2018 Asia-Pacific Microwave Conference

APMC 2018 Nov. 6-9 Kyoto Japan NovemberAPMC 6-9, 2018, Kyoto International Conference2018 Center, Kyoto, Japan http://www.apmc2018.org/ PROGRAM BOOK

MAP OF Kyoto International Conference Center

Harmonious World Connected by Microwaves LOCATION OF KYOTO

Tokyo International Organizer and Sponsor Airpor（t Haneda） The Institute of Electronics Information and Communication Engineers (IEICE) of Japan 40 min. Bus 13 min. Supporter Osaka Train SAPPORO International 20 min. Ministry of Internal Affairs and Communications Airport（ Itami） 55 min. Subway Bus 30 min. Train Technical Sponsors KYOTO IEEE MTT-S, IEEE AP-S, European Microwave Association (EuMA), URSI, IEEE MTT-S Japan/Kansai/Nagoya Chapters, IEEE AP-S Kansai Joint 38 min. 2hr 10 min. 2hr 20 min. Chapter, IEICE Technical Committee on Microwaves, IEICE Technical Committee on Electronics Simulation Technology, IEICE Technical FUKUOKA (Kyoto-Nagoya) (Kyoto-Shinagawa) (Kyoto-Tokyo) 75 min. Bullet Train Bullet Train Bullet Train Train“Haruka” Committee on Microwave Photonics, IEICE Technical Committee on Integrated Circuits and Devices, IEICE Technical Committee on

28 min. 60 min. Electron Devices, IEICE Technical Committee on Antennas and Propagation, IEICE Technical Committee on Wireless Power Transfer, IEICE 75 min. Meitetsu Narita Bus 80 min. OSAKA TOKYO Express Train Express Train Bus Technical Committee on Short Range Wireless Communications, IEICE Technical Committee on Intelligent Transport Systems Technology, NAGOYA IEICE Technical Group on Terahertz Application Systems, Japan Institute of Electronics Packaging, Japan Society of Electromagnetic OKINAWA Kansai International Centrair International New Tokyo International Airport（Osaka） Airpor（t Nagoya） Airpor（t Narita） Wave Energy Applications, The Radiation Science Society of Japan, IEEJ Investigating R&D Committee on Advanced Technology for Progress the Electromagnetic Wave Application, IEEJ Investigating R&D Committee on Highly Secure-Reliable Wireless Networks, Japan Society for the Promotion of Science, 188th Committee on Electromagnetic-Field-Excited Reaction Fields CONFERENCE AT A GLANCE

11/6 (Tue) Room B1 Room B2 Room C1 Room C2 Room D 10:00 WS-B1 WS1-B2 WS1-C1 WS-C2 WS-D RF Front End Modules for 4G/5G mm-Wave GaN for 5G Applications Advances in RF Wireless Power Transfer Wireless Power Transfer in Asia Proof of Concepts of 5G Radio Access Applications and Energy Harvesting Techniques Technologies and 5G System Trials 13:00 Lunch 14:00 WS2-B2 WS2-C1 Recent Progress of Terahertz Sources for Industrial Wireless Applications, 17:00 Advanced Aapplications Standardizations and Technologies Room J Room 104 Room E Room K Room 103 10:00 WS-J SC1-E SC-K SC-103 Trends of State-of-the-Art Measurement Reconfigurable Synthesized Practical Evaluation of MIMO Antenna Bits2Waves – Building a 16 QAM Radio Technology Transmission Line – Ultra-Low-Cost Phase by Hand in One Day Control Unit for Phased Arrays 13:00 Lunch 14:00 WS2-104 SC2-E An Example of Bilateral Ultra High Resolution Collaborative Workshop Millimeterwave and from Grassroots Activity (Thailand-Japan Microwave Photonics Radars 17:00 Microwave, TJMW) Welcome Reception (Banquet Hall Sakura) (17:30-19:30)

11/7 (Wed) Room A Room B1 Room B2 Room C1 Room C2 Room D Room K Room 103 8:30 WE1-B1 WE1-B2 WE1-C1 WE1-C2 WE1-D WE1-K WE1-103 Printed Antennas and Innovative Filter Banks, Special Session: Transmitting and Advances in Power Special Session: Special Session: Arrays Multiplexers, and Micromachined Terahertz Receiving Elements for Amplifier Design Research and Trends of 5G Multiband Filters Systems - A New WPT and RFID systems Techniques Development of Space Technologies in Heterogeneous Integration and Satellite Communi- Asia-Pacific Region Platform enabling the cation System commercialization of the THz frequency spectrum (M3TERA) 10:10 WE1-IF Break 10:30 Interactive Forum I (10:00-11:30) WE2-B1 WE2-B2 WE2-C1 WE2-C2 WE2-D WE2-K WE2-103 Antennas for Wireless Advances in Theory and Metastructures and Rectifiers and Rectennas Power Amplifiers and Adaptive Techniques for Special Panel Session: Application Design for Filters and Microstructures for Signal Generator Improved Spectrum Women’s Excellent Group Delay Circuits Terahertz and Microwave Efficiency Talent in Engineering Applications 12:10 Lunch 13:30 APMC 2018 Opening - Special Talk & Keynote Address (Annex Hall) 15:30 Break 15:50 WE4-B1 WE4-B2 WE4-C1 WE4-C2 WE4-D WE4-K WE4-103 5G/Millimeter Wave Special Session: Metamaterials, EMBGs WPT and RFID Low Noise Amplifiers Terahertz, Millimeter- Special Session: Antenna Technologies Connected Vehicles for and FSSs I Applications wave and Microwave EuMA Special Session Advanced Safety and Photonics Applications Comfort Mobility 17:30 in 4G/5G and Beyond Young Professionals and Women in Engineering/Microwaves Reception (Banquet Hall Swan) (18:00-19:30)

11/8 (Thu) Room A Room B1 Room B2 Room C1 Room C2 Room D Room K Room 103 8:30 TH1-B1 TH1-B2 TH1-C1 TH1-C2 TH1-D TH1-K TH1-103 Antennas for Sensing Advanced Design of Special Session: Special Session: Advances in Power Special Session: Microwave Frequency/ Applications Filtering Power Dividers Terahertz Technologies Solar Power Satellite and Amplifiers I New Developments and Signal Control Circuits and Balanced Filters for Beyond 5G Mobile Related Microwave Technologies for Communications Technologies Space Applications 10:10 TH1-IF Break 10:30 Interactive Forum II (10:00-11:30) TH2-B1 TH2-B2 TH2-C1 TH2-C2 TH2-D TH2-K TH2-103 Antenna Arrays and Novel Filter Design Terahertz Active Devices Design and Characteri- Advances in Power Microwave Biomedical JSPS 188 Committee/ Beam-forming I Techniques Based on zation of Microwave Amplifiers II Applications JEMEA Special Session: Coupling Matrix Components Innovative Microwave Heating and Chemistry 12:10 Lunch 13:30 TH3-B1 TH3-B2 TH3-C1 TH3-C2 TH3-D TH3-K TH3-103 Antenna Arrays and Novel Tunable Millimeter-wave Devices EM Analysis and mmW Low Noise Beam Controlled Electromagnetic Beam-forming II Technologies and and Circuits Scattering Problems Amplifiers Communication Compatibility (EMC) I TH3-IF Structures Techniques and Radar/ Interactive Forum III Communication Systems 15:10 (14:00-15:30) Break 15:30 TH4-B1 TH4-B2 TH4-C1 TH4-C2 TH4-D TH4-K TH4-103 Applications of Novel Active Structures High-speed and Novel Wireless Systems Monolithic Receivers and System Techniques - Material, Electromagnetic Metasurfaces and Components Broadband Millimeter and Propagation Transmitters Component, Circuit, Compatibility (EMC) II and THz Wave Systems and Evaluation Aspects 17:10 APMC 2018 Banquet (The SODOH Higashiyama Kyoto) (18:40-21:00)

11/9 (Fri) Room A Room B1 Room B2 Room D Room J Room K Room 103 8:30 FR1-B1 FR1-B2 FR1-D FR1-J FR1-K FR1-103 Millimeter-wave Antenna Couplers and Dividers I Special Session: Special Session: High Frequency Oscillators Microwave Heating and Technologies Recent Advances in Silicon-Based mmW/THz Chemistry Metamaterial and Metasurfaces Technologies for Antenna Applications 10:10 FR1-IF Break 10:30 Interactive Forum IV (10:00-11:30) FR2-B1 FR2-B2 FR2-D FR2-J FR2-K FR2-103 Broadband and Multi-band Couplers and Dividers II Metamaterials, EMBGs and Radar Architectures, Signal Emerging III-V Devices/ Material Characterization Antennas FSSs II Processing, and Systems Circuits Techniques at Microwave and Millimeter-wave Frequencies 12:10 Lunch 13:30 FR3-B1 FR3-B2 FR3-D FR3-J FR3-K FR3-103 Smart and Reconfigurable Novel Technologies for Metamaterials, EMBGs and Radar Applications and Special Session: Microwave Measurement and Antennas Wireless Communication FSSs III Remote Sensing Advance in Numerical Simulation Sensing FR3-IF Systems Technology Does Not Stop ! - Interactive Forum V Technological Collaboration 15:10 (14:00-15:30) Brings a New World 15:30 Break APMC 2018 Closing and Award Ceremony (Room D) (15:30-17:10)

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APMC2018 表2i-表3_sk.indd 全ページ 2018/10/30 15:51:26 APMC2018 表3.indd 1 18/08/14 9:08 FLOOR PLAN

Room A Foyer (University Poster Exhibition)

Smoking Area

to the 5th Floor (Flower Arrangement Workshop)

Room 102 (Speakers’ Preparation Room)

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CONFERENCE AT A GLANCE...... i FLOOR PLAN...... ii TABLE OF CONTENTS...... iii GREETINGS FROM THE STEERING COMMITTEE CHAIR...... 1 MESSAGE FROM THE TECHNICAL PROGRAM COMMITTEE CHAIR...... 1 SPONSORS...... 2 GENERAL INFORMATION...... 3 CONFERENCE SITE...... 3 KYOTO...... 3 REGISTRATION...... 3 HOTEL ACCOMMODATIONS...... 4 OFFICIAL TRAVEL AGENT...... 5 HOTEL LOCATION...... 5 YOUTH HOSTEL INFORMATION...... 7 TRANSPORTATION...... 7 OTHER INFORMATION...... 7 SOCIAL PROGRAM...... 7 MEETINGS INFORMATION...... 8 APMC 2018 PRIZE AND APMC 2018 STUDENT PRIZE...... 9 TECHINICAL SESSIONS (Special Sessions)...... 10 APMC 2018 OPENING - Special Talk & Keynote Address...... 13 TECHNICAL SESSIONS (Oral Sessions)...... 14 TECHNICAL SESSIONS (Interactive Forum)...... 34 WORKSHOPS...... 44 SHORT COURSES...... 49 APMC 2018 CLOSING and AWARD CEREMONY...... 51 STUDENT AND YOUNG ENGINEER DESIGN COMPETITIONS...... 51 EXHIBITION...... 51 APMC 2018 COMMITTEE OFFICERS...... 52

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APMC2018 iii_TABLE OF CONTENTS_sk.indd 3 2018/10/26 11:18:03 GREETINGS FROM THE ORGANIZING COMMITTEE CHAIR

It is my pleasure and honor to welcome all delegates from microwave technology. I sincerely hope that the technologies many countries and regions to the commemorative 30th Asia- presented here will contribute to the field of microwave industry Pacific Microwave Conference (APMC 2018) to be held in for realizing the affluent society. Kyoto, which is the 1000 year old capital of Japan and one of the As the Organizing Committee Chair, I would like to express most suitable cities to celebrate the long lasting APMC. After the my sincere appreciation to all the authors, speakers, and reviewers start in India at 1986, the conference has made a substantial over the world together with the contribution to the exchange of the latest scientific and committee members for great efforts to technological knowledge in microwave related fields. substantiate the conference. The APMC is dedicated to a broad range of high frequency related topics, from materials and technologies to integrated circuits, and systems, with emphasis on hardware development, and measurement. The recent topics of information technologies such as IoT (Internet of Things), AI (Artificial Intelligence) and Ikuo Awai 5G (Fifth Generation) will also influence the embodiment of the APMC 2018 Organizing Committee Chair GREETINGS FROM THE STEERING COMMITTEE CHAIR

