mochizuki, Takashi ...... P2-B8-7 Nakamura, Hiroyuki ...... P2-A11-2 Nowicki, Andrzej ...... P1-B3-10, P2-B5-7 Moesner, Lars ...... P1-A12-1 Nakamura, Kentaro ...... P2-C2-1 Nozawa, Shohei ...... P1-C14-3 Mofid, Yassine ...... P1-C5-1, P1-C5-2 Nakamura, Nobutomo ...... P2-A1-5, P2-A1-6 Numano, Tomokazu ...... P1-C9-3 Moghimirad, Elahe ...... P1-A4-6 Nakao, Shogo ...... P1-B13-10 Nunome, Soichiro ...... P1-C6-2 Mohajer, Soheil ...... P1-A4-4 Nakao, Takeshi ...... 6J-3 Nuoke, Wei ...... P2-C1-8 Mohamad, Medhat ...... 6C-3 Nakatsuma, Kei ...... P2-B10-8 Nwabunwanne, Solumtochukwu ...... 4E-2 Mohammad, Mustafa ...... P2-B7-1 Nakayama, Yuta ...... P1-A12-3 Nybom, Göran ...... P2-C4-9 Mohtashami, Abbas ...... 2E-6 Namita, Takeshi ...... P2-A5-7 Nyrnes, Siri Ann ...... 1A-4, P2-A4-2 Molchanov, Vladimir ...... 2G-3, P2-A2-8 Nandi, Seema ...... P1-C11-8 Moldaschl, Thomas ...... P2-B13-1 Naoto, Takeuchi ...... 7K-6 Moldovan, Alexandru ...... P1-C13-4 Nascimento De Oliveira, Mayara ...... P2-B5-9 O Møller-Sørensen, Hasse ...... 4G-3 Nasibulin, Albert ...... P2-A9-6 Ober, Rebecca ...... 3J-3 Montauban, Emmanuel ...... 8I-5 Nasr, Remie...... P1-C8-6 O'Brien, Parker ...... 7G-4, P1-A7-6 Montero, Maria Luisa ...... 6I-1 Nastase, Claudia ...... P2-C10-1 O'Donnell, Matthew 1H-6, 1I-4, 2B-5, 2E-2, 3C- Montgomery, Stephanie ...... 4E-6 Näthke, Inke ...... 7F-1, P2-B8-10 2, P1-B13-11 Moon, Ju-Young ...... 8D-2 Nauber, Richard ...... 6D-1, 6D-4, P1-SPC-8 Oelze, Michael .. P1-B10-1, P1-B10-6, P1-C10-1 Moore, Christopher ...... P1-B6-4 Nauleau, Pierre ...... 3K-4, P1-B7-8 Ogawa, Takuya ...... P1-B9-3 Moore, Michael 2B-6, 2C-6, 5G-5, P1-A3-4, P2- Naumenko, Natalya .... 2G-3, P2-C10-4, P2-C9-5 Ogi, Hirotsugu ... 2E-1, 7K-6, P2-A1-4, P2-A1-5, B7-6 Navab, Nassir ...... P1-B7-7, P1-C2-2 P2-A1-6 Mørch, Yrr ...... 4 C - 3 Navarro Urrios, Daniel ...... 7H-2 Oguri, Takuma ...... P1-C10-2 Morgan, Matthew ...... 3D-1, P2-A3-2 Navarro, Violeta ...... 2E-6 Oh, Sunyoung ...... P1-A7-5 Mori, Shohei .. P1-A10-6, P1-B7-1, P1-B7-4, P1- Nayak, Rohit ...... 4K-5 Oh, Youngjo ...... P2-A3-1 C10-6, P2-B10-3 Nazeri, Arash ...... 2H-3, 4A-5 Ohara, Yoshikazu ...... 5K-2 Morisaka, Keisuke ...... P2-C12-4 N'D 4I-5 Ohashi, Yuji ...... P2-C12-3 Morishita, Takeshi ...... P1-C14-1, P2-C6-5 N'Djin, Apoutou . 2I-4, 2I-5, 2I-6, 8A-6, P1-A2-9 Ohba, Shigeo ...... P2-B10-3 Morita, Takeshi ...... 8B-1 Ndong, Christian ...... 3C-5 Ohodnicki, Paul ...... 6G-3 Moriyasu, Fuminori ...... 1B-1 Nedospasov, Ilya ...... P2-B3-2 Oikawa, Rei ...... P2-B14-3 Morizzo, Carmela ...... 3A-1 Negishi, Shota ...... P1-A2-8 Oitate, Riki ...... P1-B3-8 Okada, Nagaya ...... P1-C14-1 Patel, Mihir ...... P2-A9-7, P2-A9-8, P2-C1-6 Pouliopoulos, Antonios 1G-2, 2H-4, 7G-3, 7G-6, Okubo, Kan ...... P2-B1-2 Patel, Pinal ...... 5C-6 P1-B11-2 Okumura, Shigeaki ...... P1-C9-11 Pattyn, Alexander...... P2-A5-4 Pourtaherian, Arash ...... P1-A9-3 Oldenburg, Amy ...... P1-B8-5 Pätzold, Olf ...... 6D-1, P1-SPC-8 Pozzo, Lilo ...... 2B-5, 3C-2 O'Leary, Richard ...... 6B-2, 6B-3 Paulmurugan, Ramasamy ...... 2J-3 Prada, Claire ...... P2-C1-2 Olesen, Jacob ...... 4G-5 Paulus, Yannis ...... 7D-1, 7F-3 Pradhan, Pallab ...... 2B-3 Olivares, Jimena 5C-5, P2-A12-2, P2-A13-7, P2- Pavan, Theo...... 7C-6 Prawer, Steven ...... 6H-5 B13-5, P2-B14-2 Payen, Thomas ...... 3G-4, 4E-1 Prentice, Paul ...... P2-C1-3 Olive, Kenneth P...... 4E-1 Pedreira, Olivier ...... 3A-6 Preston, Chet ...... 1G-1, P1-B8-2 Olszewski, Robert ...... P1-B3-10, P2-B5-7 Pedrosa, João 1A-2, 3H-5, 3J-1, 3J-4, 3K-3, 4H- Presz, Jr., Walter ...... 5D-4 Ommen, Martin Lind ...... P2-C3-9 3, P1-A6-3 Price, Adam ...... 8K-1 Omori, Tatsuya 5E-4, P1-SPC-14, P2-B11-1, P2- Peirlinck, Mathias ...... 1A-1 Prieto, Juan ...... P1-B6-4 B11-3 Pelenis, Donatas ...... P1-A13-8 Prieur, Fabrice ...... P2-C7-1 Omura, Masaaki ...... P1-B9-3 Pelivanov, Ivan 1H-6, 1I-4, 2B-5, 2E-2, P1-B13- Pritchard, William ...... P1-C6-8 Ono, Takahito ...... P2-A12-3 11 Prodeus, Aaron ...... 4C-1 Ono, Teruo ...... 2 E - 1 Pellow, Carly ...... 1E-2, 4B-2 Provost, Jean ...... 3J-5, 3J-6, 4F-4, P1-B8-3 Ono, Yuu ...... P1-C9-7 Peng, Bo ...... P1-A5-4, P1-C6-5 Przedborski, Serge ...... 2J-1, 2J-4 Opacic, Tatjana ...... P2-C3-6 Peng, Jue ...... P1-B12-6, P2-B10-1 Ptasznik, Stanislaw ...... P2-C1-9 Oppenheim, Irving ...... 5H-6 Peng, Yuhong ...... 7G-5 Puers, Robert ...... P1-A12-2 Oraiqat, Ibrahim ...... 1G-4 Pennec, Yan ...... 7H-4, 7H-5 Puke, Liene ...... 3 G - 1 Oralkan, Ömer ...... 8C-3, 8F-5 Pensala, Tuomas ...... 8B-4, P2-A12-4 Pupyrev, Pavel ...... P2-B3-2 Orlowska, Marta ...... 3J-1, 3J-4, P1-A6-3 Peralta, Laura ...... 2E-5, 6A-3 Pyo, Seonghun ...... P2-C6-1, P2-C6-4 Orooji, Mahdi ...... P2-A2-2 Peran, Macarena ...... P1-C9-6 Orset, Cyrille ...... P2-C3-1 Perdios, Dimitris ...3I-5, 7I-2, 8J-2, P1-B2-2, P2- Ortega, Alejandra ...... 4I-4 B8-5 Q Ortiz, Michael ...... 7F-6 Perea-Robles, Rafael ...... P2-A10-1, P2-B13-4 Qian, Linxue ...... 3F-3 Oruklu, Erdal ...... P1-B14-7, P1-B14-9 Pereira Da Cunha, Mauricio ...... 5A-6, 5J-1, 6J-1 Qian, Ming ...... 8A-3 Osborn, Thomas ...... P1-C5-4 Pereira, Rebeca ...... 4E-5, 7A-1 Qian, Xuejun ...... P1-B12-4 O'Shea, Tuathan ...... P1-A7-4 Perera, Reshani ...... 1E-3, 1E-4 Qian, Zhenghua ...... P2-C7-2 Osman, Ahmad ...... 5K-6 Pérez-Liva, Mailyn ...... 3J-6 Qiao, Xiaoyang ...... 3D-3, 7E-6 Ossant, Frederic ...... P1-C5-1, P1-C5-2 Perier, Magali ...... 2I-4 Qiao, Yangzi ...... 7G-5 Ostrovsky, Lev ...... P1-B4-6 Pernot, Mathieu .. 