It is my great honor to welcome all of you to the 2018 Asia- As you may know, Kyoto flourished as a Japanese ancient Pacific Microwave Conference (APMC 2018), which will be held capital and center of Japan for a long time. Kyoto is one of the at Kyoto International Conference Center (ICC Kyoto), Kyoto, most famous tourist spots, where many people from home and Japan, on November 6-9, 2018. The series of APMC began in abroad visit. Here in Kyoto, Japanese classic culture has been succeeded until today. We have deepened our cultures by 1986 and APMC 2018 is going to be the commemorative 30th harmonizing with other Asian cultures. And many famous conference. Celebrating its 30th conference, Professor Tatsuo electronic component manufacturers in Kyoto incorporate the Itoh will give us a special talk titled “Birth and Growth of latest technologies from Europe and America and harmonize APMC.” them with their own original technologies. Thus, I believe the The key concept of APMC 2018 is “Harmonious World historical city “Kyoto” is the most suitable place to connect Connected by Microwaves.” It expresses our deep wishes that not microwave technology to various applications, such as energy only countries but also various academic fields and their transfer, microwave heating, production of chemicals and medical applications are connected by microwave technology, to applications. sympathize and harmonize each other for creating happiness and APMC 2018 is organized and sponsored by the Institute of prosperity of human society. Electronics, Information and Communication Engineers (IEICE). At the APMC 2018 Opening, Mr. Takehiro Nakamura, Senior It is technically sponsored by IEEE MTT-S and AP-S, EuMA, Vice President of NTT DOCOMO, INC., will give a keynote URSI, and many other organizations. Also, it is supported by the address on “The future outlook and applications opened up by Ministry of Internal Affairs and Communications of Japanese 5G.” For the Workshops and Short Courses, 13 programs are Government. I would like to express my gratitude to the authors, prepared. They cover the cutting-edge microwave technologies the attendees, and the sponsors for their and provide us up-to-date topics, such as RF front end modules contributions to APMC 2018. and mm-Wave GaN for 5G applications, advanced WPT systems, It is our supreme pleasure to invite you Ultra high resolution radar systems. Also, we have prepared to APMC 2018 in Kyoto to have useful special sessions on silicon-based mm-Wave technologies, new discussions. I sincerely request you to developments for space applications, recent advances in come to Kyoto at this occasion. metamaterial for antenna applications, connected vehicles for advanced safety and comfort mobility. Furthermore, 4 tracks of “Student and Young Engineer Design Competition” are planned Toshio Ishizaki to encourage young engineers. APMC 2018 Steering Committee Chair MESSAGE FROM THE TECHNICAL PROGRAM COMMITTEE CHAIR

On behalf of the Technical Program Committee, I would like areas of microwave science and technologies including 5G, to proudly announce the technical program for APMC 2018. intelligent mobility, wireless power transfer, Terahertz waves, APMC 2018 has attracted 862 paper submissions from 47 and microwave heating and chemistry. countries all over the world and has accepted 585 papers, which On the first day, APMC 2018 offers 9 cutting-edge workshops is the record in the history of APMCs in Japan. APMC 2018 and 4 intensive short courses in the focused areas. Following offers 71 quality technical sessions in 7 tracks, focusing on topical three days provide 12 special sessions, 54 oral sessions, and 5

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APMC2018 01_02 GREETINGS_9k.indd 1 2018/10/30 10:03:09 interactive forums including 9 invited talks by distinguished system design, and a transmission line challenge. The speakers in the field. An opening session is scheduled in the competitions are supported by some of the leading microwave afternoon on the second day. The APMC 2018 Opening includes test and measurement companies. A special session on microwave a special talk entitled “Birth and Growth of APMC” celebrating heating and chemistry is also scheduled in collaboration with the 30th APMC by Dr. Tatsuo Itoh, Professor at UCLA, and a JSPS 188 Committee/JEMEA. plenary talk entitled “The future outlook and applications opened The APMC 2018 Closing and Award Ceremony is held on the up by 5G” by Mr. Takehiro Nakamura, NTT DOCOMO, INC., last day after all the technical sessions. The ceremony starts with Japan, envisioning frontiers in upcoming 5G technologies. a series of omnibus talks on unique microwave activities from Special activities on Women in Engineering/Women in Kansai area in microwave meteorological astronomy radar Microwaves and Young Professionals are also scheduled on the technologies, microwave medical applications, and microwave second day in collaboration with IEEE MTT-S including a social heating and chemistry, followed by the get-together event in the evening. Those who are taking part in award ceremony of APMC 2018 Prize and and/or are interested in these activities are welcome to participate. APMC 2018 Student Prize. A collaborative special session with EuMA is scheduled on the We hope you enjoy the APMC 2018 second day as well to introduce leading activities in Europe. program and looking forward to meeting On the third day, student and young engineer design you in Kyoto. competitions are held at Room A in conjunction with Exhibitions and Interactive Forums to encourage future microwave engineers. Atsushi Sanada The competitions consist of four design tracks of a microwave APMC 2018 Technical Program active circuit design, a filter design, a wireless power transfer Committee Chair SPONSORS

Organizer and Sponsor - IEEJ Investigating R&D Committee on Highly Secure-Reliable - The Institute of Electronics Information and Communication Wireless Networks Engineers (IEICE) of Japan - Japan Society for the Promotion of Science, 188th Committee on Electromagnetic-Field-Excited Reaction Fields Supporter - Ministry of Internal Affairs and Communications Gold Sponsors - Murata Manufacturing Co., Ltd. Technical Sponsors - Sumitomo Electric Industries, Ltd. - IEEE MTT-S - IEEE AP-S Silver Sponsors - European Microwave Association (EuMA) - Anritsu Corp. - URSI - iRadar Sdn. Bhd - IEEE MTT-S Japan/Kansai/Nagoya Chapters - Keysight Technologies - IEEE AP-S Kansai Joint Chapter - M-RF Co., Ltd. - IEICE Technical Committee on Microwaves - National Instruments (formerly AWR Corp.) - IEICE Technical Committee on Electronics Simulation - Nippon Pillar Packing Co., Ltd. Technology - NSI-MI Japan Co., Ltd. - IEICE Technical Committee on Microwave Photonics - Panasonic Corp. - IEICE Technical Committee on Integrated Circuits and Devices - IEICE Technical Committee on Electron Devices Item Sponsors - IEICE Technical Committee on Antennas and Propagation - Amtechs Corp. - IEICE Technical Committee on Wireless Power Transfer - Everbeing Nnt’l Corp. - IEICE Technical Committee on Short Range Wireless Commu- - IMST GmbH nications - MPI Corp. - IEICE Technical Committee on Intelligent Transport Systems - Tokyo Instruments, Inc./Terasense Group Inc. Technology - IEICE Technical Group on Terahertz Application Systems Subsidizing Institutions - Japan Institute of Electronics Packaging - Research Foundation for the Electrotechnology of Chubu - Japan Society of Electromagnetic Wave Energy Applications - Support Center for Advanced Telecommunications Technology - The Radiation Science Society of Japan Research, Foundation - IEEJ Investigating R&D Committee on Advanced Technology - The Murata Science Foundation for Progress the Electromagnetic Wave Application - The Telecommunication Advancement Foundation

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APMC2018 01_02 GREETINGS_9k.indd 2 2018/10/30 10:03:09 GENERAL INFORMATION

CONFERENCE SITE REGISTRATION The conference venue, Kyoto International Conference Center Pre-Registration (Early Bird & Advance) and On-Site (ICC Kyoto), is located in the north of Kyoto City. ICC Kyoto is Registration the largest conference complex in Kyoto with its good location Those who intend to participate in APMC 2018, including the and surroundings, and has 50 years of experience in holding presenters, session chairs, committee members, etc., are requested large-scale international events. It boasts its attractive to register for the “Conference” (from November 7 to 9, 2018) architectural design, ample lobby space, and a beautiful Japanese and/or the “Workshops/Short Courses” (on November 6, 2018). garden, providing good networking opportunities for visitors. For Pre-Registration (Early Bird & Advance) is available on the more information, please refer to the website: http://www. APMC 2018 website from August 1 to October 23, 2018. icckyoto.or.jp/en/ For those who cannot register beforehand, On-Site Registration is available at the Registration Desk at the Conference venue KYOTO from November 5 to 9, 2018. Kyoto is one of the best cities in the world to travel according to some influential travel magazines. It served as the capital of Registration Fees Japan from 794 to 1868 and has been nurturing its unique culture The registration fees are separated for the “Conference” and for over 1200 years. Today, Kyoto has 17 UNESCO World “Workshops/Short Courses,” but you can take advantage of a Cultural Heritage Sites and over 2000 temples and shrines. Kyoto better deal by selecting “Superpass,” which covers both the is famous for its historic sceneries, wonderful architectures, “Conference” and “Workshops/Short Courses.” traditional cultures and hospitality of the local Japanese. People Those who registered for the “Conference” will get admission from all over the world will feel comfortable in the city. In 2016, to the Welcome Reception (on November 6, 2018), the APMC Kyoto attracted more than three million international visitors. 2018 Opening with the Special Talk and the Keynote Address (on Particularly in November, many tourists come to Kyoto to enjoy November 7, 2018), and the Technical Sessions (from November the autumn and colorful trees, such as maples. 7 to 9, 2018). Kyoto is located near the center of Japan, and has a very Those who registered for the “Workshops and Short Courses” convenient public transportation. It takes about 75 minutes from will get admission to the Workshops/Short Courses on November Kansai International Airport to Kyoto’s central railway station by 6, 2018. the JR Airport Express “Haruka” train, or 90 minutes by There are also privileges of membership of the APMC 2018 limousine bus. sponsoring organizations; “IEICE,” “IEEE MTT-S,” “IEEE AP-

• Presenter (Presenting Author) ◇ 1: Regular (Member), 2: Regular (Non-Member), 3: Student/Retiree (Member), 4: Student/Retiree (Non-Member) Superpass Conference

PS1 PS2 PS3 PS4 PC1 PC2 PC3 PC4

Early Bird ¥53,000 ¥73,000 ¥31,000 ¥51,000 ¥50,000 ¥70,000 ¥29,000 ¥49,000 (OPEN - 8/31)

* Presenter can present ONE paper. A single presenter can give multiple presentations by paying an additional presentation fee of 20,000 JPY per paper for the second and subsequent papers. * “Superpass” covers both the “Conference” and “Workshops/Short Courses.”

• Audience

Workshops/ Superpass Conference Short Courses

AS1 AS2 AS3 AS4 AC1 AC2 AC3 AC4 AW1 AW2

Early Bird ¥33,000 ¥53,000 ¥11,000 ¥31,000 ¥30,000 ¥50,000 ¥9,000 ¥29,000 ¥6,000 ¥16,000 (OPEN - 9/15)

Advance ¥38,000 ¥58,000 ¥16,000 ¥36,000 ¥35,000 ¥55,000 ¥14,000 ¥34,000 ¥8,000 ¥18,000 (9/16 - 10/23)

On Site ¥48,000 ¥68,000 ¥26,000 ¥46,000 ¥45,000 ¥65,000 ¥24,000 ¥44,000 ¥10,000 ¥20,000 (11/5 – 11/9)

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S,” “EuMA,” “URSI,” “JIEP,” “JEMEA,” or “IEEJ.” Please visit the technical sessions of the Conference or Workshops/Short the sponsoring organizations’ websites for membership Courses, and will not be provided with a copy of the Conference application, only if you like. Proceedings or Workshops/Short Courses Digest. The Registration Fee differs depending on: Those who are interested in participating in the Conference a. the application date for registration sessions should register individually. b. whether the registrant is a student/retiree or not c. whether the registrant is a member of any of the APMC APMC 2018 Banquet 2018 Sponsoring Organizations above or not The APMC 2018 Banquet is scheduled to be held on the evening of Thursday, November 8, 2018 for the registrants of the *Those who selected “Student” will be required to show their “Conference” (or “Superpass”). student ID on their arrival at the Registration Desk at the The price of a Banquet Ticket for one person differs depending Conference venue. In case you are a student now and if you are on the registration date: graduating from school before the date of APMC 2018 • From August 1 to October 23, 2018 : 10,000 JPY per person (November 5, 2018), please bring a copy of your student ID to the • From November 5 to 9, 2018 : 15,000 JPY per person Registration Desk. The student ID must be written either in The number of banquet tickets is limited, and the tickets will English or Japanese. be sold on a first-come-first-served basis. *The definition of “Retiree” is as follows: a person who is attaining the age of 60 years as of November 5, 2018, and not Payment Method gainfully employed. Those who selected “Retiree” will be For Pre-Registration, the payment should be done using the required to show a legal ID on their birthday on their arrival at the on-line Credit Card Settlement System, which will be available in Registration Desk at the Conference venue. The ID must be the “Personal Account Page.” written either in English or Japanese. If you have difficulty in paying by credit card, you can select *Please note that, from October 24 to November 4, 2018, the another way, “Bank Transfer,” by clicking the button in the Pre-Registration will NOT be accepted. Those who could not Registration System. Payment by bank transfer must be completed complete registration by October 23, 2018, should register during within 10 days from the registration date. If we find the payment the conference period. not completed by then, the registration will become invalid. For On-Site Registration, the payment should be done in cash Registrant’s Kit (JPY only), or by credit card. Those who pre-registered for the “Conference” (or Acceptable Card Types: “Superpass”) will each receive a set of the Conference • Pre-Registration: VISA, Master, Amex, Diners, JCB Registrant’s Kit, which includes a digital copy of the Conference • On-site Registration: VISA, Master, Amex, Diners (JCB is Proceedings, a printed name tag, a Conference Bag, tickets for not acceptable) lunch boxes, etc. The kit will also include a souvenir gift for those who pre- Cancellation registered early; the number of the gifts is limited and they will In the event of cancellation, no refund will be made after the be provided on a first-come-first-served basis. completion of payment, no matter what the reason may be. Those who pre-registered for the “Workshops/Short Courses” (or “Superpass”) will each receive a digital copy of the Registration Desk Workshops/Short Courses Digest. The Registration and Information Desk will be located on the The registration fees (“Superpass,” “Conference,” and 1st floor of the Conference venue, ICC Kyoto, and will be open “Workshops/Short Courses”) do NOT include the Banquet fee. during the following hours: • November 5, 2018 : 16:00-19:00 Accompanying Family Members • November 6, 2018 : 09:00-18:00 Those who pre-registered for the “Conference” (or • November 7, 2018 : 08:00-17:00 “Superpass”) can register their family members for APMC 2018. • November 8, 2018 : 08:00-17:00 Accompanying Family Members should be the registrant’s family • November 9, 2018 : 08:00-14:30 or relative, such as his/her spouse (husband or wife), sibling (brother or sister), child, etc., who will not attend the conference HOTEL ACCOMMODATIONS sessions, but will participate in the conference’s official events, Rooms at ten hotels in Kyoto, which are accessible from/to such as the “Welcome Reception” (free of charge), and the ICC Kyoto, are available through the official travel agent of “APMC 2018 Banquet” (10,000 or 15,000 Japanese yen (JPY) APMC 2018. Reservations can be made through the website for per person).” the hotel accommodations. Please note that Accompanying Family Members cannot attend http://www.apmc2018.org/accommodation.html

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JTB Global Marketing & Travel Inc. OFFICIAL TRAVEL AGENT Convention Center JTB Global Marketing & Travel Inc., the official travel agent 2-3-14 Higashi-Shinagawa, Shinagawa-ku, Tokyo 140-8604 of APMC 2018, has reserved a sufficient number of rooms at Japan several hotels in Kyoto, Otsu, and Osaka for APMC 2018. Business hours: 10:00-17:00 Reservations will be processed according to the application. Fax: +81-3-5495-0685 Please contact JTB Global Marketing & Travel Inc. for information on sightseeing tours as well.