1A-1, 1A-5, 3A-6, 3G-1, 3G-2, Qin, Dui ...... P1-B3-6 Østvik, Andreas ... 3H-2, 3I-4, 3I-6, P1-C7-1, P1- 3J-5, 4F-1, 4F-4, 4F-6, 4J-4, 7B-1, 7E-1, Qin, Feng ...... P1-A12-8 C7-4 7E-4, 7G-1, 8I-5, P1-A11-4, P1-B8-3, Qin, Peng ...... 4C-6, P1-B3-3, P1-B3-7 Osumi, Ayumu ...... P1-B13-8 P1-SPC-4 Qin, Yu ...... 7D-1, 7F-3 Ota, Masato ...... P1-A8-1 Perren-Landis, Fabienne ...... 3G-1, 4J-4, 4K-2 Qiu, Lanyan ...... 3F-3 Otsuka, Takuya ...... P1-B3-8 Perrot, Vincent .... 4H-2, 4J-1, P2-A4-7, P2-B9-8 Qiu, Luyan ...... P2-B11-1 Otto, Thomas ...... P2-C11-4 Perrotin, Franck ...... P1-A4-7, P1-B6-8 Qiu, Tingting ...... P1-B5-3 Ourselin, Sebastien ...... 2C-5 Pertijs, Michiel . 6D-2, 8G-1, 8G-5, P1-C2-4, P1- Qiu, Weibao 6A-2, 8A-3, 8D-4, 8D-5, 8D-6, P1- Ouzir, Nora ...... P1-C7-7 SPC-17, P2-B10-6, P2-C8-4 A11-6, P1-A2-1, P1-A2-4, P1-B12-1, P1- Ovize, Michel ...... 2I-6 Petrescu, Aniela Monica .... 3J-1, 3J-4, 4H-3, P1- C2-11, P2-C4-6, P2-C4-8 Ozaki, Tomohiro ...... P2-A8-2 A6-3 Qiu, Yi ...... 2B-4 Ozaki, Yasuko ...... 7K-6 Petrusca, Lorena ... 2I-6, 3D-6, P1-C2-6, P2-B9-1 Qiu, Yongqiang .6A-2, 8F-3, P2-B8-10, P2-C1-3 Ozgun, Kathryn ...... 4K-1, P2-B5-2 Petterson, Niels ...... 7C-2, P1-A6-4 Qiu, Zhen ...... 6B-2, 6B-3 Petti, Allegra A...... 2H-3 Qiu, Zhihai ...... P1-A2-3, P1-A2-7, P1-B3-4, P1- Pfahl, V ...... P1-B13-7 C12-4, P2-B6-3 P Phani, M Kalyan ...... P1-B13-7 Quaglia, Fabio ...... 8G-3 Pahr, Dieter ...... 2E-5 Pi, Zhaoke ...... P1-B11-6 Queirós, Sandro ...... 3H-5, 3K-3 Pakdaman Zangabad, Reza ...... P2-B10-2 Pialat, Jean-Baptiste ...... P1-C9-2 Quesson, Benoit ...... 2E-6 Palmeri, Mark .. 4D-2, 4D-3, 4D-6, P1-A6-2, P1- Piazza, Gianluca ...... 5F-2, P2-B12-2 Quétin, Philippe ...... 7E-3 B5-4, P1-C5-3, P1-SPC-6 Piccardi, Filippo ...... 8K-3 Quiaoit, Karina ...... 6E-3 Palombo, Carlo ...... 3A-1 Piepenbrock, Marion ...... 3F-4, P2-C3-6 Quirk, Ian...... P1-C13-5 Pan, Hanjie ...... 7I-2 Pierce, Gareth ...... P2-C5-5 Pan, Min ...... P1-B11-4 Pierre, Guillaume ...... 5H-4 R Pan, Yongydong ...... P2-B2-1 Pigeat, Philippe ...... P2-A11-1 Pan, Zonghui ...... P1-C6-7 Pinrod, Visarute ...... 5A-1, 6K-2 R, Anand ...... 8J-3 Pandey, Rick ...... 5K-6 Pinto, Joseph ...... 6E-4 Ra, Jong Beom ...... P1-C7-6 Pang, Kuin ...... P1-B4-2 Pinton, Gianmarco . 1K-1, 3G-6, 5G-3, P1-A2-6, Rabotti, Chiara ...... 7A-2, P1-A7-10 Pang, Wei ...... P1-A12-6, P2-C11-3 P1-A7-7, P1-B6-1, P1-B6-2, P2-B5-5 Rabut, Claire ...... 3G-2, 7E-1, 7E-4, P1-SPC-4 Pang, Xiangnan ...... 7K-3 Piras, Daniele ...... 2E-6, 6D-3 Radeljic, Nikola ...... 4F-2 Pang, Xuming ...... P1-B12-1 Pirouz, Amirabbas ...... 8E-3, P1-SPC-5 Radu, Ionut ...... 6J-4 Papadacci, Clément ...... 1A-5, 3J-5, 4F-4 Pirro, Michele ...... 5F-6 Raguin, Laetitia ...... 7H-3 Papadopoulou, Virginie ...... P2-A3-3 Pitre-Champagnat, Stéphanie ...... P1-A7-11 Rahal, Line ...... 3 G - 2 Papakonstantinou, Ioannis ...... 5J-3, 6A-5 Plessky, Victor 5A-3, 5E-2, 5E-3, 5J-2, P2-A10- Rahim Sobhani, Mohammad ...... P2-A9-10 Paquit, Melvin ...... P2-C10-2 2 Rahmim, Arman ...... P1-C7-12, P2-B6-4 Parajuli, Nripesh ...... 1I-4 Pogue, Brian ...... 4E-2 Rajagopal, Srinath ...... P2-A2-3 Paridar, Roya ...... P2-A2-2 Polack, Johan ...... P1-B10-6 Rajora, Maneesha ...... 4B-2 Park, Bum Hoon ...... P2-B1-4 Polascik, Thomas J...... 4D-2, 4D-3, P1-SPC-6 Rakhit, Roby ...... 6A-5 Park, Haekyu ...... P2-B1-3 Polewczyk, Vincent ...... P2-B12-4 Ramalli, Alessandro 3A-1, 4I-5, 7D-4, 8E-2, 8G- Park, Jeongwoo ...... P2-B1-9 Polichetti, Maxime ...... 1K-5, 4H-2 3, 8K-3, P1-B7-2, P2-B4-1, P2-B4-2, P2- Park, Kwan Kyu ...... P1-B13-3, P2-B1-4 Pollard, Robert ...... P2-C1-3 B4-3, P2-B4-4, P2-B9-1, P2-C4-2 Park, Sungho ...... P2-C3-7 Pomper, Martin G...... 2I-3 Ramamurthi, Gopal ...... 1E-4 Parol, Marzena ...... P2-B5-7 Poon, Ian ...... 6E-3 Ramaz, François ...... 2C-3 Parsapour, Fazel ...... 8H-5, P2-C11-1 Pop, Flavius .. 6H-3, 7K-4, P1-SPC-12, P1-SPC- Ramezani, Mehrdad ...... P2-C7-3 Pashchenko, Vladimir ...... 8H-5, P2-C11-1 13 Ramiandrisoa, Donatien ...... 5G-1 Passi, Stefano ...... 8G-3 Porée, Jonathan 3A-6, 3J-6, 4F-1, 7E-1, 8I-5, P1- Ran, Dan ...... P1-A6-5 Patat, Frédéric ...... P1-A4-7, P1-B6-8 SPC-4 Ranefjärd, Simon ...... P1-B14-2 Patel, Arpit ...... 4B-5 Postema, Arnoud W...... 3H-3 Rao, Akshay ...... P1-A11-2 Patel, Harshal ...... 6 E - 1 Poulin-Vittrant, Guylaine ...... P2-A7-4 Rao, Ramesh ...... P1-B11-1 Rashid, M. Wasequr ...... 8E-3, P1-SPC-5 Rasmussen, Morten Fischer ...... 8C-2 S Schou, Mikkel ...... P2-B10-4, P2-C3-9 Raum, Kay ...... 2E-5, 5G-4, 8J-4 Schretter, Colas ...... 8J-1 Saaid, Hicham ...... 4F-2 Rauter, Georg ...... 6C-2 Schreuder, Floris ...... 7B-2 Saavedra, Ana ...... P1-B9-8 Ravi, Adarsh ...... 5H-3 Schroeder, Tim ...... P2-C11-4 Sabbadini, Alberico ...... P1-A5-5 Razansky, Daniel ...... P2-C1-5 Schultz, Susan ...... 3I-1, P2-B7-1 Sacchi, Mauricio D...... P1-C8-2 Reger, Robert ...... 6G-4 Schwab, Hans-Martin ...... 1K-4 Sadeghianmarnani, Hamed ...... 2E-6 Reinhardt, Alexandre ...... 6J-4 Sciolla, Bruno ...... 7E-3 Sadeghi-Naini, Ali ...... 6E-2 Reisinger, Andreas ...... 2E-5 Sebastian, Joseph ...... 5G-5 Sadeghpour, Sina ...... P1-A12-2 Reiss, Michael ...... P2-C1-5 Secomski, Wojciech ...... P1-B3-10, P2-B5-7 Sadiq, Muhammad ...... 8H-4, P1-C13-5 Remenieras, Jean-Pierre . 4D-4, P1-B6-7, P1-B6- Seddon, James ...... 