HOTEL LOCATION - Whole Area -

162 367

161

162

477 423 9

9

423

1 24

422

423

307

171

Line 168

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hani

176 e

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168 308 172 308 308

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ICC Kyoto ( Kyoto International Conference Center )

1 - Kyoto Area - Kokusai Kaikan Sta.

Kitayama Sta. Matsugasaki Sta. Kitayama St. Ryoanji Kinkakuji Temple Temple Kitaoji St. Kitaoji Sta.

Kuramaguchi Sta.

Demachiyanagi Sta. Ginkakuji Temple

Imadegawa St. Imadegawa Sta. Kawaramachi St. Kamogawa River Kawabata St. Senbon St. Horikawa St.

Kyoto Imperial Palace Honenin Temple

Marutamachi St. Marutamachi Sta. Marutamachi Sta. tS a w akarih S Heian Higashioji St. Higashioji Shrine Nijo-jo Karasuma Castle 14 Oike Sta. Oike St. 11 City Hall 2 Nijo Sta. Nijo Nijojomae Sanjokeihan Sta. Sta. Kyoto Sta. Shiyakusho-mae Sta. Keage Sanjo St. Sanjo Sta. Higashiyama Sta. Sta. Yasaka Shrine Hankyu Karasuma Sta. Saiin Sta. Omiya Sta. 15 Shijo Sta. Kodaiji Temple For Otsu For Umeda Shijo Sta. Kawaramachi Sta. (Hama Otsu Sta.) (Hankyu) (Osaka) 12 & Daigo 10 16

Gojo st. Gojo Sta. Gojo Sta. Kiyomizu

Karasuma St. Temple Tanbaguchi 8 Higashi Sta. Nishi Honganji Honganji Temple Temple Nanajo St. Nanajo Sta. 4 9 6 Sanjusangendo

JR KYOTO For Osaka Hachijo St. For Yamashina & Otsu Toji Temple 13 3 7 5 Kujo St. Kujo Sta. For Moriguchi-shi,Yodoyabashi For Takeda & Nakanoshima

Subway Karasuma Line Hankyu Line Keihan Line

1 Grand Prince Hotel Kyoto 7 Hotel Centnovum Kyoto 13 Kyoto Plaza Hotel 2 Kyoto Hotel Okura 8 Vessel Hotel Campana Kyoto Gojo 14 Kyoto Garden Palace 3 New Miyako Hotel 9 Hotel Hokke Club Kyoto 15 Kyoto Central Inn 4 Hotel New Hankyu Kyoto 10 Daiwa Roynet Hotel Kyoto Shijo Karasuma 16 Kyoto Rich Hotel 5 Almont Hotel Kyoto 11 Hearton Hotel Kyoto 6 Kyoto Tower Hotel 12 Karasuma Kyoto Hotel

- Osaka Area - - Otsu Area -

479

16

158

479

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14 163

8 423 159 176

30

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fluctuates daily. YOUTH HOSTEL INFORMATION Those who wish to save the budget may prefer the following Traveler’s Checks and Credit Cards youth hostels: As traveler’s checks are not common in Japan, you should use - Utano Youth Hostel (about one hour to the Conference site them only at major hotels and leading banks. Major credit cards, by train and bus) such as VISA, Master, AMEX, and JCB, can be used at https://www.yh-kyoto.or.jp/utano_en/ restaurants, hotels, souvenir shops, etc. Union Pay card is also - Kiyomizu Youth Hostel (about one hour to the Conference available at many restaurants, hotels, shops, etc. site by train) http://www.jyh.or.jp/e/i.php?jyhno=5214 Tipping Tipping is not customary in Japan. For example, you do not TRANSPORTATION need to tip servers at restaurants. From JR Kyoto Station to Conference Site by Subway: From JR Kyoto Station to Conference Site by Subway Take Japanese Traffic the Karasuma Subway Line from JR Kyoto Station to There are usually heavy traffic jams in the downtown area of Kokusaikaikan Station (K01), which takes about 20 minutes, and Kyoto. Bus is convenient but mostly late. Subway is preferred. the one-way fare is 290 JPY per person. Once you get off at From Otsu to Kyoto, or from Osaka to Kyoto, train is a good Kokusaikaikan Station, you should follow the signs written in option. English, which will lead you to ICC Kyoto in about five minutes. There is a roofed walkway all the way from the station to ICC Internet connection Kyoto, so that you will never get wet even on a rainy day. Wi-Fi is available for free in the building of ICC Kyoto. Please select the network “APMC2018” on your electoronic device. For From JR Kyoto Station to Conference Site by taxi: further settings, please refer to the sheet distributed to the APMC It takes about 30 minutes from Kyoto Station in normal traffic. 2018 registrants at the venue. The fare is about 3,500 JPY for one way. SOCIAL PROGRAM Detailed information is available at the following APMC 2018 offers you original and fascinating events; The website: Welcome Reception, the Opening Ceremony, the Banquet, the Access to Kyoto and Conference site (ICC Kyoto): Flower Arrangement Workshop, and the Closing Session and http://www.icckyoto.or.jp/en/visitor-2/access/getting_here/ Award Ceremony.

OTHER INFORMATION Welcome Reception Electricity All the participants in the Conference are invited to the Electricity supply is 100 Volts/60 Hz in the western Japan Welcome Reception to be held from 17:30 to 19:30 on Tuesday, including the Osaka-Kyoto area, and 100 Volts/50 Hz in the November 6, at the Banquet Hall “Sakura” in ICC Kyoto. A eastern Japan. splended Japanese drum performance by Kyoto Tachibana High School Taiko Club, the “Kagamiwari” ceremony - cracking the Weather top of a large barrel of sake (Japanese rice-wine) with wooden Kyoto lies in the temperate zone and has four distinct seasons. hammers to celebrate the success of the conference -, and November is the end of autumn, when Kyoto gradually gets beautiful and gorgeous maiko/geiko performance will entertain colder. The temperature ranges between 7℃ (45℉) and 17℃ all the participants. The Welcome Reception Tickets will be (63℉). This will be the best season for colorful autumn leaves. distributed to the registrants of the Conference and their accompanying family members (free of charge). Non-Smoking Policy Smoking is prohibited in the whole building of ICC Kyoto, APMC 2018 Opening except in designated outdoor smoking areas. The APMC 2018 Opening will be held from 13:30 to 15:30 on Wednesday, November 7, at the Annex Hall of ICC Kyoto. Currency The ceremony starts with a welcome address from the APMC Japanese yen (JPY) is the only currency that is used at stores 2018 Organizing Committee Chair and a brief introduction of the and restaurants. You can exchange foreign currencies for event by the APMC 2018 Steering Committee Chair, followed by Japanese yen at foreign exchange banks and other authorized congratulatory addresses from invited representatives of IEICE, money exchangers by showing your passport. The exchange rate IEEE MTT-S, IEEE AP-S, EuMA, and URSI. Then, a brief report

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APMC2018 03_09 GENERAL INFORMATION_12k.indd 7 2018/10/26 11:20:45 GENERAL INFORMATION

on paper review results of APMC 2018 is provided by APMC APMC 2018 Banquet 2018 Technical Program Committee Chair. We hope you enjoy "Omotenashi" - the spirit of Japanese Subsequently, the Special Talk by Prof. Tatsuo Itoh, hospitality - and the breathtaking autumn scene in Kyoto at the Distinguished Professor of Electrical Engineering, University of Banquet! California, Los Angeles, USA, and the Keynote Speech by Mr. The Banquet will be held from 18:40 to 21:00 on Thursday, Takehiro Nakamura, Senior Vice President and General Manager November 8, at the "SODOH Higashiyama Kyoto" in the of the 5G Laboratories, NTT DOCOMO, Japan will be given. Higashiyama district of Kyoto. The SODOH Higashiyama Kyoto offers you the best of Kyoto-style Italian cuisine in the vicinity of Young Professionals and Women in Engineering/ Kodaiji Temple - the prominent autumn leaves spot -, Ninenzaka, Microwaves Reception Sannenzaka streets - full of traditional shops and cute boutiques -, Students, participants and volunteers in APMC 2018 who have and Kiyomizudera Temple - a UNESCO World Heritage site -. graduated from their first professional degree within the past 15 Vegetarian meals and halal meals are available as well. years are cordially invited to the Young Professionals Reception After savoring every mouthful at the Banquet, we will proceed held in Banquet Hall Swan during 18:00-19:30 on November 7. to Kodaiji Temple and admire the beautiful garden and the The Reception is jointly held with Women in Engineering/ autumn foliage with evening illumination. Microwaves and every woman is invited as well. The buses will take the Banquet participants to the Banquet The reception includes a special talk by Prof. Sungtek Kahng, venue, and back to JR Kyoto Station or ICC Kyoto after the Incheon National University, Korea, introducing potential carrier Banquet. The buses will depart at 17:30 in front of the entrance of plans and professional networks in the microwave community to ICC Kyoto. Do not miss the bus. Young Professionals. Also, Prof. Ke Wu from Ecole Polytech- nique University of Montreal will provide insightful talk for APMC 2018 Closing and Award Ceremony women in engineering and microwaves. The APMC 2018 Closing and Award Ceremony will be held The admission is free of charge and no pre-registration is from 15:30 to 17:10 on Friday, November 9, at Room D in ICC required. Kyoto. The winners of APMC 2018 Prize and APMC 2018 Special Speakers: Student Prize will be awarded. - Prof. Sungtek Kahng, Incheon National University, Korea - Prof. Ke Wu, Ecole Polytechnique University of Montreal, Canada MEETING INFORMATION Sponsors: APMC ISC Meeting IEEE MTT-S MGA Young Professionals Committee, IEEE The APMC International Steering Committee (ISC) Meeting WIE Sendai, IEEE MTT-S MGA Committee, IEEE WIE JC, will be held on Wednesday, November 7, 2018 at Room 555, ICC IEEE WIE Kansai, IEEE WIE Nagoya Kyoto. The APMC ISC members representing the APMC countries are invited. Flower Arrangement Workshop Date: Wednesday, November 7, 2018 Participate in a hands-on workshop for a glimpse into Time: 10:30-12:30 "Ikebana," the Japanese art of flower arrangement, on November Place: Room 555, ICC Kyoto 8, 2018. Ms. Tomoyo Wells, a Master of Ohara School of Ikebana, will lead you to a fascinating Ikebana world. IEEE MTT-S Chapter Chairs Meeting and Workshop The workshop will be held from 10:00 to 11:30 in the morning The Chapter Chair Meeting and Workshop will be held on and from 14:00 to 15:30 in the afternoon at Room 510 (the 5th Wednesday, November 7, 2018 at Room E, ICC Kyoto to provide floor) in ICC Kyoto. Both men and women are welcome. Let's an opportunity to share important and useful information for appreciate the beauty of arranged flowers with Japanese Tea and chapter operations. All the chairs of the IEEE Microwave Theory sweets! You can take those flowers home after the workshop. and Techniques Society (MTT-S) Chapters and Joint Chapters are Each round of the workshop accepts 16 people, and the tickets are invited. available at the registration desk with free of charge on a first- Date: Wednesday, November 7, 2018 come-first-served basis. Time: 15:50-20:00 Place: Room E, ICC Kyoto

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APMC2018 03_09 GENERAL INFORMATION_12k.indd 8 2018/10/26 11:20:45 APMC 2018 PRIZE AND APMC 2018 STUDENT PRIZE

The APMC 2018 Prize will be awarded to the authors of the APMC 2018 Award Committee, and the certificates and outstanding papers submitted to APMC 2018. In addition, the rewards will be given to the awardees at the APMC 2018 Closing APMC 2018 Student Prize will be given to outstanding student and Award Ceremony, which is scheduled at 15:30 on Friday, papers presented at APMC 2018. These prizes will be judged by November 9, 2018 at Room D, ICC Kyoto.