5J-3 Sadler, Jeffrey ...... P2-C4-7 8, P2-C1-1 Sedlák, Petr ...... P2-C7-4 Saeidi, Nooshin ...... P2-C11-4 Remiens, Denis ...... P1-A12-4 Segers, Patrick 1A-1, 4G-1, P1-A6-2, P1-SPC-2, Saeki, Masaya ...... P1-C9-5 Remme, Espen ...... P1-B7-3 P2-A4-2 Sælemsminde, Magnus ...... P2-A4-2 Ren, Jun-Yan ...... P1-A12-4 Segovia-Fernandez, Jeronimo ...... P2-C11-2 Safari, Ahmad ...... P1-B12-3 Ren, Wei ...... 8H-6 Sehgal, Chandra ...... 3I-1, P2-B7-1 Saharkhiz, Niloufar ...... 4E-1, P1-A7-9 Renaud, Cyril C...... 5J-3 Seifabadi, Reza ...... P1-C7-12 Saijo, Yoshifumi .. 4A-2, 4A-3, 5G-6, P2-B10-11 Renaud, Guillaume ..... 1D-2, P1-C9-4, P1-SPC-1 Seiner, Hanus ...... P2-C7-4 Saito, Katsuya ...... P1-A3-5 Restaino, Stephen ...... P2-C4-4 Seki, Masakazu ...... P1-B3-8 Saito, Takumi ...... P2-B10-3 Reusch, Markus ...... 6K-3 Selladurai, Sathiyamoorthy ...... P1-A5-3 Sakaki, Hiroki ...... P1-A10-6 Rezvanitabar, Ahmad ...... 8E-3, P1-SPC-5 Selvam, Karman G. M...... P2-C11-4 Sakuma, Ichiro ...... P1-A2-9, P1-B3-1 Ricci, Stefano ...... P1-B2-2 Selzo, Mallory ...... P1-B5-2, P1-B6-4 Salazar, Claudia ...... 6E-4 Richard, Cédric ...... 8J-5 Semper, Sebastian ...... 5K-4 Salcudean, Septimiu E...... 4E-4 Richard, Grace ...... 7J-3 Semyonov, Alexander ...... P2-A9-6, P2-B3-1 Salcudean, Tim ...... P2-A5-1 Richards, Daniel ...... 8B-2 Sen, Indrani ...... 7 C - 3 Salles, Sebastien ...... 1A-3, 1A-4, 1C-5, P2-B9-8 Riehle, Mathis O...... 5D-5, P2-B1-6 Sénégond, Nicolas ...... 8A-6, 8C-5, P1-A13-3 Salte, Ivar Mjåland ...... 3H-2 Riemer, Kai ...... 3A-5, 3B-3, 3G-3, P2-C3-4 Seno, Norihisa ...... P2-C2-2 Salut, Roland ...... 7H-3 Rinaldi, Matteo ...... 5D-1, 5F-6, 6H-3, 7K-4, P1- Seo, Youngsoo ...... P2-C5-2 Samadian, Sohrab ...... 5E-2 SPC-12, P1-SPC-13 Sermesant, Maxime ...... P1-A6-1 Samikannu, Ravi ...... P2-B10-10 Rindal, Ole Marius Hoel ...... P1-C3-2 Sethuraman, Shriram ...... P1-C6-8 Sammali, Federica ...... 7A-2, P1-A7-10 Roa, C. Felipe ...... 2B-4 Seward, Shelly ...... 2F-5 Samset, Eigil ...... P1-B7-3 Robbins, Tom S...... 5J-3 Shabanimotlagh, Maysam ...... P1-C2-4 Samson, Christopher ...... 8K-5, P1-C2-1 Robert, Sylvie ...... P2-A11-1 Shah, Anant ...... 2K-3, 2K-5, 3B-1 Samulionis, Vytautas ...... 5K-3 Robin, Justine ...... 3D-2, 3G-1, 4J-4, 7G-1 Shahin, Ahmad ...... P1-C8-6 Samwer, K...... P1-B13-7 Robins, Thomas ...... 7E-2 Shahriari, Shahrokh ...... 4G-2 Sanchez, Marine ...... 8A-1 Rochus, Veronique ...... P2-C4-5 Shamdasani, Vijay ...... 1I-2, P1-A5-2 Sandrin, Laurent ...... P1-A13-3, P1-A5-1 Rodriguez, Paul ...... 4K-6 Shang, Ruibo ...... 2C-2 Sang, Pilgyu ...... P2-A5-3 Rodriguez-Molares, Alfonso 1C-2, 3E-2, P1-B2- Shang, Shaoqiang ...... 7F-4 Sang, Yuchao ...... 3D-3, 7E-6 2, P1-C3-2, P2-A3-4 Shangguan, Hanyue ...... 3F-6 Sangrador, Jesus ...... P2-A12-2, P2-B13-5 Roffino, Sandrine ...... P1-B9-1 Shanmugam, Priyadarshini ...... P1-A13-2 Saniie, Jafar . 6F-1, P1-B14-3, P1-B14-5, P2-A8- Roh, Yongrae ...... P2-A9-9, P2-C6-1, P2-C6-4 Shao, Jinhua ...... 7A-6 5, P2-A8-7 Rohling, Robert ...... 4E-4 Shao, Yanan ...... P2-A5-1 Sankar, Prabagar ...... P1-C13-3 Rohrbach, Daniel ...... 6E-1, P1-B9-5 Shapiro, Mikhail . 1D-2, 1D-3, 3G-4, 5D-3, 7F-6, Sannachi, Lakshmanan ...... 6E-2 Römer, Florian ...... 5K-4, 5K-6 P1-SPC-1, P2-C3-8 Sano, Masaaki ...... P2-A7-2 Rommetveit, Tarjei ...... P1-B13-4 Shapoori, Kiyanoosh ...... P2-C4-7 Santibanez, Francisco ...... P2-B5-5 Ron, Yuval ...... P1-C7-3 Sharan, Shashin ...... P2-A2-1 Santos, Paulo ...... 2G-1 Rong, Ning ...... 4C-5 Shashikumar, Niranjana ...... 4D-6 Santos, Pedro ... 3J-1, 3J-4, 4H-3, 4I-4, P1-A6-3, Rongieras, Frederic ...... P1-C9-2 Shealy, Jeffrey ...... 5C-6 P1-B2-2, P1-B7-2, P2-B4-2 Rosado-Mendez, Ivan ...... P1-B10-3 Sheik, Rafi ...... 2D-3 Santoso, Andrew ...... 7A-3 Rosenberg, Jarrett ...... 2K-4, P1-C10-3 Shen, Che-Chou ..... P1-A4-2, P1-B2-4, P2-A3-7 Sapozhnikov, Oleg ...... 6A-6, 7J-6, P1-B4-6 Rosenzweig, Stephen ...... P1-B5-2 Shen, Ya ...... 5C-6 Sarawat, Srishti ...... P1-B8-4 Rosinski, Bogdan...... 5J-4, 5J-6, 8I-5 Shen, Yingying ...... 1F-2 Saris, Anne ...... 7B-3 Rosnitskiy, Pavel ...... 6A-6, 7J-6 Shen, Yuanyuan ...... P1-B11-6 Sathiyamoorthy, Krishnan ...... 1E-5 Ross-Johnsrud, Benjamin ...... 5D-4 Shenderova, Olga ...... 5K-3 Sato, Kanta ...... 4A-2 Rostocki, Aleksander ...... P2-C1-9 Sheng, Zonghai ...... P1-C11-2 Sato, Masakazu ...... P1-A8-5 Rottenberg, Xavier ...... P2-C4-5 Shi, Fan ...... 5K-1 Sato, Naoto ...... 2C-5 Rouffaud, Rémi ...... P1-C12-7 Shi, Jianmin ...... 4C-6, P1-B3-7 Sato, Takayuki ...... P1-A10-5 Roux, Emmanuel ...... P1-C2-6, P2-B9-1 Shi, Ruchuan ...... P2-B12-6 Satoh, Yoshio ...... 5E-1 Rouyer, Julien ...... P1-A10-1 Shi, William ...... P1-C6-8 Sauvage, Jack ...... 4F-1, 7E-1, 8I-5, P1-SPC-4 Rouze, Ned C...... 4D-2, P1-SPC-6 Shi, Yirou ...... P2-B11-4 Savoia, Alessandro Stuart 8F-1, 8G-3, P1-A13-1, Rowland, Ethan ...... 3A-5, 3G-3, P2-C3-4 Shiba, Yasunari ...... P2-C9-4 P2-A7-3 Rowsell, Corwyn ...... 2B-4 Shibasaki, Yoshikazu ...... P1-B3-1 Savord, Bernard ...... 1I-2 Roy Cardinal, Marie-Hélène ...... 6I-5 Shido, Shogo ...... P1-A2-11 Sawyer, Daniel ...... 1D-2, P1-SPC-1 Roy, Krishnedu ...... 2B-3 Shigeta, Yusuke ...... 2C-5 Sayseng, Vincent ...... 3J-3 Roy, Manish ...... 5I-1 Shiiba, Michihisa ...... P1-C14-1 Sboros, Vassilis ...... 7J-5 Ruan, Jingping ...... P2-B12-6 Shiina, Tsuyoshi ...... P2-A5-7 Scaringella, Monica ...... P1-A13-1 Rubin, Daniel ...... 2K-4 Shim, Hayeong ...... P2-A9-9, P2-C6-1 Schaart, Dennis R...... 2G-5 Rubin, Jonathan ...... 2C-4, 2F-4, P2-C3-4 Shimidzu, Takahiro ... 8B-5, P1-C14-2, P2-A1-1, Schiek, Maximilian ...... P2-B13-1 Rubin, Joshua B...... 2J-2 P2-A1-7 Schinkel, Christiaan ...... 