APMC 2018 Prize Finalists APMC 2018 Student Prize Finalists Compact and High Isolation Microstrip Six-Channel Diplexer Using Studies on a Frequency-Stabilized Power-Adjustable Magnetron Multi-Mode Stepped-Impedance Resonators Based on Equivalent Model Chi-Feng Chen Xiaojie Chen Compact Quasi-Lumped Element Bandpass Filters for Single-ended Realization of Cross-Coupled X- and Y-Shaped Dual-Mode Dielectric High-Purity Frequency Multipliers Applications Resonator Filters Feng-Jun Chen Daniel Miek High-output-power and Reverse-isolation G-band Power Amplifier Performance Evaluation of an IEEE 802.11af Prototype in a Suburban Module Based on 80-nm InP HEMT Technology Environment Hiroshi Hamada Antonio III Montejo Measurements of Interface Conductivity of Copper-clad Dielectric A 60 GHz Frequency Doubler with Differential Output in 130 nm Substrates at Millimeter Wave Frequencies Using TE02δ Mode SiGe BiCMOS Technology Dielectric Rod Resonator Excited by NRD Guide Vincent Rieß Naoki Hirayama An X-Band Flat Broadband Transformation-Optics-Driven Luneburg A Novel Concept for 2D Butler Matrix with Multi-Layers Lens Antenna for Synthetic Aperture Radar Technology Yuanyan Su Cheng-Hung Hsieh Constant Permeability Design of Cylindrical Invisibility Cloaks with An Empirical Performance Evaluation of Time Synchronization Hyperbolic Coordinate Transformation Based on Transformation Using GNSS Signal Simultaneously Transmitted with 10 Gbps Electromagnetics Optical On-Off Keying Yuma Takano Yuya Kaneko Advanced Mode Unity Using Loop Antennas Proximate to Reflector Evaluation of >140-GHz Band Filter Bank Prototype for Orbital Angular Momentum Communication Takashi Kawamura Ryohei Yamagishi Via-less Waveguide to Microstrip Line Transition with Tolerance to Unit Cell Block for 3-D Isotropic Negative-Index Metamaterials Misalignment of Circuit Patterns Impedance-Matched to Free Space by Using Dielectric Cubes and Takashi Maruyama Metallic Mesh Prototype of 12/21GHz-band Dual-circularly Polarized Receiving Takuya Yamaguchi Antenna for Satellite Broadcasting Highly Stable Terahertz Resonant Tunneling Diode Oscillator Masafumi Nagasaka Coupled to Photonic-Crystal Cavity Development of rapid heating and cooling technology by single-mode Xiongbin Yu microwave cavity applied for nanoparticle synthesis A 26GHz-band Image Enhancement Type 1-Bit DAC for Direct Masateru Nishioka Digital RF 1-bit Modulator A Novel Multi-Band Look-Up Table Based Digital Predistorter with Junhao Zhang a Single Common Feedback Loop Dual-channel 56 Gb/s PAM-4 Electro-Absorption Modulator Driver Tomoya Ota for 3D Wafer Scale Packaging A 28GHz 4-Channel Transmit/Receive RF Core-Chip with Highly- Xi Zhang Accurate Phase Shifter for High SHF Wide-band Massive MIMO in Mm-Wave High Gain Substrate Integrated Cavity Excited Patch 5G Antenna Array Wataru Yamamoto Jianfeng Zhu

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APMC2018 03_09 GENERAL INFORMATION_12k.indd 9 2018/10/26 11:20:45 TECHNICAL SESSIONS (Special Sessions)

All the presentations at the Special Sessions have been invited by 8:30-10:10 the APMC 2018 Technical Program Committee. The details of WE1-103: Trends of 5G Technologies in Asia-Pacific Region each Special Session are written in the Program of the Chair: Hiroshi Okazaki (NTT DOCOMO, Japan) “TECHNICAL SESSIONS (Oral Sessions)” (See pages 14‒33). This session focuses on trends of 5G technologies in Asia-Pacific regionin terms of technical and strategical aspects in microwave technologies. The session is overviewed by Dr. Hiroshi Okazaki, Wednesday Special Sessions NTT DOCOMO, Japan, and followed by special talks by Mr. Tim Lee, the Co-Chair of the IEEE 5G Initiative, and a special talk 8:30-10:10 Prof. Arokiaswami Alphones, the General Chair of APMC 2019 WE1-C1: Micromachined Terahertz Systems - A New in Singapore. Heterogeneous Integration Platform enabling the commercialization of the THz frequency spectrum 15:50-17:10 (M3TERA) WE4-B2: Connected Vehicles for Advanced Safety and Chairs: Yinggang Li (Ericsson AB, Sweden), Joachim Comfort Mobility in 4G/5G and beyond Oberhammer (KTH Royal Institute of Technology, Chairs: Kei Sakaguchi (Tokyo Institute of Technology & Sweden) Fraunhofer HHI, Japan), Kazuaki Takahashi (Panasonic Corporation, Japan) This special session reports on the results of the 2015-2018 European initiative M3TERA, a EUR 4.26 million project in the As represented by autonomous driving, major evolutions are H2020 framework programme. M3TERA envisions the wide- taking place in our transportation environment and mobility. spread usage of low-cost THz technology in our society, enabled Under these circumstances, it is said that multi-gigabit and/or by a micromachined heterogeneous integration platform. This ultra-low- latency communication technology based on 5G THz-system concept provides an unprecedented way to highly- communication is indispensable for achieving more advanced integrated, volume-manufactuable, cost- and energy-efficient, safety and more efficient mobility. In the connected car society reconfigurable millimeter-wave and submillimeter-wave systems, realized by such communication technology, V2X (Vehicle to with the potential to finally enable the large-scale everything), effective utilization of huge amount of data gathered commercialization of the heavily sought-after frequency spectrum by in-vehicle sensors and infrastructure sensors is expected. In between 100 GHz and 1 THz. The primary demonstrator of this this session, we will discuss advanced V2X technologies and project is a highly-miniaturized point-to-point communication social evolutions that V2X brings from the viewpoint of various links using the 129-134 and 141-148.5 GHz bands, and comprises industries such as car manufacturers, in-vehicle equipment a micromachined- waveguide platform including a suppliers, mobile communication operators, communication micromachined low-loss diplexer, with broadband SiGe Rx and equipment suppliers. Tx active circuits which are heterogeneously integrated directly into the waveguides, a horn-antenna feeding system with a 15:50-17:30 micromachined-waveguide interface, and a dielectric-lens antenna WE4-103: EuMA Special Session with an overall gain of 42 dBi. The secondary demonstrator is a Chair: Itziar Maestrojuán (Anteral, Spain) 122 GHz ISM-band radar system for medical applications, primarily vital-sign detection (both heard-beat and breathing The EuMA Special Session presents several significant European monitoring successfully demonstrated). The project partners are advances in different aspects of microwave research, including Technikon (Austria), KTH Royal Institute of Technology terminal antennas for Kaband satellite communication with beam (Sweden), Chalmers University of Technology (Sweden), steering agility, effective solutions for the miniaturization of Ericsson (Sweden), Infineon (Austria), CSEM (Switzerland), substrate integrated waveguide components and D-band MMIC Anteral (Spain). design for high datarate communications.

8:30-10:10 WE1-K: Research and Development of Space and Satellite Communication System Chairs: Takana Kaho (NTT, Japan), Shigeo Kawasaki (Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency, Japan) Aerospace research and development has become active globally in recent years. The proposed session introduces the latest efforts of space development in the world. First, development and inflight status of the JAXA’s asteroid sample return mission Hayabuas2 is presented. Some up-to-date interplanetary communication technologies aboard Hayabusa2 such as Ka-band system are also covered in this talk. Next, research and development of space development and satellite communication systems and onboard equipment in USA, Europa, and Japan. We are considering NASA, ESA, Mitsubishi Electric, SKY Perfect JSAT, and some companies as candidates for other lecturers.

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APMC2018 10_12 TECHNICAL SESSIONS_5k.indd 10 2018/10/26 11:20:23 TECHNICAL SESSIONS (Special Sessions) Thursday Special Sessions 10:30-12:10 TH2-103: JSPS 188 Committee/JEMEA Special Session: 8:30-10:10 Innovative Microwave Heating and Chemistry TH1-C1: Terahertz Technologies for Beyond 5G Mobile Chairs: Jun Fukushima (Tohoku University, Japan), Shuntaro Communications Tsubaki (Tokyo Institute of Technology, Japan) Chairs: Akihiko Hirata (Chiba Institute of Technology, Japan), Ho-Jin Song (POSTECH, Korea) This special session focuses on the application of microwave energy for chemical processes, material processing, medical The fifth generation (5G) in mobile communications is currently devices, as well as food and agricultural industries. Microwave under active investigation by industry, and targets of cutting edge heating process is expected to contribute to form green and research are moving to beyond 5G mobile communications, such sustainable industries due to significant energy reduction enabled as terahertz wireless communications. Terahertz wireless systems by a microwave rapid heating. In addition, recent advances in enable much more simultaneous wireless connections, with much high power semiconductor amplifier provides a new heating higher capacity than the 5G systems. The objective of this technology by taking advantage of precise control of microwave workshop is to provide a current snap shot on this exciting topic frequency, phase and power. In this session, invited talks will be to APMC attendees by reviewing the state-of-the-art recent given by frontier researchers in this field under support from progress in the terahertz technologies for wireless Japan Society of Electromagnetic Wave Energy Applications communications beyond 5G, ranging from the terahertz (JEMEA) and the 188 Committee (Electromagnetic Field- Excited transceivers, passive devices, antenna, channel modeling, and the Reaction Fields) of the University-Industry Research Committees, standardization activities. Japan Society for Promotion of Science (JSPS).

8:30-10:10 TH1-C2: Solar Power Satellite and Related Microwave Technologies Chairs: Young-Jin Park (KERI & UST, Korea), Naoki Shinohara (Kyoto University, Japan)

A Solar Power Satellite (SPS) is one of important allocations of a Microwave Power Transfer (MPT). The MPT, which is one of a Wireless Power Transfer (WPT) technologies, are originally started to develop toward the SPS from 1970. The SPS can cover weak points of the MPT, e.g. low beam efficiency, and can improve a value of the MPT, e.g. improvement and stabilization of power generation by solar cells in space. Recently, many Asian countries are interested in the SPS and the MPT and have already designed new SPS. In this session, we organize the ‘SPS and related microwave power transfer technologies’ and show recent activities of feasibility studies in Asian countries.

9:10-10:10 TH1-K: New Developments and Technologies for Space Applications Chairs: Guillaume Callet (UMS, France), Kenjiro Nishikawa (Kagoshima University, Japan)

Recent developments of technologies and space qualification of industrialized processes allow preparing the next generation of devices for space applications. High frequencies radars (THz), sub millimeter arrays, high integration of GaN based diodes are challenging topics under development that are taking benefits of the last technologies improvement. These topics should be developed in this session and the requirements for future space systems will be discussed.

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APMC2018 10_12 TECHNICAL SESSIONS_5k.indd 11 2018/10/26 11:20:23 TECHNICAL SESSIONS (Special Sessions) Friday Special Sessions

8:30-10:10 FR1-D: Recent Advances in Metamaterial and Metasurfaces for Antenna Applications Chairs: Toru Uno (Tokyo University of Agricultural Technology, Japan), Naobumi Michishita (National Defense Academy, Japan)

This special session covers recent advances in metamaterials and metasurfaces for antenna applications. The nonreciprocal metamaterials have been developed for enhancement of gain and reduction of beam squint in leaky wave antennas. The metaline antennas with loop, helical and spiral configurations have been proposed for circular polarized antennas. The planar CRLH leaky wave antenna has been developed with the asymmetry unit cell structure. The carpet and illusion cloaking by using reflectarray have simple and very thin structure. The negative refractive index material composed of multi-layer ceramic capacitors has been also proposed.

8:30-10:10 FR1-J: Silicon-Based mmW/THz Technologies Chairs: Shuhei Amakawa (Hiroshima University, Japan), Davide Guermandi (IMEC, Belgium)

This special session will focus on silicon-based (Si CMOS and SiGe HBT/BiCMOS) millimeter-wave and terahertz integrated circuits operating in the W-band (75 to 110 GHz) or above. Applications of these frequencies include (but not limited to) radars, imaging, and ultrahigh-speed communications. The special session will consist of invited talks by leading experts from Asia-Pacific, the Americas and Europe, and possibly a few contributed papers. The invited talks will cover new concepts and possible use cases of these extremely high frequencies, advances in circuit design techniques, and state-of-the-art silicon results.

13:30-15:10 FR3-K: Advance in Numerical Simulation Technology does not stop ! - Technological Collaboration brings a New World - Chairs: Hideaki Kimura (NTT Network Service Systems Laboratories, Japan), Yasuhide Tsuji (Muroran Institute of Technology, Japan)

The advance of numerical simulation technology has been remarkable due to improvement of computer performance. In design systems, technological progress is changing the role of simulation, that is, from ‘designer’s support’ to ‘leader’. In this special session, we introduce the recent simulation technology about automatic design and topology optimization by cooperated with other technologies such as neural network (NN), artificial Intelligence (AI) and so on. Furthermore, we predict that the future academia, industry and society which will be created by further evolution of numerical simulation technology.

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APMC2018 10_12 TECHNICAL SESSIONS_5k.indd 12 2018/10/26 11:20:23 APMC 2018 OPENING - Special Talk & Keynote Address

13:30 - 15:30 Wednesday, November 7 Annex Hall APMC 2018 Opening

The APMC 2018 Opening will be held from 13:30 to 15:30 on (Please see P.7 for further details.) Wednesday, November 7, at the Annex Hall of ICC Kyoto.