4F-2 Rui, Xiaobo ...... 5 J - 5 Shimizu, Itaru ...... P2-C2-4 Schiopu, Elena ...... 2F-3 Ruile, Werner . 5B-4, 5E-5, P2-A10-3, P2-A10-4 Shimizu, Naoki ...... P1-A12-3 Schlunk, Siegfried ...... 3E-3, 4H-4 Rule, Andrew ...... 6I-1 Shimizu, Tsuyoshi ...... P2-A7-2, P2-C2-5 Schmidt, Hagen ...... 5A-4, P2-B12-7 Rupitsch, Stefan J...... P1-C11-4 Shimko, Aleksey ...... 5J-2, P2-A10-2 Schmitz, Georg ... 1G-5, 1K-4, 3E-4, 3E-5, 3F-4, Rus, Guillermo ...... P1-C9-6 Shimokawa, Hiroaki ...... P1-B7-1 P1-B8-6, P2-C3-6 Rutten, Joost ...... 3K-1 Shirkovskiy, Pavel ...... P1-A5-6 Schmitz-Kempen, Thorsten ...... 8B-4 Rutten, Marcel ...... 2D-4, P1-A6-4 Shore, Angela C...... 3A-1 Schneewind, Sarah ...... 3C-2 Ruyack, Alexander ...... 6K-2 Shoro, Takuya ...... P2-A2-6 Schneider, Caitlin...... 4E-4 Rye Berg, Erik Andreas ...... 1C-2, 4F-5 Shorokhov, Ivan ...... 6B-6, P1-B12-5 Schneider, Johannes ...... 2E-5 Ryu, Seon Young ...... 2F-6 Shrout, Thomas ...... 8D-5, 8H-1 Schoen Jr., Scott ...... 4B-5 Shu, Jasmine ...... 3B-2 Schoot, Benedictus ...... 7A-2, P1-A7-10 Shung, K. Kirk ...... 8D-5, 8D-6, P1-B12-3 Springeling, Geert ...... 4I-1 Tabaru, Marie ...... P2-A9-11 Siddiqu, Adeel ...... 6I-3 Srinivas, Managla ...... 2B-2 Tabassian, Mahdi ...... 3I-2, P1-C7-11 Siddiqui, Javed ...... P2-B7-5 Staal, Alexander ...... 2B-2 Tabrizian, Roozbeh ...... P2-C7-3 Sierchio, Justin ...... P1-B8-5 Stahli, Patrick ...... P1-A7-2 Tachibana, Katsuro ...... 1B-3 Sierra, Carlos ...... 2J-4 Stamp, Melanie ...... 6H-5 Tagawa, Norio ...... P1-A12-7, P1-A8-5 Silva, Victor ...... P2-A12-5 Stan, George ...... P2-C10-1 Tai, Yuan-Chuan ...... 2J-2 Silver, Eric S...... 3K-4 Stanziola, Antonio ... 2K-3, 2K-5, 3B-1, P2-A3-3 Taieb, Liran ...... P1-B4-7 Silverman, Ronald ...... 4B-3 Stedman, Quintin ...... 8C-2 Tak, Jin-Pil ...... P1-B8-4 Simatsu, Takehito ...... 6J-2 Stehr, Uwe...... P2-A12-5 Takagi, Ryo ...... P1-A11-9 Similowski, Thomas ...... 1A-6 Stelwagen, Uilke ...... 6D-3 Takagi, Shu ...... P1-A2-11, P1-C7-10 Simmons, Craig ...... 5G-2 Stephens, Douglas N. .. 8E-1, P1-C12-1, P1-SPC- Takai, Tsutomu ...... 6J-3 Simon, Alverède ...... 7G-1 18 Takamine, Yuichi ...... 6J-3 Simon, Emmanuel ...... P1-B6-7, P1-B6-8 Stewart, Fraser ...... 7F-1, P2-B8-10 Takanashi, Kyouichi ...... P1-B9-6 Simon, Gergely ...... 5D-5, P2-B1-6 Stickeler, Elmar ...... P2-C3-6 Takaoka, Shunto ...... P2-A5-7 Simpson, Eric ...... 8A-4, 8K-5, P1-C2-1 Stolyen, Asbjorn ...... 1C-5 Takasaki, Masaya ...... P2-C2-4 Simson, Walter ...... P1-C2-2 Stone, Brandon ...... P1-B12-2 Takayanagi, Shinji 2G-4, 8B-3, P1-C9-1, P2-A1- Singh, Navab .. 5A-2, 5F-4, P2-C11-5, P2-C11-6 Stoylen, Asbjorn ...... 1A-3 2, P2-C12-4 Singh, Rahul ...... P1-B11-1 Strachinaru, Mihai ...... 3J-2, P1-B7-5 Takemura, Kenjiro ...... P2-B12-3 Sinha, Bikash ...... P2-A9-7, P2-A9-8, P2-C1-6 Straka, Ladislav ...... P2-C7-4 Takeuchi, Shinichi ...... P1-C14-1, P2-C6-5 Sinquin, Yann ...... 6J-4 Strauss, Bradley ...... 7F-5 Takigawa , Kazuhiro ...... 5B-2 Sinusas, Albert J...... 1I-4 Streque, Jérémy 5A-5, 6K-1, P2-A11-1, P2-C12- Talberg, Andreas S...... P1-B13-4 Sit, Arthur J...... P1-B6-3, P2-B5-6 2 Talbi, Abdelkrim ...... P2-B12-4 Sittner, Petr ...... P2-C7-4 Streutker, Catherine ...... 2B-4 Tamura, Hiroki ...... 2E-1 Sjoerdsma, Marloes ...... P2-B8-6 Stride, Eleanor ...... 1E-1, P1-C11-3 Tamura, Kazuki ..... 7A-4, P1-B9-2, P1-B9-3, P1- Sjöstrand, Sandra ...... 7C-6, P2-C4-9 Strohm, Eric ...... 2C-6, 5G-2, 5G-5, P2-B7-6 B9-5, P1-C10-4, P1-C10-7 Skilton, Michael ...... P1-B7-7 Strydis, Christos ...... 4J-5, P2-B9-6 Tan, Chin Yaw ...... 8I-4 Skliar, Mikhail ...... 5I-1 Stuart, Matthias B. P1-B2-2, P2-B10-4, P2-B5-1, Tanabe, Masayuki ...... P2-B10-8 Slagle, Connor ...... P1-C4-5 P2-C3-5 Tanaka, Shuji ...... 5F-3, 6J-2 Slawinski, Piotr ...... P2-B8-10 Stull, Nicholas ...... 6C-5 Tanaka, Tomohiko ...... P2-B5-4 Sledzinska, Marianna ...... 7H-2 Sturtevant, Blake ...... 8K-4 Tang, Chieh-Ju ...... P2-B8-1 Smagin, Nikolay ...... P1-A12-4 Styner, Martin ...... P1-B6-4 Tang, Guo ...... P2-B9-2 Smirnov, Dmitrij ...... 5J-2 Su, Min ...... 8D-4, 8D-6, P1-A2-1, P1-A3-2, P1- Tang, Hu ...... P1-B12-6, P2-B10-1 Smirnow, Michael ...... 5E-5 B12-1, P2-B1-7 Tang, Jian ...... P1-A9-4 Smistad, Erik . 3H-2, 3I-4, 3I-6, P1-C7-1, P1-C7- Su, Xiaoqian ...... P1-A3-3 Tang, Mengxing . 2K-3, 2K-5, 3A-3, 3A-5, 3B-1, 4 Suarez Castellanos, Ivan ...... 2I-4 3B-3, 3C-1, 3G-3, 7D-4, 7E-2, 7E-5, P1- Smith, Jason ...... 6 E - 1 Suenaga, Ryota ...... P2-C12-3 A7-8, P1-B4-2, P1-C4-1, P1-C4-2, P1- Smith, Marshall ...... P2-C9-1 Sugimoto, Kazuko ...... 5K-5, P2-C5-4 C4-4, P1-C4-6, P2-A3-3, P2-C3-2, P2- Smith, Morgan ...... 2J-1 Sugimoto, Tsuneyoshi . 5K-5, P2-A8-6, P2-C5-4 C3-4 Smith, Scott ...... 5 B - 1 Sukovich, Jonathan ...... P1-A11-1 Tang, Yongkui ...... P1-A12-9 Snider, Eric ...... 2F-2, P1-SPC-3 Sukumar, Uday K...... 2J-3 Tang, Yuqi ...... 2 G - 2 Snipstad, Sofie ...... 4C-3 Sullivan, Brennan...... P2-B6-4 Taniuchi, Kana ...... P1-A8-1 So, Hélène...... 4G-4, 7C-5 Sultan, Laith ...... 3I-1 Tant, Katherine ...... 5I-2, P2-C7-6 Sobue, Satoshi ...... P1-A2-11 Sumi, Chikayoshi ...... P1-B13-1 Tanter, Mickaël . 1A-5, 3A-6, 3D-2, 3G-1, 3G-2, Sochor, Mark R...... 7D-5 Sun, Apeng ...... P2-C6-2, P2-C6-3 3G-4, 3J-5, 3J-6, 4F-1, 4F-4, 4F-6, 4J-4, Soenjaya, Yohannes ...... P1-A8-2 Sun, Chongling ...... P1-A12-6 4K-2, 7B-1, 7E-1, 7E-4, 7G-1, 8I-5, P1- Sojahrood, Amin ...... 1E-3 Sun, Lei . 1D-1, P1-A2-3, P1-A2-3, P1-A2-7, P1- A11-4, P1-B8-3, P1-SPC-4, P2-C3-1, P2- Sokolov, Konstantin ...... 3C-6 B3-4, P1-C12-4, P2-B6-3 C3-8 Solal, Marc ...... 6J-5 Sun, Sheng ...... P1-A12-6 Tao, Molei ...... 8F-4 Solomon, Oren ..... 3F-1, 3F-5, P1-B4-7, P1-C7-3 Sun, Tao ...... P2-A3-5 Tarumi, Ryuichi ...... P2-A1-5 Soloukey Tbalvandany, Sadaf ...... 4J-5, P2-B9-6 Sun, Ting ...... P1-C11-6 Taskin, Ulas ...... 7I-1, P1-SPC-10 Somphone, Oudom ...... P1-C7-2 Sun, Wu ...... P1-A11-6 Tavitian, Bertrand...... 3J-6 Song, Hyunwoo ...... P1-C3-1 Sun, Xin ...... P2-C11-3 Tay, K. Jack ...... 4 D - 3 Song, Ilseob ...... P2-A3-1, P2-B8-3, P2-B9-4 Sun, Yongjie ...... P2-C6-3 Taylor, Sara ...... 2J-2 Song, Jae Hee ...... 1K-6, P2-C1-3 Supponen, Outi ...... P1-C4-5 Tegnander, Eva ...... 1A-4 Song, Jinzhen ...... P1-B5-3 Surappa, Sushruta ...... 8F-4 Tekes, Coskun ...... 8E-3, P1-SPC-5 Song, Lin ...... 1D-1, P1-B3-4 Suraweera, Harini ...... 6E-3 Telichko, Arsenii ...... 2J-3, 8D-3 Song, Myeongjin ...... P2-B1-3 Susaki, Etsuo ...... P1-A2-11 Ten Dam, Anne ...... P1-C6-1 Song, Pengfei . 1F-3, 2K-2, 3F-2, 3G-5, 4J-6, 4K- Suzuki, Kenji ...... P1-A12-3 Teplykh, Andrey..... P2-A9-2, P2-A9-6, P2-B3-1 4, 7A-5 Suzuki, Masashi . P2-A11-3, P2-A2-7, P2-B11-2, Teshigahara, Akihiko ...... 8F-2 Song, Shaozhen ...... 1H-6 P2-B14-1, P2-C12-3 Thapa, Diwash ...... P1-B8-5 Song, Tai-Kyong .... 1H-3, 1K-6, P1-A11-10, P1- Suzuki, Masatoshi ...... P1-A12-7 Thieme, Norman...... 6D-1, P1-SPC-8 B2-5, P1-C3-1, P2-B8-3 Suzuki, Ryo ...... P1-B3-8 Thiran, Jean-Philippe ... 3I-5, 7I-2, 8J-2, P2-B8-5 Song, Wenping ...... 6B-4 Suzuki, Takanao ...... 5B-2 Thittai, Arun K...... 8J-3, P1-A5-3, P2-A2-5 Soozande, Mehdi ...... P1-C2-4, P2-B10-6 Suzuki, Toshiya ...... P2-B8-7 Thom, Christopher D...... 7D-5 Sotnikov, Andrei ...... 5A-4, P2-B12-7 Suzuki, Yu...... P2-C12-4 Thomasova, Martina ...... P2-C7-4 Soto, Juan Manuel ...... P1-C9-6 Suzuki, Yuhei ...... P2-A8-2 Thomsen, Erik ...... P1-A13-4, P1-A13-5 Sotomayor Torres, Clivia M...... 7H-2 Svensson, Ingrid ...... 7C-6, P2-C4-9 Thomsen, Erik Vilain . P1-A12-1, P1-A12-5, P2- Souchon, Rémi ...... P1-A2-9 Sviridov, Georgy ...... P2-A9-6 B10-4, P2-C3-9 Soulez, Gilles ...... 6I-5 Swider, Edyta ...... 2B-2 Thomson, Douglas ...... P1-C14-5 Soulioti, Danai Eleni ...... 3G-6 Swillens, Abigail ...... 1A-1 Tian, Jian ...... P1-B12-2 Soumann, Valérie ...... 7H-3, P2-C10-2 Szalewski, Marek ...... P2-C1-9 Tian, Xiaoqi ...... P1-C7-5 Sounas, Dimitrios ...... 7K-4, P1-SPC-12 Szász, Paul ...... P2-B12-1 Tian, Yahui ...... P2-A9-12 Soundara Pandian, Mohanraj ...... P2-B13-3 Szewczyk-Bieda, Magdalena ...... 4D-1 Tie, Changjun ...... 7G-5 Sourdon, Joevin ...... 3J-6 Szubielski, Michal ...... P2-B5-7 Tiedke, Stephan ...... 8B-4 Soussou, Mohamed-Akram ...... P2-C12-2 Tiercelin, Nicolas ...... P2-B12-4 Spalding, Gabriel ...... 7J-3 Tierney, Jaime ...... 4K-1, P2-B5-2, P2-B9-9 Spaulding, Kathy ...... P1-B6-4 T Tilvawala, Gopesh ... 5H-1, P1-SPC-7, P2-A11-4 Spies, Martin ...... 5I-3 Ta, Dean ...... P1-B14-4, P1-C8-2, P1-C8-3 Tiong, Thomas ...... P1-B9-4 Splingering, Geert ...... P2-B10-2 Ta, Kevinminh ...... 1I-4 Tirado, Indira ...... 6E-4 Toberman, Daniel ...... P1-B4-7 Valentine, Heather ...... P2-B6-4 Virzonis, Darius ...... P1-A13-8 Toda, Masaya ...... P2-A12-3 Valenzuela, Gloria ...... 6E-4 Viumdal, Håkon ...... P2-C5-6 Tomii, Naoki ...... P1-C7-10 Valero, Henri-Pierre ...... 6D-6 Vivien, Denis ...... P2-C3-1 Tomlins, Scott ...... P2-B7-5 Valés-Gómez, Mar ...... P2-A13-7 Vogel, Klaus ...... P2-C11-4 Tomov, Borislav Gueorguiev .... 4G-5, P1-A12-1, Vallée, Emilie ...... P2-C7-1 Voigt, Jens-Uwe ..... 1A-2, 3I-2, 3J-1, 3J-4, 3K-3, P1-A12-5, P1-A13-5 Vallet, Quentin ...... P1-C9-2 4H-3, P1-A6-3, P1-C7-11 Tong , Wei ...... 6H-5 Vallis, Katherine ...... P1-C11-3 Voisin, David ...... 6A-1 Tong, Ling ...... P2-B4-4 Van Breemen, Albert ...... 6B-1 Volker, Arno ...... 5H-4, 6B-1 Toonoe, Haruki ...... P2-C9-4 Van Dalen, B.M...... 3J-2 Vonk, Tim ...... 7B-2 Torok, Tamas Szili ...... P1-B7-5 Van De Beek, Jaap ...... 6C-3 Vonlanthen, Manuel ...... 3I-5 Torp, Hans ..... 1A-3, 1C-2, 3E-2, 4F-5, P2-A3-4, Van De Vosse, Frans . 2D-4, 3H-6, 7C-2, P1-A6- Voorneveld, Jason ...... 4F-2 P2-B10-9, P2-C3-3 4, P2-B8-6 Vorobyov, Sergiy ...... P1-A7-3 Torres, Gabriela ...... 6I-1, 7B-5 Van Den Adel, Franc ...... 4F-2 Vos, Frans M...... 2G-5 Tortoli , Piero 3A-1, 4I-5, 7D-4, 8E-2, 8G-3, 8J- Van Den Bergh, Joop ...... 2E-5 Vos, Hendrik J...... 1K-3, 3J-2, 4F-2, 8E-2, 8K-3, 5, 8K-3, P1-A13-1, P1-C2-6, P1-C4-5, Van Den Heuvel, Thomas ...... 3H-4 P1-A5-5, P1-C2-4, P1-C4-5, P1-C6-3, P2-B4-1, P2-B4-2, P2-B4-4, P2-B9-1, Van Den Munckhof, Inge ...... 3K-1 P2-B10-6 P2-C4-2 Van Der Graaf, Marinette ...... 3K-1 Vray, Didier .... 8J-5, P2-A4-7, P2-B9-8, P2-C4-2 Totsuka, Makoto ...... 6K-5, 6K-6, P2-B14-1 Van Der Kolk, Eveline ...... 3K-1 Vullings, Rik ...... 3B-5 Toubal, Malika ...... P1-A12-4 Van Der Linden, Johannes C...... P1-A4-1 Toulemonde, Matthieu ...... 3A-3, 7D-4, P2-A3-3 Van Der Meulen, Pim ...... 4I-1, 4I-2 Tourneret, Jean-Yves ...... P1-C7-7 Van Der Neut, Joost ...... 7I-1, P1-SPC-10 W Tournoux, François ...... 7C-1 Van Der Steen, Antonius F. W. .. 1D-5, 2D-1, 3J- Wada, Yuji ...... P2-B1-5 Toyota, Taro ...... P1-A3-5 2, 4C-2, 4F-2, 4I-1, 4J-5, P2-B10-2, P2- Wagner, Karl .. 5B-3, 5B-4, 5E-5, P2-A10-3, P2- Traberg, Marie ...... 4G-5 B8-9, P2-B9-6 A10-4 Tracey, Brian ...... P2-A3-5 Van Dinther, Eric ...... 2B-2 Wagner, Michael ...... P2-A12-1 Trahey, Gregg .. 1K-1, 3D-1, 4D-6, 7D-6, P1-A6- Van Disseldorp, Emiel ...... 