Special Talk

Special Talk: Birth and Growth of APMC In 1991, he joined the University of Speaker: Tatsuo Itoh, Distinguished Professor of Electrical California, Los Angeles as Distinguished Engineering, Univ. of California, Los Angeles, U.S.A. Professor of Electrical Engineering and Abstract: holder of the TRW Endowed Chair in The birth of the APMC and its progress to date will be Microwave Electronics (currently presented. Starting from heroic effort of Indian scholars who Northrop Grumman Endowed Chair). provided the foundation, there were Chinese scholars with a He received several awards including futuristic vision which has eventually formed the starting point of IEEE Third Millennium Medal (2000), APMC in the present format. The competitiveness of the APMC IEEE MTT Distinguished Educator Award has been grown when Japanese scholastic fathers responded to (2000), and Microwave Career Award Chinese suggestion to make the APMC one of three most from IEEE MTT Society (2011). He was elected to a member of important international microwave science and engineering National Academy of Engineering in 2003. In 2009, he received events. This talk will be used for soliciting historical and unique Outstanding Career Award from European Microwave experiences from each of all organizing committees. The unique Association. He received Alumni Award for Distinguished aspects of the APMC distinct from IEEE IMS and EuMC are that Service from College of Engineering, University of Illinois in the organization and operation are chosen to be most efficient for 2012. In 2018, he received IEEE Electromagnetics Award. each organizer. Operations and organization vary from country to Dr. Itoh is a Life Fellow of the IEEE. He was the Editor of country and city to city. Cultural difference is advantageously IEEE Transactions on Microwave Theory and Techniques (1983- exploited except in the area of technical contents. After several 85) and the founding Editor-in-Chief of IEEE Microwave and rounds of execution, it was decided that the technical contents of Guided Wave Letters (1991-94). He was President of the MTT each APMC should not allow any compromise. This type of Society in 1990 and was elected an Honorary Life Member of operation has contributed to nurture the capability of generation MTT Society in 1994. He was Chairman of Commission D of after generation of microwave engineers and scientists. URSI for 1993-1996. He received Doctor Honoris Causa, Biography: Universitat Autonoma de Barcelona, Spain, Oct 14, 2015. Tatsuo Itoh received Ph.D. in Electrical Engineering from the He has 450 journal publications, 910 refereed conference University of Illinois, Urbana in 1969. From 1976 to 1977, he presentations in the areas of microwaves, millimeter-waves, was with SRI International, Menlo Park, CA. From 1977 to 1978, antennas and numerical electromagnetics. He generated 82 Ph.D. he was Associate Professor at the University of Kentucky, students and hosted more than 100 visiting scholars and postdocs Lexington. In 1978, he joined The University of Texas at Austin, from various countries. and became Hayden Head Centennial Professor of Engineering.

Keynote Address Keynote Address: The Future Outlook and Applications activities for the W-CDMA, HSPA, LTE/ Opened up by 5G LTE-Advanced and 5G at ARIB in Japan Speaker: Takehiro Nakamura, Senior Vice President and since 1997. He has been the Acting General Manager of the 5G Laboratories, NTT DOCOMO, Chairman of Strategy & Planning JAPAN Committee of 5G Mobile Communications Abstract: Promotion Forum(5GMF) in Japan since In this presentation, DOCOMO's views on time plan, NW October 2014. deployment & migration scenarios, spectrum deployment Mr. Nakamura has also been scenarios for 5G deployment in 2020 will be provided. And contributing to standardization activities updates on DOCOMO's 5G trial activities with variety of vertical in 3GPP since1999, including as a industry players will be presented, also. contributor to 3GPP TSG-RAN as chairman from April 2009 to Biography: March 2013. Mr. Takehiro Nakamura joined NTT Laboratories in 1990. He is He is also very active in standardization of C-V2X/Connected now SVP and General Manager of the 5G Laboratories in NTT Car in ARIB and ITS Info-communications Forum in Japan. He is DOCOMO, Inc. now a leader of Cellular System Application Task Group of ITS Mr. Nakamura has been engaged in the standardization Info-communications Forum.

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 13 2018/10/26 11:20:06 TECHNICAL SESSIONS (Oral Sessions)

Wednesday, November 7 8:30 - 10:10 Room B1 Room B2 Room C1 Room C2 Session WE1-B1 Session WE1-B2 Session WE1-C1 Session WE1-C2 Printed Antennas and Arrays Innovative Filter Banks, Special Session: Micromachined Terahertz Transmitting and Receiving Chairs:Haruichi Kanaya (Kyushu Multiplexers, and Multiband Systems - A New Heterogeneous Elements for WPT and RFID University, Japan), Manabu Filters Integration Platform enabling the systems Yamamoto (Hokkaido Chairs:Hiroyuki Kayano (Toshiba commercialization of the THz frequency Chairs:Qiang Chen (Tohoku University, Japan) Corporation, Japan), Ching- spectrum (M3TERA) University, Japan), Ramesh Wen Tang (National Chung Chairs: Yinggang Li (Ericsson AB, Sweden), K. Pokharel (Kyushu Cheng University, Taiwan) Joachim Oberhammer (KTH Royal University, Japan) Institute of Technology, Sweden) WE1-B1-1 WE1-B2-1 WE1-C1-1 WE1-C2-1 A Compact Dual Notched Bands Evaluation of >140-GHz Band Filter Micromachined THz Systems Influence of Lossy Objects for CPW-Fed Slot Antenna Bank Prototype - enabling the large scale Resonator-Coupled Type Wireless exploitation of the THz frequency Chu-Huan Lin (National Chaio Tung Takashi Kawamura (Anritsu Corporation, Power Transfer System with University, Taiwan); Wen-Chi Cheng Japan); Masaaki Fuse (Anritsu Corporation, spectrum Coplanar Dual-Spiral Resonators (National Chiao-Tung University, Taiwan); Japan); Shigenori Mattori (Anritsu Joachim Oberhammer (KTH Royal Institute Masashi Hotta (Yamaguchi University, Sung-Jung Wu (National Chiao Tung Corporation, Japan) of Technology, Sweden) Japan); Nur Syafiera Azreen Norodin University, Taiwan); Jenn-Hwan Tarng (Yamaguchi University, Japan); Nadia (National Chaio Tung University, Taiwan) WE1-B2-2 WE1-C1-2 Natasya Muhammad Zakaria (Meidensha Compact and High Isolation A 140 GHz Transmitter with an Corporation, Japan); Hiroyuki Onari WE1-B1-2 Microstrip Six-Channel Diplexer (Yamaguchi University, Japan); Takuma Microstrip Leaky-Wave Antennas Integrated Chip-to-Waveguide Takegami (Yamaguchi University, Japan) Using Multi-Mode Stepped- Transition using 130nm SiGe with Longitudinally Uniform and Impedance Resonators Non-Uniform Periodical Loadings BiCMOS Process WE1-C2-2 of Shorting Pins Chi-Feng Chen (Tunghai University, Zhongxia Simon He (Chalmers University Optimization of Multi-Carrier Taiwan); Tseng Bo-Hao (Tunghai of Technology & Microwave Electronic Frequency Diverse Array for Danpeng Xie (University of Macau, Macao); University, Taiwan); Bo-Yan Su (Tunghai Lab, Sweden); Mingquan Bao (Ericsson AB, Lei Zhu (University of Macau, Macao) Wireless Power Transmission University, Taiwan); Xin-Ling Li (Tunghai Sweden); Yinggang Li (Ericsson AB, University, Taiwan); Guo-Yun Wang Sweden); Ahmed Hassona (Chalmers Yu-Qian Yang (Nanjing University of (Tunghai University, Taiwan); Jhong-Jhen WE1-B1-3 University of Technology, Sweden); James Science & Technology, P.R. China); Hao Li (Tunghai University, Taiwan) A Wideband High-gain Campion (KTH Royal Institute of Wang (Nanjing University of Science & Transmitarray Based on Quasi-Yagi Technology, Sweden); Joachim Technology, P.R. China); Si-Qi Gu (Nanjing WE1-B2-3 University of Science & Technology, P.R. Antenna Element Oberhammer (KTH Royal Institute of Duplexer Based on Spoof Surface Technology, Sweden); Herbert Zirath China) Fan Qin (Xidian University, P.R. China); Plasmon Polaritons Transmission (Chalmers University of Technology, Lulan Wan (Xidian University, P.R. China); Lines Sweden) WE1-C2-3 Lihong Li (Xidian University, P.R. China); WPT Area Expansion Technique Jia Xie (Xidian University, P.R. China); Yi Chu Qi (City University of Hong Kong, WE1-C1-3 Utilizing Magnetic MISO Liu (Xidian University, P.R. China); Wenchi Hong Kong) Fixed Wireless Links beyond 100 Beamformer Cheng (Xidian University, P.R. China); GHz Hailin Zhang (Xidian University, P.R. WE1-B2-4 Ayako Suzuki (Kagoshima University, China) Novel Compact Dual-band BPF Yinggang Li (Ericsson AB, Sweden); Jonas Japan); Koshi Hamano (Kagoshima Using Stub-Loaded Shorted Hansryd (Ericsson AB, Sweden) University, Japan); Kenjiro Nishikawa WE1-B1-4 (Kagoshima University, Japan); Shigeo Stepped-Impedance Resonators A Substrate Integrated Waveguide WE1-C1-4 Kawasaki (Institute of Space and Based Antenna-Triplexer Pin Wen (Saitama University, Japan); High volume silicon based Astronautical Science, Japan Aerospace Exploration Agency, Japan) Zhewang Ma (Saitama University, Japan); technologies for heterogeneous THz Divya Chaturvedi (NIT Trichy, India); Haiwen Liu (Xi'an Jiaotong University, P.R. Arvind Kumar (National Institute of China); Shuangshuang Zhu (Xi'an Jiaotong platforms: from the silicon to the WE1-C2-4 Technology, Trichy India & National University, P.R. China); Masataka Ohira board A Novel Magnetic Field Resonance Institute of Technology, Trichy India, India); (Saitama University, Japan); Chuanyun Chiara Mariotti (Infineon Technologies Wireless Power Transfer System Raghavan S (NIT, India) Wang (East China Jiaotong University, P.R. Austria AG, Austria); Dielacher Franz China); Xuehui Guan (East China Jiaotong Using Power Management by Power (Infineon, Germany) University, P.R. China); Baoping Ren Communication Techniques (Saitama University, Japan) WE1-C1-5 Takahiro Nagai (Murata Manufacturing Co., Reflector and Lens Antennas for Ltd., Japan); Tatsuya Hosotani (Murata Manufacturing Co., Ltd., Japan) Industrial Applications in the sub-THz Frequency Spectrum WE1-C2-5 Itziar Maestrojuán (Anteral, Spain); Victor New Single-Feed-Dual-Polarized Torres (Anteral, Spain); Mikel Goni Antenna for Electromagnetic (Anteral, Spain) Radiation Energy Harvesting in ISM Band Edouard Rochefeuille (LE2P - University Of Reunion Island & IMEP-LAHC - Grenoble INP, France); Alexandre Douyère (University of La Reunion, France); Erika Vandelle (Universite Grenoble Alpes, France); Frederic Alicalapa (University of La Reunion, France); Tan Phu Vuong (Grenoble INP, France)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 14 2018/10/26 11:20:06 TECHNICAL SESSIONS (Oral Sessions)

Wednesday, November 7 8:30 - 10:10 8:30 - 10:10 Wednesday, November 7 Room D Room K Room 103 Session WE1-D Session WE1-K Session WE1-103 Advances in Power Amplifier Special Session: Research and Special Session: Trends of 5G Design Techniques Development of Space and Technologies in Asia-Pacific Chairs:Donald Kimball (University Satellite Communication System Region of California San Diego, Chairs:Shigeo Kawasaki (Institute Chair:Hiroshi Okazaki (NTT USA & pSemi a MuRata of Space and Astronautical DOCOMO, Japan) Company, Japan), Tomoya Science, Japan Aerospace Kaneko (NEC Corporation, Exploration Agency, Japan), Japan) Takana Kaho (NTT, Japan) WE1-D-1 [Invited] WE1-K-1 WE1-103-1 Analog & Digital Envelope Pulse Operation Characteristics of Introduction Tracking Power Amplifier Reduced X-band High Power GaN Amplifiers Hiroshi Okazaki (NTT DOCOMO, Japan) Bandwidth Techniques for 5G NR for the Hayabusa2 Re-entry Capsule Donald Kimball (University of California Tracking Radar WE1-103-2 San Diego, USA & pSemi a MuRata Daisuke Hayashi (Koden Electronics Co., The Role of Technology Roadmaps Company, Japan); Toshifumi Nakatani Ltd. & SOKENDAI (The Graduate for 5G and Betond (Maxentric Technologies, LLC, USA); University for Advanced Studies), Japan); Jonmei J. Yan (MaXentric Technologies, Yuichi Tsuda (Institute of Space and Tim Lee (IEEE MTT-S, USA) LLC, USA); Kenji Mukai (Murata Astronautical Science, Japan Aerospace Manufacturing Co., Ltd., Japan) Exploration Agency, Japan); Shigeo WE1-103-3 Kawasaki (Institute of Space and 5G Technologies Roadmap in WE1-D-2 Astronautical Science, Japan Aerospace Singapore Analysis of Optimal Outphasing Exploration Agency, Japan) Load Trajectories for GaN PAs Arokiaswami Alphones (Nanyang WE1-K-2 Technological University, Singapore) Paolo Enrico de Falco (University of Bristol Microwave and Millimeter-wave GaN & Toshiba Research Europe, United Amplifiers for Satellite Communications Kingdom (Great Britain)); Gavin Watkins (Toshiba Research Europe Ltd., United Masatake Hangai (Mitsubishi Electric Kingdom (Great Britain)); Konstantinos Corporation, Japan) Mimis (University of Bristol, United Kingdom (Great Britain)); Souheil WE1-K-3 BenSmida (University of Bristol, United Kingdom (Great Britain)); Kevin A Morris Terahertz Communications for (University of Bristol, United Kingdom Space Applications (Great Britain)) Tadao Nagatsuma (Osaka University, Japan); Akifumi Kasamatsu (National WE1-D-3 Institute of Information and A Ka-Band Power Amplifier with Communications Technology, Japan) Phase Compensation Technique Applied to 5G Phased Array WE1-K-4 THz Technology for Space Hung-Yu Lin (Industry Technology Reasearch Institute, Taiwan); Wei-Tsung Li Communications (Industry Technology Reasearch Institute, Imran Mehdi (JPL, USA); Jose V Siles Taiwan) (NASA Jet Propulsion Laboratory, USA); Christine Chen (Jet Propulsion Laboratory, WE1-D-4 USA); Josep M Jornet (University at A Highly Efficient Pulse- Buffalo, USA) Modulation Polar Transmitter Using Broadband Class E Power Amplifier WE1-K-5 For Femtocell Base Stations IoT/WPT Developments in Space Exploration Shu-Chen Lin (National Taiwan University, Taiwan); Yang-Chih Hsieh (National Ricardo Correia (Instituto de Taiwan University, Taiwan); Shuo-Heng Xu Telecomunicações & University of Aveiro, (National Taiwan University, Taiwan); Portugal); Nuno Borges Carvalho Jau-Horng Chen (National Taiwan (University of Aveiro/IT Aveiro, Portugal) University, Taiwan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 15 2018/10/26 11:20:06 TECHNICAL SESSIONS (Oral Sessions)