7C-2 Wahlström, Anders ...... P2-C4-9 2, P1-A7-1, P2-A3-10, P2-A3-2 Van Dongen, Koen W.A. 2G-5, 7I-1, P1-SPC-10 Wakatsuki, Naoto ...... P2-A8-3 Tran, Tho N.H.T...... P1-C8-2 Van Es, Maarten ...... 2E-6 Wake, Atsuki ...... P2-A1-4 Tran, Trac ...... 1J-4 Van Ginneken, Bram ...... 3H-4 Wakimoto, Shuichi ...... P2-C2-2, P2-C2-3 Tran, William ...... 6E-2, 6E-3 Van Groenestijn, Gert-Jan ...... 5H-4, P2-A9-4 Walczak, Mateusz ...... P2-A8-1, P2-B8-4 Traversi, Andrea ...... 8K-3 Van Heesch, Chris ...... 8C-1 Walker, William ...... 3D-1 Trawiński, Zbigniew ...... P2-B5-7 Van Hoogstraten, Bas ...... 4J-5, P2-B9-6 Walsh, Kristy ...... P1-C5-3 Treeby , Bradley ...... 7J-1, P2-A2-3 Van Laar, Judith ...... 3B-5 Walton, Kenneth...... 5I-1 Treeby, Bradley ...... 7I-5, 7J-2 Van Limbergen, Evert ...... P1-C7-8 Wan, Elaine ...... 3K-4 Tremblay-Darveau, Charles ...... 4B-1 Van Malderen, Sophie ...... P1-B7-5 Wan, Mingxi 3D-3, 7E-6, 7F-4, 7G-2, P1-A11-3, Tripathi, Bharat .... 5G-3, P1-A7-7, P1-B6-1, P1- Van Namen, Austin ...... 3C-5 P1-A11-5, P1-B11-3, P1-B3-5, P1-B3-6, B6-2 Van Neer, Paul ... 2E-6, 5H-4, 6B-1, 6D-2, 6D-3, P1-B4-3, P1-B4-4 Trodden, Heather ...... 6B-6, P1-B12-5 P2-A9-4, P2-C8-4 Wang, Bin ...... P2-C7-2 Trofimenko, Alexander ...... P2-A9-6 Van Riel, Martijn ...... 2E-6 Wang, Bo ...... 8 D - 6 Trolier-Mckinstry, Susan ...... 8F-3 Van Riessen, Koen ...... 2B-2 Wang, Boyang ...... P1-B14-5, P2-A8-5 Trulsson, Felix ...... P1-B14-2 Van Sambeek, Marc ...... 2D-4, 3H-6, 7C-2 Wang, Chenghui ...... P2-C6-3 Trzasko, Joshua .... 1F-3, 3F-2, 3G-5, 4J-6, 4K-4, Van Sloun, Ruud J. G. ... 3F-1, 3F-5, 3H-3, 6E-5, Wang, Congzhi . 6A-2, 8A-3, 8D-4, P1-B6-5, P1- 7A-5 P1-A4-1, P1-A9-1, P2-B9-3 C2-11, P2-C4-8 Tsai, Chih-Hung ...... P2-C4-6 Van Soest, Gijs .. 2D-1, 4I-1, P2-B10-2, P2-B8-9 Wang, Diya ...... 7C-1 Tsai, Scott ...... 5G-5 Van Wamel, Annemike ...... 4C-3 Wang, Guan ...... P1-A11-7, P1-C13-2 Tseng, Albert ...... 2K-4 Van Willigen, Douwe .. 6D-2, 8G-1, P1-SPC-17, Wang, Guohao ...... 1D-1, P1-B3-4 Tseng, Sheng-Po ...... 6C-1, P2-A9-3 P2-C8-4 Wang, Hexuan ...... 4E-2, 4E-3 Tsui, Pohsiang ...... 6I-6 Vanderlaan, Donald ...... P2-C4-3 Wang, Hong ...... P1-B5-3 Tsui, Po-Hsiang ...... P1-C10-5 Vanneste, Ben ...... P1-C7-8 Wang, Huaijun ...... 2J-3 Tsujino, Jiromaru...... 6D-5 Vanotti, Meddy ...... P2-C10-2 Wang, Ji ...... 7K-3, P2-A11-5 Tsuruta, Kenji .. P2-B2-2, P2-B2-3, P2-C2-7, P2- Varray, François ...... 1K-5, 4H-2, 8J-5, P2-C4-2 Wang, Jingyao ...... P1-A2-7 C2-8 Vasconcelos, Luiz ...... 4E-5, P1-B5-1 Wang, Lin ...... P1-A2-4 Tu, Juan ...... P1-C14-4 Vasilache, Dan ...... P2-C10-1 Wang, Mengxuan ... P1-A3-6, P1-A3-7, P1-A8-3 Tualle, Jean-Michel ...... 2C-3 Vegter, Merel ...... 4C-2 Wang, Nan ...... 5A-2, 5F-4, P2-C11-5, P2-C11-6 Turcanu, Mihnea Vlad ...... 7F-1, P2-B8-10 Velisavljevic, Nenad ...... 8K-4 Wang, Qi ...... 6 H - 4 Turner, Patrick ...... 5E-2 Verhaegen, Frank ...... P1-C7-8 Wang, Qingdong ...... P1-C14-4 Tutwiler, Richard L...... 8F-3 Verhelst, Marian ...... 6F-2 Wang, Rongrong ...... P2-A2-1 Verstraten, Lindy ...... P2-C1-7 Wang, Rui ...... P1-A11-3 Verweij, Martin D. . 1K-3, 3J-2, 4C-2, 6D-2, 8G- Wang, Ruikang ...... 1H-6 U 1, 8G-5, 8K-3, P1-A5-5, P1-C2-4, P1- Wang, Shaoyun ...... P2-A11-5 Uechi, Itsuki ...... 5K-5 C6-3, P1-SPC-17, P2-B10-6, P2-C8-4 Wang, Supin ...... 7F-4, P1-B4-4 Ueda, Hiroki ...... P1-A2-11 Vetury, Ramakrishna ...... 5C-6 Wang, Ting-Ting ...... 7H-6 Ueda, Masanori ...... 5E-1 Viallon, Magalie ...... 2I-6 Wang, Wei ...... 7H-4, 7H-5 Ueno, Tomoya ...... P2-A1-5 Vidal-Álvarez, Gabriel ...... 5F-2 Wang, Wen ...... P2-C10-3, P2-C10-5, P2-C10-6 Umemura, Shin-Ichiro 4A-2, 4A-3, 7F-2, P1-B7- Vie, Katell ...... P1-C5-1 Wang, Wensong ...... P2-A2-4 6, P2-B10-11 Viel, Thomas ...... 3J-6 Wang, Xiaowei ...... 2H-3 Unga, Johan ...... P1-B3-8 Vierinen, Juha ...... P1-A8-6 Wang, Xin ...... P1-A11-5 Ünlü, Serkan ...... 3I-2, P1-C7-11 Vilaça, João L...... 3H-5 Wang, Xingying ...... 6A-2 Unnikrishnan, Sunil ...... P1-A4-5 Villagomez-Hoyos, Carlos ... 4G-5, P1-B2-2, P2- Wang, Xinhui ...... 6H-2 Uomoto, Miyuki ...... 6J-2 B5-1, P2-C3-9 Wang, Xinning ...... 1E-4 Urban, Matthew ... 1H-1, 1H-2, 4E-5, 6I-1, 7A-1, Villemain, Olivier ...... 4F-4 Wang, Xuan ...... P1-A11-3 7C-3, P1-B5-1 Vince, D. Geoffrey...... P1-A10-7 Wang, Xu-Bo ...... P1-A12-4 Urs, Raksha ...... 4B-3 Vince, Philippe ...... 5J-4, 5J-6 Wang, Xueding .... 1G-4, 2C-4, 2F-3, 2F-4, 7D-1, Ushimizu, Hidetaka ...... P2-B8-7 Vincent, Peter ...... P2-C3-2 7F-3, P1-A9-4, P2-B7-5 Utagawa, Noriyuki ...... 5K-5, P2-C5-4 Vincent, Phuong ...... 4E-2 Wang, Xueqiao ...... P1-B12-4 Vink, Joy ...... 7A-3 Wang, Yahua ...... P1-A6-5 V Vion, Michaël ...... P1-A11-4 Wang, Yan ...... 1E-5, 4C-5, P1-A11-7, P1-C13-2 Vion-Bailly, Jérémy ...... 2I-4, 2I-5 Wang, Yan-Feng ...... 7H-6 Vaitkus, Veronica ...... 1F-4 Virupakshappa, Kushal ...... P1-B14-7, P1-B14-9 Wang, Yanjie ...... 1D-6, 2B-6 Valdastri, Pietro ...... P2-B8-10 Wang, Yi-Jie ...... P1-A6-6 Wu, Min ...... P1-A9-4 Yang, Keji ...... P2-B12-5 Wang, Yu ...... P1-B5-5 Wu, Shan ...... 7F-4, P1-B4-4 Yang, Mei ...... P1-C11-5 Wang, Yuanyuan ...... P1-C6-4 Wu, Shuqiong ...... P1-C9-11 Yang, Xiaofei ...... P1-B12-8 Wang, Yuchen ...... P2-A13-2, P2-A13-6 Wu, Wentao ...... P2-C7-7 Yang, Xinmai ...... 7D-1, 7F-3 Wang, Yue-Sheng ...... 7H-6 Wu, Yue ...... P1-C12-5 Yang, Xinxing ...... P1-B3-5 Wang, Zhenzhang ...... P1-C9-9 Wujun, Zhu ...... 2E-4, P2-C1-8, P2-C7-8 Yang, Xinyu ...... P1-C12-4 Wang, Zhijie ...... 6I-3 Wyers, Caroline ...... 