Wednesday, November 7 10:30 - 12:10 Room B1 Room B2 Room C1 Room: C2 Session WE2-B1 Session WE2-B2 Session WE2-C1 Session WE2-C2 Antennas for Wireless Advances in Theory and Design Metastructures and Rectifiers and Rectennas Application for Filters and Group Delay Microstructures for Terahertz Chairs:Tsunayuki Yamamoto Chairs:Nobuyoshi Kikuma Circuits and Microwave Applications (Yamaguchi University, (Nagoya Insutitute of Chairs:Masataka Ohira (Saitama Chairs:Withawat Japan), Jiafeng Zhou Technology, Japan), University, Japan), Withayachumnankul (The (University of Liverpool, Keisuke Konno (Tohoku Yongchae Jeong (Chonbuk University of Adelaide, United Kingdom (Great University, Japan) National University, Korea) Australia), Jaeyoung Kim Britain)) (Rohm Co, Ltd., Japan) WE2-B1-1 WE2-B2-1 WE2-C1-1 [Invited] WE2-C2-1 Circularly Polarization Loop Compact Quasi-Lumped Element Terahertz Metasurfaces for SOI-CMOS high power rectifier IC Antenna Bandpass Filters for Single-ended Beamforming and Polarization with the cross coupled CMOS pair Wenting Wu (University Of Sicence And High-Purity Frequency Multipliers Conversion Shunya Tsuchimoto (Kanazawa Institute of Technology Of China, P.R. China); Cun Applications Withawat Withayachumnankul (The Technology, Japan) Wang (University of Science and Feng-Jun Chen (Microsystem and Terahertz University of Adelaide, Australia) Technology of China, P.R. China) Research Center of CAEP, P.R. China); WE2-C2-2 Liang Zhang (Microsystem and Terahertz WE2-C1-2 Waveform-Based Design of a WE2-B1-2 Research Center, China Academy of Highly Stable Terahertz Resonant 2.8-GHz Self Synchronous Class-E Quasi-isotropic radiation by coupled Eegineering Physics & Institute of Tunneling Diode Oscillator Coupled RF-DC Rectifier with GaN Electronic Engineering, China Academy of loop antennas without a quadrature to Photonic-Crystal Cavity Transistor phase shifter Engineering Physics, P.R. China); Xu Cheng (Mircosystem and Terahertz Research Xiongbin Yu (Osaka University, Japan); Fei You (University of Electronic Science Jaechun Lee (Samsung Advanced Institute Centre of CAEP, P.R. China); Xin-lin Xia Jaeyoung Kim (Rohm Co, Ltd., Japan); and Technology of China, P.R. China); Ying of Technology, Korea); Sang Joon Kim (Mircosystem and Terahertz Research Masayuki Fujita (Osaka University, Japan); Wang (China Academy of Space (Samsung Advanced Institute of Centre of CAEP, P.R. China); Jiang-An Han Tadao Nagatsuma (Osaka University, Japan) Technology(Xi'an), P.R. China); Shi-Wei Technology, Korea) (China Academy of Engineering Physics, Dong (National Key Laboratory of Space P.R. China); Xian-jin Deng (Mircosystem WE2-C1-3 Microwave Technology, P.R. China); Xumin and Terahertz Research Centre of CAEP, WE2-B1-3 An Equidistantly Stepped Yu (National Key Laboratory of Space P.R. China) Microwave Technology, P.R. China); Chuan Sensitivity Analysis of Input Waveguide TE11-TE01-Mode Impedance of a Large Loop Antenna Li (University of Electronic Science and WE2-B2-2 Converter for Millimeter Wave Technology of China, P.R. China) in a Waveguide to Tilt Angle Notes on Determination of Radar Applications WE2-C2-3 Nedime Pelin M. H. Salem (New Jersey Frequency-Variant Coupling for Birk Hattenhorst (Ruhr-University Bochum, Institute of Technology, USA); Edip Niver High Selectivity In-Line Filters Germany); Christian Schulz (Ruhr- Development of Sub-Terahertz (NJIT, USA); Mohamed A Salem (Sonoma Universität Bochum, Germany); Christoph Rectenna using Gyrotron Yuxing He (Yokohama National University, State University, USA) Baer (Ruhr-Universität Bochum & Institute Japan); Nobuyuki Yoshikawa (Yokohama of Electronic Circuits, Germany); Thomas Sei Mizojiri (University of Tsukuba, Japan) National University, Japan) WE2-B1-4 Musch (Ruhr-Universität Bochum, Realization of Structured Germany) WE2-C2-4 Electromagnetic Waves based on WE2-B2-3 A High Efficiency Differential Plane Spiral Orbital Angular Coupling Matrix Synthesis and WE2-C1-4 Rectenna Employing Two-Parasitic- Momentum Waves using Circular Design of a Chained-Function Transformation of OAM waves to Element Stacked Antenna Waveguide Filter Cylindrical Conformal Microstrip Plane Spiral OAM waves Based on Kenta Yasuda (Saga University, Japan); Antenna Array Yuan Ping Lim (Universiti Teknologi Gradient-index Meta-surface Eisuke Nishiyama (Saga University, Japan); PETRONAS, Malaysia); Yew Leong Toh Ichihiko Toyoda (Saga University, Japan) Lin Hua (Zhejiang University, P.R. China) Qing Ma (Zhejiang University, P.R. China) (Universiti Teknologi PETRONAS, Malaysia); Sovuthy Cheab (Universiti WE2-C2-5 WE2-B1-5 Technologi PETRONAS, Malaysia); Stepan A 2.5D Wafer-level CMOS-IPD Flat Half Maxwell Fish-Eye Lens Lucyszyn (Imperial College London, United Rectenna Using Wide-Range for High Directivity Applications Kingdom (Great Britain)); Peng Wen Wong (Universiti Teknologi PETRONAS, Efficiency and Self-biasing Cun Wang (University of Science and Malaysia) Topology for a RF Wireless Power Technology of China, P.R. China); Qi Zhu Harvesting System (University of Science and Technology of WE2-B2-4 China, P.R. China) Arbitrary Prescribed Wideband Flat Kuei-Cheng Lin (National Applied Research Laboratories, Taiwan) Group Delay Circuit for Self- Interference Cancellation Circuits Girdhari Chaudhary (Chonbuk National University, Korea); Phanam Pech (Chonbuk National University, Korea); Junhyung Jeong (Chonbuk National University, Korea); Phirun Kim (Chonbuk National University, Korea); Yongchae Jeong (Chonbuk National University, Korea) WE2-B2-5 Modified Vector Fitting and Its Application to Simultaneous Characteristics Approximation of Attenuation and Group Delay Toshikazu Sekine (Gifu University, Japan); Yasuhiro Takahashi (Gifu University, Japan)

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Wednesday, November 7 10:30 - 12:10 10:30 - 12:10 Wednesday, November 7 Room D Room K Room 103 Session WE2-D Session WE2-K Session WE2-103 Power Amplifiers and Signal Adaptive Techniques for Special Panel Session: Women's Generator Improved Spectrum Efficiency Excellent Talent in Engineering Chairs:Kazuya Yamamoto (Mitsubishi Chairs:Arne F Jacob (Technische Chair:Qiaowei Yuan (National Electric Corporation & High Universität Hamburg, Institute of Technology, Frequency and Optical Device Germany), Kunihiro Kawai Sendai College, Japan) Works, Japan), Keisuke (NTT DOCOMO, Japan) Shinohara (Teledyne Scientific, USA) WE2-D-1 WE2-K-1 WE2-103-1 Dual-Band 60-/24-GHz Signal Adaptive multi radio interface Open Address Generator Using A Regenerative control based on 802.11ax WLANs Wenquan Che (Nanjing University of Miller Frequency Dividing System Toshiro Nakahira (NTT Access Network Science and Technology, P.R. China) Chung-Hsien Shieh (National Cheng Kung Service Systems Laboratories, Japan) University, Taiwan); Kuan-Chi Tseng WE2-103-2 (National Cheng Kung University, Taiwan); WE2-K-2 An Integration of Satellite Tzuen-Hsi Huang (National Cheng Kung Adaptive Sideband Selection for Communication and Navigation University, Taiwan) Periodic Interference Cancellation Guanyi Ma (National Astronomical WE2-D-2 Yuya Kimura (Okayama University, Japan); Observatories, Chinese Academy of Experiments on a 80 kW Power Satoshi Denno (Okayama University, Sciences, P.R. China) Japan); Yafei Hou (Okayama University, Combiner Using RF LDMOS Power Japan) WE2-103-3 Transistors Research on Exposure Assessment Suyeon Park (Kwangwoon University, WE2-K-3 for Human Protection from Korea) Countering Eavesdropping Using Electromagnetic Fields Cognitive Radio - A New WE2-D-3 Perspective on Spectrum Sharing Kanako Wake (National Institute of Two-Way Current Combining Information and Communications Yee Loo Foo (Multimedia University, Technology, Japan) Power Amplifier with Multi-Stage Malaysia) Adaptive Bias Control WE2-103-4 Tai-Yi Chen (National Tsing Hua WE2-K-4 Design and Measurement of A University, Taiwan); Yi-Chun Lee (National Millimeter Wave Multi-hop Compact Tri-polarized MIMO Tsing Hua University, Taiwan); Tse-Hung Mobility and Trial Activities Antenna Based on Multimode Chen (National Tsing Hua University, Theory Taiwan); Hong-Shen Chen (National Tsing Liang Gu (Huawei Technologies Co., Ltd, Hua University, Taiwan); Jenny Yi-Chun P.R. China); Tingjian Tian (Huawei Dazhi Piao (Communication University of Liu (National Tsing Hua University, Technologies Co., Ltd, P.R. China); Yunfu China, P.R. China) Taiwan) Dou (Huawei Technologies Co., Ltd., P.R. China); Guangmei Ren (Huawei WE2-103-5 WE2-D-4 Technologies Co., Ltd, P.R. China); Masashi Iwabuchi (NTT DOCOMO, INC., Japan); Dual-Polarized Rectenna Array at 5G mm-Wave Stacked Class AB Jun Tsuboi (NTT DOCOMO, INC., Japan); X-Band Power Amplifier in 45 nm PD-SOI Yoshihisa Kishiyama (NTT DOCOMO, Xuexia Yang (Shanghai University, P.R. INC., Japan) CMOS China) Radu Ciocoveanu (Infineon Technologies WE2-K-5 AG / Friedrich-Alexander University WE2-103-6 Erlangen-Nuremberg (FAU), Germany); Transmission Standby based on Discussion Robert Weigel (Friedrich-Alexander Channel Conditions for Efficient Universität Erlangen-Nürnberg, Germany); Use of Radio Resources in WLAN Amelie Hagelauer (University of Erlangen- Systems Nuremberg, Germany); Angelika Geiselbrechtinger (Infineon Technologies Yukio Kojima (Wakayama University, AG, Germany); Vadim Issakov (Infineon Japan); Shinichi Miyamoto (Wakayama Technologies AG, Germany) University, Japan) WE2-D-5 Co-design of wideband High efficient power amplifier using suspended substrate stripline filter as the Output Matching Network Sheng Fang (South China University of Technology, P.R. China); Zheming Xie (South China University of Technology, P.R. China); Xi Wen Peng (South China University of Technology, P.R. China)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 17 2018/10/26 11:20:06 TECHNICAL SESSIONS (Oral Sessions)