2E-5 Yang, Yabo ...... P1-B11-3 Wang, Zhuochen ...... 5J-5 Yang, Yang ...... P1-C12-5, P2-B11-4, P2-B12-6 Wang, Ziyu ...... P1-B12-8 Yang, Yansong ..... 5F-1, 5F-5, 7K-5, P1-SPC-15 Warner, Mike ...... 7D-2, 7E-2, 7E-5 X Yang, Yaoheng ...... 4A-1 Wasa, Kiyotaka ...... P2-A1-7 Xia, Wenfeng ...... 2C-5 Yang, Yi ...... 3F-3, P1-A8-3, P1-C4-7 Waspe, Adam ...... P2-C4-7 Xia, Xiangxiang ...... 2H-2, 6G-5, P2-B1-8 Yang, Yung-Shao ...... P1-A5-8 Watanabe, Hideyuki ...... 7K-6 Xian, Quanxiang ...... P1-A2-3 Yang, Yunjun ...... P1-C9-9 Watanabe, Yoshiki ...... P1-C7-10 Xian, Yuhong ...... P1-A5-4 Yang, Zixin ...... P1-B10-7 Webb, Jeremy ...... 4K-5 Xiao, Fucheng ...... P2-C7-7 Yano, Yuichiro ...... P2-A12-3 Weber, Rachel ...... 3J-3, 3K-4 Xiao, Ling ...... P2-C7-7 Yantchev, Ventsislav ...... 5E-2, 6G-1, P1-SPC-9 Weeks, Arthur ...... 5B-1, P2-C9-1 Xiao, Yang ...... P1-B6-5, P1-C2-11 Yanxun, Xiang ...... 2E-4, P2-C1-8, P2-C7-8 Wei, Cheng ...... 4D-1 Xie, Fang ...... P1-C7-5 Yao, Jie ...... P1-B14-10 Wei, John ...... P2-B7-5 Xie, Hua ...... 1I-2, P1-A5-2 Yao, Junjie ...... 2G-2, P2-A5-5, P2-A6-3 Wei, Luxi ...... 3A-2 Xie, Longtao ...... P2-A11-5 Yao, Kui ...... 8I-4 Wei, Qi ...... P1-B14-10 Xie, Xinyi ...... 7D-1, 7F-3 Yao, Ning ...... P1-A7-11 Wei, Wei ...... P1-B12-8 Xin, Hao ...... P1-B8-4 Yao, Yudong ...... 6H-2 Weigel, Robert . P2-A10-3, P2-A10-4, P2-A10-5, Xiong, Rui ...... P1-B12-8 Yao, Zhiyuan ...... P2-C2-6 P2-A12-1, P2-A12-5 Xu, Dongxiang ...... 7B-4 Yap, Sing-Chien ...... P1-B7-5 Weinand , Martin ...... 1G-1 Xu, Feng ...... P1-C8-3 Yaras, Yusuf ...... P1-B12-7 Weinberg, Peter D. . 3A-5, 3B-3, 3G-3, P1-B4-2, Xu, Guan ...... 2C-4, 2F-3, 2F-4, P2-B7-5 Yarmoska, Steven K...... P1-B4-1 P2-C3-4 Xu, Kailiang ...... P1-B14-4 Yashiro, Satoshi ...... P1-A10-6 Weingarten, Michael ...... P1-C13-3 Xu, Lijun ...... P1-C12-8 Yasuda, Jun ...... P2-A3-8 Wen, Yumei ...... P2-B11-4 Xu, Lisheng ...... 6H-2, P2-A13-6 Yatsuda, Hiromi ...... 6H-6 Weser, Robert ...... 5A-4 Xu, Lu ...... P1-B11-1 Yazaki, Hana ...... 6G-2 West, Calum ...... 8G-2 Xu, Shanshan ...... 4A-1, P1-B3-5, P1-B4-3 Ye, Dezhuang ...... 2H-3, 2J-2, 4A-1 West, Simeon J...... 2C-5 Xu, Tianqi ...... P1-B4-4 Ye, Xiaodong ...... P1-B14-8 Westerhausen, Christoph ...... 6H-5 Xu, Tianshu ...... 5J-5 Ye, Zuo-Guang ...... 8H-2, 8H-6 Whelan, Padraig ...... P2-C1-7 Xu, Wei-Jiang ...... P1-A12-4 Yeh, Chih-Kuang .. 1D-4, 4A-6, 4B-4, 4B-6, P1- Whimsey, Lauren ...... 4E-6 Xu, Yuan ...... P1-C2-10 B11-5, P1-B3-2, P1-B3-9, P1-C11-1 White, Ingrid ...... P1-A7-4 Xu, Yunxue ...... P1-A3-7 Yemane, Petros Tesfamichael ...... 4C-3 White, Rebekah ...... P1-C9-8 Xu, Zhen ...... P1-A11-1, P1-A11-2, P2-B6-2 Yin, Guanjun ...... P1-B13-5, P1-B13-6 Wiacek, Alycen ...... 4H-5 Xu, Zheng ...... P1-B14-10 Yin, Jianhua ...... 8I-3 Wiaux, Yves ...... 8J-2 Xue, Chenyang ...... P1-A13-6 Yiu, Billy Y. S...... 1C-1, 1F-1, 1F-2, 3A-4, 3F-6, Wieja, Krzysztof ...... P2-C1-9 Xue, Xufeng ...... P2-C10-5, P2-C10-6 4B-3, 4F-3, 4G-4, P1-A4-3, P2-B9-2 Wiemer, Maik ...... P2-C11-4 Ylilammi, Markku ...... P2-A12-4 Wigen, Morten . 1C-5, 4G-1, P1-SPC-2, P2-A4-1 Y Yntema, Doekle ...... 6C-4 Wijkstra, Hessel 3F-1, 3F-5, 3H-3, 6E-5, P1-A4- Yokoshiki, Saaya ...... 5G-6 1 Yabe, Yutaka ...... 6I-4 Yonai, Toshifumi ...... P2-A11-3 Wild, Marcus ...... P1-C12-2, P1-C12-3 Yahagi, Mayu ...... P1-C14-1 Yoneyama, Akira ...... P2-A7-2 Wildeboer, Rogier R...... 3H-3, 6E-5, P1-A4-1 Yamada, Atsuko ...... P1-B9-2, P1-C10-7 Yong, Yook-Kong ...... 7K-3, P2-A11-5, P2-C1-6 Wilhite, Cameron ...... 1G-1, P1-B8-1 Yamada, Hisato ...... 6I-4, P2-A8-2 Yoo, Jinhee ...... P2-B1-9 Wilkes, Don ...... P2-B9-9 Yamada, Taiki ...... P2-C2-3 Yoo, Sangjin ...... 1D-3 Willmann, Juergen.. 2K-4, 2K-6, 3B-2, 4J-3, P1- Yamaguchi, Daisuke ...... P2-C2-3, P2-C2-4 Yoo, Yangmo 4J-2, P1-A6-7, P2-A3-1, P2-A3-9, C10-3 Yamaguchi, Satoshi ...... P1-B3-1 P2-B8-3, P2-B9-4 Wilson, Brian C...... 2B-4 Yamaguchi, Tadashi ... 7A-4, P1-A3-5, P1-B9-2, Yoon, Changhan ...... P2-B1-3 Winters, Mary ...... 5C-6 P1-B9-3, P1-B9-5, P1-B9-7, P1-C10-4, Yoon, Heechul ...... 3C-3, P1-B4-1, P2-C4-3 Wirtzfeld, Lauren ...... P1-C8-6 P1-C10-6, P1-C10-7 Yoshida, Kenji 7A-4, P1-A3-5, P1-B9-2, P1-B9- Wise, Elliott ...... 7I-5 Yamakawa, Makoto ...... P2-A5-7 3, P1-B9-5, P1-B9-7, P1-C10-4, P1-C10- Witek, Beata ...... P2-A8-1, P2-B8-4 Yamakawa, Yui ...... 5H-5 7 Witte, Russell .... 1G-1, 1G-3, P1-B8-1, P1-B8-2, Yamakoshi, Yoshiki ...... P1-A8-1 Yoshida, Sachiko ...... P1-B9-4, P1-B9-6 P1-B8-4 Yamamoto, Hiroaki ...... P1-B7-1 Yoshikawa, Hideki ...... P1-B7-6, P2-A3-8 Wixforth, Achim ...... 6H-5 Yamamoto, Ken ...... P2-B2-3 Yoshizawa, Masasumi ...... P1-A12-7, P1-A8-5 Wodnicki, Robert .... 8E-1, P1-B12-3, P1-C12-1, Yamamoto, Taku ...... P1-B7-6 Yoshizawa, Shin .... 4A-2, 4A-3, 7F-2, P1-A11-9, P1-SPC-18 Yamamoto, Tomoya ...... P1-C14-3 P1-B7-6 Wong, Dean F...... 2F-1, P2-B6-4 Yamamoto, Yutaka ...... P2-B1-2 Yousefian , Omid ...... 5G-4, P1-C9-10, P1-C9-8 Wong, Kinfung ...... P2-B6-3 Yamaner, Feysel ...... 8C-3, 8F-5 Yu, Alfred C. H. .. 1C-1, 1F-1, 1F-2, 3A-4, 3B-4, Wood, Bradford J...... P1-C6-8, P1-C7-12 Yamaya, Kosuke ...... P2-A11-3 3F-6, 4B-3, 4C-6, 4F-3, 4G-4, 7C-5, P1- Woodacre, Jeffrey ...... 8A-4 Yan, Fei ...... P1-A3-1, P1-B11-4, P1-C11-2 A4-3, P1-B3-3, P1-B3-7, P2-B9-2, P2- Worrall, Kevin ...... P1-C14-5 Yan, Judy ...... P1-A8-2 B9-7 Wright, Alex ...... 7F-5 Yan, Jyun-Hong ...... P1-A4-2 Yu, Hao ...... P1-A12-4 Wright, Oliver B...... 2A-2 Yan, Kang ...... P1-C12-6 Yu, Jaesok ...... 