Wednesday, November 7 15:50 - 17:30 Room B1 Room B2 Room C1 Room C2 Session WE4-B1 Session WE4-B2 Session WE4-C1 Session WE4-C2 5G/Millimeter Wave Antenna Special Session: Connected Vehicles Metamaterials, EMBGs and FSSs I WPT and RFID Applications Technologies for Advanced Safety and Comfort Chairs:Shih-Yuan Chen (National Chairs:Qiaowei Yuan (National Chairs:Yasuhiro Tsunemitsu Mobility in 4G/5G and beyond Taiwan University, Institute of Technology, (Takushoku University, Chairs:Kei Sakaguchi (Tokyo Institute Taiwan), Constant Sendai College, Japan), Japan), Yasushi Iitsuka of Technology & Fraunhofer Manouan Aka Niamien Heng-Ming Hsu (National (Waka Manufacturing Co., HHI, Japan), Kazuaki (Normandie Univ, Chung-Hsing University, Ltd., Japan) Takahashi (Panasonic UNIROUEN, ESIGELEC/ Taiwan) Corporation, Japan) IRSEEM, Rouen, France) WE4-B1-1 WE4-B2-1 WE4-C1-1 WE4-C2-1 [Invited] Radiation Characteristics of LTE/5G Cellular V2X Cylindrical Distributed Immittance Enabling far-field ambient energy Optically Transparent Dipole Standardization Shells for Microwave Invisibility harvesting through multi-physical Antenna Fabricated using CVD Satoshi Nagata (NTT DoCoMo, Inc., Japan); Cloak sources Monolayer Graphene Riichi Kudo (NTT, Japan); Shinpei Takaya Nishizawa (1-3 Machikaneyama, Xiaoqiang Gu (Polytechnique Montreal, Yasukawa (NTT DOCOMO, INC., Japan); Shohei Kosuga (Aoyama Gakuin University, Toyonaka & Osaka University, Japan); Canada); Simon Hemour (University of Takehiro Nakamura (NTT DOCOMO, INC., Japan); Keisuke Suga (Aoyama Gakuin Atsushi Sanada (Osaka University, Japan) Bordeaux, France); Ke Wu (Ecole Japan); Ryosuke Osawa (NTT DOCOMO, University, Japan); Ryosuke Suga (Aoyama Polytechnique (University of Montreal) & INC., Japan); Huan Wang (DOCOMO Gakuin University, Japan); Takeshi WE4-C1-2 Center for Radiofrequency Electronics Beijing Communications Laboratories Co., Watanabe (Aoyama Gakuin University, Research of Quebec, Canada) Ltd., P.R. China); Mikio Iwamura (NTT Constant Permeability Design of Japan); Osamu Hashimoto (Aoyama Gakuin DOCOMO, INC., Japan) Cylindrical Invisibility Cloaks with University, Japan); Shinji Koh (Aoyama WE4-C2-2 Hyperbolic Coordinate Gakuin University, Japan) WPT Link with Relay Elements for WE4-B2-2 Transformation Based on Recharging a Pacemaker WE4-B1-2 Cooperative Perception realized by Transformation Electromagnetics Millimeter-wave V2V for Safe Giuseppina Monti (University of Salento, L-Probe Fed Patch Antenna with Yuma Takano (Osaka University, Japan); Automated Driving Italy); Laura Corchia (University of Salento, Single layer for 28-GHz Tsutomu Nagayama (Kagoshima University, Italy); Beatrice Risolo (University of Applications Kei Sakaguchi (Tokyo Institute of Japan); Atsushi Sanada (Osaka University, Salento, Italy); Luciano Tarricone Technology & Fraunhofer HHI, Japan); Japan) (University of Salento, Italy) Yasushi Iitsuka (Waka Manufacturing Co., Ryuichi Fukatsu (Tokyo Institute of Ltd., Japan); Kazuo Saitoh (Waka Technology, Japan) WE4-C1-3 Manufacturing Co., Ltd., Japan); Takayuki WE4-C2-3 Ogoshi (Shinjuku-ku Tokyo & Waka, Japan) Zero Phase Delay Transmission in Flexible Energy Harvesting System WE4-B2-3 Parity-time Photonic Crystal for Wearable IoT Sensor Device Millimeter Wave V2X WE4-B1-3 Wenjin Pei (Nanjing University, P.R. Applications A High Gain Cavity-backed Communications: Use Cases and China); Feifei Li (Nanjing University, P.R. Jung Ouk Kim (Soonchunhyang University, Design Considerations of Beam China); Yin Poo (Nanjing University, P.R. Antenna Array Based on the SICL Korea); Yongwan Lee (Soonchunhyang China); Rui-Xin Wu (Nanjing University, Structure for Q-band Application Management University, Korea); Jongsik Lim P.R. China) (Soonchunhyang University, Korea); Dal Yajing Hou (Beijing University of Posts and Takayuki Shimizu (TOYOTA Ahn (Soonchunhyang University, Korea); Telecommunications, P.R. China); Hua Zhu InfoTechnology Center USA, USA); Vutha WE4-C1-4 Won-Sang Yoon (Hoseo University, Korea); (Scool of Electronic Engineering, University Va (University of Texas at Austin, USA); On-chip Terahertze Surface-wave Sang-Min Han (Soonchunhyang University, of Posts and Telecommunications, Beijing, Gaurav Bansal (Toyota InfoTechnology Korea) P.R. China); Xiuping Li (Beijing University Center, USA); Robert Heath (The University Transmission Line Based on Folded of Post Telecommunications, P.R. China) of Texas at Austin, USA) Strips WE4-C2-4 WE4-B2-4 Yuan Liang (Nanyang Technological Study on the security camera University, Singapore); Chirn Chye Boon Bulk Sensor Data Sharing Using (Nanyang Technological University, loading to the glass window with Millimeter Wave V2X for Enhanced Singapore); Hao Yu (Southern University of the wireless power transmission Safety and Comfort in Mobility Science and Technology, Singapore); technology Chaojun Ma (Southern University of Science Masataka Irie (Panasonic Corporation, and Technology, P.R. China); Dietmar Ryota Ohata (Tokyo City University, Japan); Japan); Gaius Yao Huang Wee (Panasonic Kissinger (IHP, Germany); Yong Wang Yoshinobu Okano (Tokyo City University, Corporation, Singapore); Michael Sim (Innovations for High Performance Japan) (Panasonic Corporation, Singapore); Microelectronics, Germany) Kazuaki Takahashi (Panasonic Corporation, Japan) WE4-C1-5 Topological Estimation of Resonant Frequencies by Equivalent Circuit for Star Meta-Atoms Akira Hasegawa (Kyoto University, Japan); Takashi Hisakado (Kyoto University, Japan); Tohlu Matsushima (Kyushu Institute of Technology, Japan); Osami Wada (Kyoto University & Graduate School of Engineering, Japan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 18 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Wednesday, November 7 15:50 - 17:30 15:50 - 17:30 Wednesday, November 7 Room D Room K Room 103 Session WE4-D Session WE4-K Session WE4-103 Low Noise Amplifiers Terahertz, Millimeter-wave and Special Session: EuMA Special Chairs:Iltcho Angelov (Chalmers Microwave Photonics Applications Session University of Technology Chairs:Zeshan Ahmad (Texas Chairs:Itziar Maestrojuán (Anteral, & GOTMIC AB, Sweden), Instruments, USA), Julian L Spain) Toshihiko Yoshimasu Webber (Osaka University & (Waseda University, Japan) Advanced Telecommunica- tions Research Institute International, Japan) WE4-D-1 WE4-K-1 WE4-103-1 23-31GHz Low Noise Amplifier An Empirical Performance D-band MMIC design for high with 2.5dB NF using 100 nm GaN Evaluation of Time Synchronization datarate wireless and wire-bound on Silicon Technology Using GNSS Signal Simultaneously communication based on state-of- Shiyong Zhang (Microsystem & Terahertz Transmitted with 10 Gbps Optical the-art InP DHBT and SiGe Research Center, China Academy of On-Off Keying BiCMOS processes Engineering Physics, P.R. China); Jianxing Yuya Kaneko (National Institute of Herbert Zirath (Chalmers University of Xu (China Academy of Engineering Physics, Technology, Numazu College, Japan); Technology, Sweden) P.R. China); Penghui Zheng (Microsystem Takeshi Higashino (Nara Institute of Science & Terahertz Research Center, China and Technology & Graduate School of Academy of Engineering Physics, P.R. WE4-103-2 Information Science, Japan); Minoru Okada Miniaturized Substrate Integrated China); Huang Yang (Sichuan YiFeng (Nara Institute of Science and Technology, Electronic Science & Technology Co., LTD Japan) Components & LIAO SHU Co., LTD, P.R. China); Xiaodong Tong (Microsystem & Terahertz Luca Perregrini (University of Pavia, Italy); Research Center, China Academy of WE4-K-2 Maurizio Bozzi (University of Pavia, Italy) Engineering Physics, P.R. China) A 143 GHz InP-based radio link characterized in long-term outdoor WE4-103-3 WE4-D-2 measurement Advanced Terminal Antenna A 67-dB Harmonic-Rejecting Concepts for Mobile Satellite Mikael Hörberg (Ericsson Research, CMOS LNA with Area-Efficient Sweden); Yinggang Li (Ericsson AB, Communications Stacked-Inductor Self-Resonance Sweden); Vessen Vassilev (Chalmers Arne F Jacob (Technische Universität University of Technology, Sweden); Herbert Hamburg, Germany); Thomas Jaschke Kenji Tanaka (NTT Device Technology Zirath (Chalmers University of Technology, Labs, NTT Corporation, Japan); Shinsuke (Technische Universität Hamburg-Harburg Sweden); Jonas Hansryd (Ericsson AB, & Institut für Hochfrequenztechnik, Nakano (NTT Device Innovation Center, Sweden) NTT Corporation, Japan); Naoki Miura Germany); Benjamin Rohrdantz (Technische (NTT Device Technology Labs, NTT Universität Hamburg-Harburg, Germany) Corporation, Japan); Hideyuki Nosaka (NTT WE4-K-3 Corporation, Japan) Dual-channel 56 Gb/s PAM-4 Electro-Absorption Modulator WE4-D-3 Driver for 3D Wafer Scale A SiGe BiCMOS Bypass Low- Packaging Noise Amplifier for X-Band Phased Xi Zhang (Eindhoven University of Array RADARs Technology - TU/e, The Netherlands); Xiao Esref Turkmen (Sabanci University, Liu (Eindhoven University of Technology, Turkey); Abdurrahman Burak (Sabanci The Netherlands); Rainier Van Dommele University, Turkey); Can Caliskan (Sabanci (Eindhoven University of Technology, The University, Turkey); Ilker Kalyoncu Netherlands); Marion Matters-Kammerer (Sabanci University, Turkey); Yasar Gurbuz (Eindhoven University of Technology, The (Sabanci University, Turkey) Netherlands) WE4-D-4 WE4-K-4 Co-design of a 140 MHz to 5.4 GHz On-chip Scalable Resonator-based Inductorless LNA Chip and PCB for Transducers for Terahertz Dielectric Software Defined Radio Sensing in SiGe BiCMOS Technology Kuan-Hsiu Chien (ITRI, Taiwan); Feng-Hsu Chung (Industrial Technology Research Defu Wang (IHP, Germany); Klaus Schmalz Institute, Taiwan); Jian-Yu Li (Yuan Ze (IHP, Germany); J. Borngräber (IHP, University, Taiwan) Germany); Dietmar Kissinger (IHP, Germany) WE4-D-5 A 2.5-31-GHz High Gain LNA in WE4-K-5 0.15-μm GaAs pHEMT for Radio CMOS biosensor IC with Astronomical Application 360-sensing elements using 63-GHz LC-oscillator and DEP for label-free Hoi Wong Lei (National Taiwan University, single-cell detection Taiwan); Yunshan Wang (National Taiwan University, Taiwan); Chau-Ching Chiong Takeshi Mitsunaka (Sharp Corporation, (Institute of Astronomy and Astrophysics, Japan) Academia Sinica, Taiwan); Huei Wang (National Taiwan University, Taiwan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 19 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 8:30 - 10:10 Room B1 Room B2 Room C1 Room C2 Session TH1-B1 Session TH1-B2 Session TH1-C1 Session TH1-C2 Antennas for Sensing Advanced Design of Filtering Special Session: Terahertz Special Session: Solar Power Applications Power Dividers and Balanced Technologies for Beyond 5G Satellite and Related Microwave Chairs:Kazuhiro Honda (University Filters Mobile Communications Technologies of Toyama, Japan), Jae-Ho Chairs:Zhewang Ma (Saitama Chairs:Akihiko Hirata (Chiba Chairs:Naoki Shinohara (Kyoto Lee (Electronics and University, Japan), Institute of Technology, University, Japan), Young- Telecommunications Wenquan Che (Nanjing Japan), Ho-Jin Song Jin Park (KERI & UST, Research Institute (ETRI), University of Science and (POSTECH, Korea) Korea) Korea) Technology, P.R. China) TH1-B1-1 TH1-B2-1 TH1-C1-1 [Invited] TH1-C2-1 Sector-Beam Antennas for Wide Ultra-Compact Power Divider Using Progress of Plate-laminated Evaluation of Constituent Detection Area in 79 GHz Dual-Function Input External Waveguide Slot Array Antennas by Technologies and R&D Strategy for Automotive Short Range Radar Quality Factor for Good Filtering Diffusion Bonding in 60GHz, Space Solar Power System (SRR) Sensor Response and Isolation 120GHz and 350GHz Bands Tadashi Takano (Nihon University & JAXA, Jae-Ho Lee (Electronics and Guangxu Shen (Nanjing University of Jiro Hirokawa (Tokyo Institute of Japan) Telecommunications Research Institute Science and Technology, P.R. China); Technology, Japan); Takashi Tomura (ETRI), Korea); Jong Min Lee Wenquan Che (Nanjing University of (Tokyo Institute of Technology, Japan); TH1-C2-2 (Sungkyunkwan University, Korea); Keum Science and Technology, P.R. China) Akihiko Hirata (Chiba Institute of Rectenna array design for receiving Cheol Hwang (Sungkyunkwan University, Technology, Japan); Tadao Nagatsuma high power in beam type wireless Korea) (Osaka University, Japan) TH1-B2-2 power transmission Wideband Out-of-Phase Filtering TH1-B1-2 Power Divider with High Selectivity TH1-C1-2 Young-Jin Park (KERI & UST, Korea); A Planar 24 GHz Switched-Beam 300-GHz CMOS Transceiver for Kwan Ho Kim (Korea ElectroTechnology Antenna Based on PIN Diodes for Xuedao Wang (Nanjing University of Terahertz Wireless Communication Research Institute, Korea); Donggi Youn Science and Technology & University of (REPLEX, Korea) Remote Sensing Applications Macau, P.R. China); Wai Wa Choi Shinsuke Hara (National Institute of Fabian Michler (Friedrich-Alexander (University of Macau, Macao); Jianpeng Information and Communications TH1-C2-3 University Erlangen-Nuremberg, Erlangen, Wang (Nanjing University of Science and Technology, Japan); Kyoya Takano The plan of Microwave Power Technology, P.R. China); Wen Wu (Nanjing (Hiroshima University, Japan); Kosuke Germany); Benedict Scheiner (Friedrich- Transmission development for SSPS Alexander University Erlangen-Nuremberg, University of Science and Technology, P.R. Katayama (Hiroshima University, Japan); Erlangen, Germany); Fabian Lurz China) Ruibing Dong (Hiroshima University, and its industry application Japan); Sangyeop Lee (Hiroshima (Friedrich-Alexander University Erlangen- Shoichiro Mihara (Japan Space Systems, University, Japan); Issei Watanabe (National Nuremberg, Erlangen, Germany); Robert TH1-B2-3 Japan) Weigel (Friedrich-Alexander University High Selectivity Balanced-to- Institute of Infomation and Communications Technology, Japan); Norihiko Sekine Erlangen-Nuremberg, Erlangen, Germany); Unbalanced Filtering Power Divider TH1-C2-4 Alexander Koelpin (Brandenburg University (National Institute for Information and of Technology, Cottbus, Germany) Wenjie Feng (Nanjing University of Science Communications Technology, Japan); A Proposed MPT Demonstration and Technology, P.R. China); Xueke Ma Akifumi Kasamatsu (National Institute of Mission in Space (Nanjing University of Science and Information and Communications TH1-B1-3 Xinbin Hou (China Academay of Space Technology, P.R. China); Wenquan Che Technology, Japan); Takeshi Yoshida Design of 24-GHz Automotive Technology, P.R. China); Shiwei Dong (Nanjing University of Science and (Hiroshima University, Japan); Shuhei (China Academy of Space Technolog, P.R. Antenna Array With Wide Fan Technology, P.R. China); Roberto Gómez- Amakawa (Hiroshima University, Japan); China) Beam García (University of Alcalá, Spain); Minoru Fujishima (Hiroshima University, Wanchen Yang (Nanjing University of Japan) Chia-An Yu (Chang Gung University, Science and Technology, P.R. China); TH1-C2-5 Taiwan); Eric S. Li (National Taipei Haidong Chen (Nanjing University of TH1-C1-3 Strategic development of Solar University of Technology, Taiwan); Science and Technology, P.R. China); Quan Chung-Yi Li (Chang Gung University, Preliminary study on Terahertz Power Satellite Xue (South China University of Technology, Taiwan); Kuo-Sheng Chin (Chang Gung channel response for wireless P.R. China) Koji Tanaka (Institute of Space and University, Taiwan); Roger Lu (National communications applications Astronautical Science, Japan Aerospace Chung-Shan Institute of Science and Exploration Agency, Japan) Technology, Taiwan) TH1-B2-4 Ho-Jin Song (POSTECH, Korea) Design of Balanced Dual-Band TH1-B1-4 Superconducting Bandpass Filter TH1-C1-4 Quadrilinear decomposition based With High Selectivity and Deep Terahertz absorber technologies for two-dimensional DOA estimation Common-Mode Suppression close-proximity wireless system for sparse MIMO array with Baoping Ren (Saitama University, Japan) Akihiko Hirata (Chiba Institute of velocity receive sensors Technology, Japan); Jiro Hirokawa (Tokyo Institute of Technology, Japan) Jianfeng Li (Hohai University & Key Laboratory of Dynamic Cognitive System of Electromagnetic Spectrum Space (NUAA), Ministry of Industry and Information Technology, P.R. China); Mingwei Shen (Hohai University, P.R. China); Defu Jiang (Hohai University, P.R. China) TH1-B1-5 Direction of Arrival Estimation of Physiological Signals of Multiple Subjects Using Phase Comparison Monopulse Radar Shekh Md Mahmudul Islam (University of Hawaii at Manoa, USA); Ehsan Yavari (Adnoviv LLC, USA); Ashikur Rahman (University of Hawaii at Manoa & Aptiv, USA); Victor Lubecke (University of Hawaii at Manoa, USA); Olga Boric- Lubecke (University of Hawaii at Manoa, USA)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 20 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 8:30 - 10:10 8:30 - 10:10 Thursday, November 8 Room D Room K Room 103 Session TH1-D Session TH1-K Session TH1-103 Advances in Power Amplifiers I Special Session: New Microwave Frequency/Signal Chairs:Kazutaka Inoue (SEI, Developments and Technologies Control Circuits Japan), Farid Medjdoub for Space Applications Chairs:Noriharu Suematsu (Tohoku (Institute of Electronics, Chairs:Guillaume Callet (UMS, University, Japan), Microelectronics and France), Kenjiro Nishikawa Kunihiro Kawai (NTT Nanotechnology, France) (Kagoshima University, DOCOMO, Japan) Japan)