7 D - 3 Wright, William ...... P2-C1-7 Yan, Ping ...... 2F-1 Yu, Jinhua ...... P1-B6-5 Wu, Chen ...... 1H-4 Yan, Yan ...... 2F-5, 6I-3, P2-A5-4, P2-B7-2 Yu, Shimin ...... 6B-4 Wu, Chun-Yao ...... P1-B11-5 Yanagitani, Takahiko ... 5H-5, 6G-2, 6K-4, 6K-5, Yu, Weichuan ...... P2-B9-7 Wu, Da-Jian ...... P1-B14-10 6K-6, 8B-3, 8B-5, P1-C14-2, P2-A1-1, Yu, Xianbo ...... 7G-2 Wu, Dawei ...... P1-C12-6, P2-C2-6, P2-C7-5 P2-A1-2, P2-A1-3, P2-A1-7, P2-B14-1, Yu, Xiyang ...... 6B-4 Wu, Di ...... 5D-3 P2-C12-4 Yu, Yao ...... 5F-6 Wu, Eryong ...... P2-B12-5 Yandrapalli, Soumya ...... 5J-2 Yuan, Caojin ...... P1-C14-4 Wu, Guo-Zua ...... P1-C7-9 Yáñez-Mó, María ...... P2-A13-7 Yuan, Chun ...... 7B-4 Wu, Hua ...... 8H-6 Yang, Che-Hua ...... 6C-1, P2-A9-3 Yuan, Jie ...... 2C-4, P1-A9-4 Wu, Huaiyu ...... P2-B10-5 Yang, Ge ...... P2-C4-8 Yuan, Weitao ...... P2-B2-1 Wu, Jiang ...... P2-C2-1 Yang, Heng ...... P1-A5-2 Yuan, Xianwei ...... 6B-4 Wu, Jing ...... 5C-2, 5C-3 Yang, Jiaxing ...... 8D-6 Yue, Yimei ...... 2H-3, 2J-2, 4A-5 Yang, Jing ...... 8I-3 Yuen, Darren ...... P2-B7-3 Zhang, Zhiqiang .... 6A-2, 8D-4, 8D-5, 8D-6, P1- Yuge, Kohei ...... P2-B1-5 A2-1, P1-B12-1 Yuldashev, Petr ...... 6A-6, 7J-6 Zhao, Andrew X...... 3C-3 Yunoki, Yoshimi ...... 6J-2 Zhao, Danhua ...... P1-A13-7 Yura, Toshiya ...... 4A-2 Zhao, Feifei ...... 4H-6, P1-C6-6 Yushkov, Konstantin ...... 2G-3, P2-A2-8 Zhao, Jinfeng ...... 7H-4, P2-B2-1 Zhao, Lurui ...... 7J-4, 7K-2 Zhao, Xupeng ...... P2-B12-6 Z Zheng, Gang ...... 1E-2, 2B-4, 4B-2 Zagzebski, James ...... P1-B10-3 Zheng, Hairong ... 2H-2, 2H-5, 2I-2, 6A-2, 6G-5, Zahnd, Guillaume ...... P1-B7-7, P1-C2-2 6H-2, 7G-5, 8A-3, 8D-4, 8D-5, 8D-6, P1- Zaitsev, Boris ...... P2-A9-2, P2-A9-6, P2-B3-1 A11-6, P1-A13-6, P1-A2-1, P1-A2-2, Zak, Ala ...... 5K-3 P1-A2-3, P1-A2-4, P1-A2-7, P1-A3-2, Zalev, Jason ...... 2C-6, P2-B7-6 P1-B11-4, P1-B12-1, P1-B6-5 Zam , Azhar ...... 6C-2 Zheng, Yuanjin ...... P1-B13-9, P2-A2-4 Zapata, Edison ...... P1-C9-2 Zheng, Yuanyi ...... 1E-5 Zarbatany, David ...... 1F-4 Zhgoon, Sergei ...... 6K-1 Zdru, Ioana ...... P2-C10-1 Zhong, Zheng ...... P2-B2-1 Zemp, Roger 2C-1, 6H-1, 8C-4, 8E-4, 8K-5, P1- Zhou, Boran ... P1-B10-4, P1-B6-3, P1-B6-6, P1- B2-1, P2-A5-2, P2-B4-6, P2-B5-8, P2- C5-4, P2-B5-6 B5-9 Zhou, Di ...... P1-B3-5, P1-B4-3 Zeng, Qi ...... 4E-4 Zhou, Hao ...... 4C-5 Zeng, Zhoumo ...... 5J-5 Zhou, Hui ...... 2H-2 Zhang, Aibing ...... P2-A11-5 Zhou, Jia ...... P1-A12-4 Zhang, Benfeng ...... 5B-5, 5E-4, P1-SPC-14, P2- Zhou, Jin ...... 5F-5 B11-1, P2-B11-3 Zhou, Jinling ...... P1-B6-6, P1-C5-4 Zhang, Bo ...... P1-C7-2 Zhou, Kanheng .... P1-A11-7, P1-C13-2, P1-C5-5 Zhang, Bofeng ...... P1-A2-6 Zhou, Lihua ...... P2-B6-2 Zhang, Dayi ...... P2-C5-5 Zhou, Meng ...... P2-B7-4 Zhang, Dong ...... P1-C14-4 Zhou, Qifa ... 2G-2, 8D-5, 8D-6, 8E-1, P1-B12-3, Zhang, Edward ...... 2D-2, 6A-4, 6A-5, P2-A6-1 P1-B12-4, P1-C12-4, P1-C12-5, P1-SPC- Zhang, Ge ..... 3A-3, 3C-1, 3G-3, 7D-4, P1-A7-8, 18 P1-B4-2, P1-C4-1, P1-C4-2, P1-C4-4, Zhou, Shiwei ...... 1I-2 P1-C4-6 Zhou, Wei 2H-5, 2I-2, 6G-5, 6H-2, P1-A3-2, P2- Zhang, Haichong K...... 2I-3 A13-2, P2-A13-6, P2-B1-7, P2-B1-8, P2- Zhang, Hairong ...... 2J-4 C8-3 Zhang, Heye ...... 3I-3 Zhou, Xiaowei ...... P2-C3-2, P2-C3-4 Zhang, Hong ...... 3F-3 Zhou, Xinhuan ...... P2-C3-2 Zhang, Huabin ...... 7B-4 Zhou, Xue ...... P1-A9-4 Zhang, Hui ...... 5J-5 Zhou, Yiming ...... P1-A3-7 Zhang, Jianqiu ...... P1-B14-4 Zhou, Yuan ...... P2-A6-3 Zhang, Jiayao ...... P2-B7-4 Zhou, Zhiyu ...... P1-B12-4 Zhang, Jue...... P1-C7-5 Zhou, Zhuhuang ...... P1-C10-5 Zhang, Lei...... 7F-4, 8I-4, P1-B3-6 Zhu, Benpeng ...... P1-B12-8, P1-C12-5 Zhang, Menglun ...... P1-A12-6, P2-C11-3 Zhu, Jiang ...... P2-B12-5 Zhang, Mengyi ...... P2-B9-7 Zhu, Jiaqi 3B-3, 3C-1, 3G-3, 7D-4, P1-A7-8, P1- Zhang, Miaomiao ...... 8J-1 C4-1, P1-C4-2, P1-C4-4, P1-C4-6 Zhang, Mingbo ...... P1-C7-5 Zhu, Jiejun...... P1-A2-3 Zhang, Naiqing ...... 5H-1, P1-SPC-7, P2-A11-4 Zhu, Lei ...... 1F-2 Zhang, Nisi ...... P1-A3-7, P1-C4-7 Zhu, Lifei ...... 2H-3, 4A-5 Zhang, Pengfei ...... P1-A3-1, P1-A3-2, P2-B1-7 Zhu, Xing-Feng ...... P1-B14-10 Zhang, Qi ...... P1-B12-1 Zhu, Yao ...... 5A-2, 5F-4, P2-C11-5, P2-C11-6 Zhang, Qiaozhen ...... P2-B11-4 Zhu, Yaqiong ...... P1-C7-5 Zhang, Rui ...... 8E-1, P1-A2-7, P1-SPC-18 Zhu, Yiying I...... 3C-3, P1-B4-1, P2-C4-3 Zhang, Rujing ...... P2-C3-9 Zhu, Yunhao ...... 2C-4, P2-B7-5 Zhang, Ruochong ...... P1-B13-9, P2-A2-4 Zhuang, Steve ...... P1-A13-7 Zhang, Shengdong ...... P1-A13-6 Zinger, Svitlana ...... P1-A9-3 Zhang, Shijie ...... P1-C7-5 Zonak, Maria ...... 1I-4 Zhang, Shujun ...... 8D-5, 8H-1 Zong, Yujin ...... P1-B3-5, P1-B4-3 Zhang, Siyuan ...... 7F-4, P1-B11-3, P1-B4-4 Zorgani, Ali ...... 1H-5 Zhang, Tao ...... P1-B12-8 Zou, Chao ...... 7G-5 Zhang, Tianfu ...... 8D-5, 8D-6 Zou, Jie ...... 5E-2 Zhang, Ting ...... P2-B10-1 Zubair, Muhammad ...... 8A-5 Zhang, Wei ...... 1G-4, 7D-1, 7F-3 Zubkov, Leonid ...... P1-C13-3 Zhang, Wendong ...... P1-A13-6 Zukauskaite, Agne ...... 6K-3 Zhang, Wenjun ...... P2-A13-2, P2-A13-6 Zulaica Iglesias, Olivia ...... 3I-2 Zhang, Xi ...... 3I-3 Zurakhov, Grigoriy ...... P2-B4-4 Zhang, Xiaohui ...... 2J-2, 4A-1 Zhang, Xiaoming .. P1-B10-4, P1-B6-3, P1-B6-6, P1-C5-4, P2-B5-6 Zhang, Xiaosheng ...... P1-A12-8 Zhang, Xinyu ...... 3D-3, P2-B1-1 Zhang, Yang ...... 3K-5, P2-B5-3 Zhang, Yi ...... P1-A12-8, P1-B11-4 Zhang, Ying ...... P1-C7-5 Zhang, Yiyi ...... P1-B4-3 Zhang, Yuanhao ...... P1-C12-6 Zhang, Yurong ...... P1-A2-10