TH1-D-1 TH1-K-1 TH1-103-1 Design of Broadband Doherty Compact 1.9 THz Multi-Pixel Local Design of a Compact Dual- Power Amplifier with Extended Oscillator Chain Wideband Bandpass Filter With the Efficiency Range Employing Imran Mehdi (JPL, USA) Dual Stepped-Impedance Asymmetric Structure Rectangular-Rings Resonator Chuan Li (University of Electronic Science TH1-K-2 Yi-Yuan Lin (National Chung Cheng and Technology of China, P.R. China); Fei The C-band HySIC Rectifier for RF University, Taiwan); Guan-Yin Lin You (University of Electronic Science and Energy Harvesting in a Spacecraft (National Chung Cheng University, Technology of China, P.R. China); Xiaoyu Taiwan); Ching-Wen Tang (National Chung Zhu (University of Electronic Science and Ryoko Kishikawa (National Institute of Cheng University, Taiwan) Technology of China, P.R. China); Jinchen Advanced Industrial Science and Wang (University of Electronic Science and Technology & The Graduate University of TH1-103-2 Technology of China, P.R. China); Songbai Advanced Studies, Japan); Shigeo Kawasaki A 26GHz-band Image Enhancement He (University of Electronic Science and (Institute of Space and Astronautical Technology of China, Chengdu, P.R. China) Science, Japan Aerospace Exploration Type 1-Bit DAC for Direct Digital Agency, Japan) RF 1-bit Modulator TH1-D-2 Junhao Zhang (University of Tohoku, High Efficiency Compact Doherty TH1-K-3 Japan); Masafumi Kazuno (Tohoku Power Amplifier with Novel Industrial GaAs & GaN MMICs University, Japan); Mizuki Motoyoshi Harmonics Termination for Handset Technologies Evaluated for Space (Tohoku University, Japan); Suguru Kameda Applications (Tohoku University, Japan); Noriharu Applications Suematsu (Tohoku University, Japan) Tsuyoshi Sugiura (Samsung R&D Institute Lény Baczkowski (UMS, France); Japan, Japan); Satoshi Furuta (Samsung Guillaume Callet (UMS, France) TH1-103-3 R&D Institute Japan, Japan); Tadamasa A CMOS Triple-Band 2:1 Injection- Murakami (Samsung R&D Institute Japan, Locked Frequency Divider with Japan); Koki Tanji (Samsung R&D Institute Japan, Japan); Norihisa Otani (Samsung Inductive Coupling Resonator R&D Institute Japan, Japan); Toshihiko Sheng-Lyang Jang (National Taiwan Yoshimasu (Waseda University, Japan) University of Science and Technology, Taiwan); Wen-Cheng Lai (National Penghu TH1-D-3 University of Science and Technology, GaN HEMT Darlington Power Taiwan); Jia-Wen Syu (National Taiwan Amplifier with Independent Biasing University of Science and Technology, Taiwan); Bi-Sheng Shih (National Taiwan for High-Efficiency Low-Distortion University of Science and Technology, Wide-Dynamic-Range Adjustment Taiwan) Atsushi Kitamura (The University of Electro-Communications, Japan); Yoichiro TH1-103-4 Takayama (The University of Electro- Ultrawideband Compact 50:200 Communications, Japan); Ryo Ishikawa (The Ohm Guanella Balun Using University of ElectroCommunications, Asymmetric Broadside-Coupled Japan); Kazuhiko Honjo (The University of Electro-Communications, Japan) Lines Samuel Wagner (University of California, TH1-D-4 Davis, USA); Giap Le (University of Experimental Characterization of a California, Davis, USA); Anh-Vu Pham Load Modulated Balanced Amplifier (University of California at Davis, USA) with Simplified Input Power Splitter TH1-103-5 David Collins (Cardiff University, United A Ka-Band Sub-harmonically Kingdom (Great Britain)); Roberto Quaglia Pumped Mixer Using Diode- (Cardiff University, United Kingdom (Great Britain)); Jeff Powell (Skyarna Ltd, United Connected MOSFET for 5G mm- Kingdom (Great Britain)); Steve Cripps Wave Transceivers (Cardiff University, United Kingdom (Great Tsung-Ching Tsai (National Taiwan Britain)) University & Graduate Institute of Communication Engineering, Taiwan); Ian TH1-D-5 Huang (National Taiwan University, Design of Broadband High- Taiwan); Jeng-Han Tsai (National Taiwan Efficiency Doherty Power Amplifier Normal University, Taiwan); Tian-Wei Using Post-Matching Network Huang (National Taiwan University, Taiwan) Ce Shen (University of Electronic Science and Technology of China, P.R. China); Songbai He (University of Electronic Science and Technology of China, Chengdu, P.R. China); Xiaoyu Zhu (University of Electronic Science and Technology of China, P.R. China)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 21 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 10:30 - 12:10 Room B1 Room B2 Room C1 Room C2 Session TH2-B1 Session TH2-B2 Session TH2-C1 Session TH2-C2 Antenna Arrays and Beam-forming I Novel Filter Design Techniques Terahertz Active Devices Design and Characterization of Chairs:Jianfeng Li (Hohai University & Key Based on Coupling Matrix Chairs:Masayuki Fujita (Osaka Microwave Components Laboratory of Dynamic Cognitive Chairs:Chun-Ping Chen University, Japan), Michael Chairs:Tsugumichi Shibata (Tokyo System of Electromagnetic Spectrum (Kanagawa University, Schlechtweg (Fraunhofer City University, Japan), He Space (NUAA), Ministry of Industry Japan), Jen-Tsai Kuo IAF, Germany) Zhu (University of and Information Technology, P.R. (Chang Gung University, Technology, Sydney & China), Akira Saitou (The University Taiwan) Global Big Data Technologies of Electro-Communications, Japan) Centre, Australia) TH2-B1-1 TH2-B2-1 TH2-C1-1 [Invited] TH2-C2-1 Advanced Mode Unity Using Loop Realization of Cross-Coupled Terahertz Oscillators Using A Novel Concept for 2D Butler Antennas Proximate to Reflector for X- and Y-Shaped Dual-Mode Resonant Tunneling Diodes Matrix with Multi-Layers Dielectric Resonator Filters Orbital Angular Momentum Masahiro Asada (Tokyo Institute of Technology Communication Daniel Miek (University of Kiel, Germany); Technology, Japan); Safumi Suzuki (Tokyo Cheng-Hung Hsieh (National Chung Cheng Institute of Technology, Japan) Ryohei Yamagishi (The University of Electro- Sebastian Salzer (University of Kiel, University, Taiwan); Yi-Ting Lin (National Communications, Japan); Hiroto Otsuka (The Germany); Michael Höft (Kiel University, Chung Cheng University, Taiwan); University of Electro-Communications, Japan); Germany) TH2-C1-2 Hsiang-Chieh Jhan (National Chung Cheng Ryo Ishikawa (The University of A 300-GHz Integrated Transmitter University, Taiwan); Tsai Zuo-Min ElectroCommunications, Japan); Akira Saitou TH2-B2-2 based on InP HBT Technology (National Chung Cheng University, Taiwan) (The University of Electro-Communications, Synthesis Trisection Filter With Japan); Hiroshi Suzuki (The University of Improved Quasi-Elliptic Passband Heekang Son (Korea University, Korea); TH2-C2-2 Doyoon Kim (Korea University, Korea); Electro-Communications, Japan); Kazuhiko Flatness Broadband Characteristics of Honjo (The University of Electro- Kiryong Song (Korea University, Korea); Multi-Layer Ceramic Chip Communications, Japan) Jai-Heon Cho (Korea University, Korea); Jen-Tsai Kuo (Chang Gung University, Capacitors for High-Speed Digital Taiwan); Jhe-Wei Kuo (Chang Gung Jae-Sung Rieh (Korea University, Korea) TH2-B1-2 University, Taiwan) Signal Coupling Double Multiplicity Exploiting TH2-C1-3 Yoshito Kato (Tokyo City University, Orthogonal Polarizations of OAM- TH2-B2-3 200 GHz Power-Efficient BiCMOS Japan); Tsugumichi Shibata (Tokyo City Wave for OAM Communication A Flat-Passband Filter with Hybrid Phased-Array Receiver Frontend University, Japan) with Loop Arrays Structure of Substrate Integrated Paolo Valerio Testa (Technische Universität Waveguide and Microstrip Dresden, Germany); Vincent Rieß TH2-C2-3 Akira Saitou (The University of Electro- Resonators Based on Predistorted (Technische Universität Dresden, Germany); An Improved De-Embedding Communications, Japan); Hiroto Otsuka (The Songhui Li (TU Dresden, Germany); Technique for GaN High-Electron University of Electro-Communications, Japan); Nonuniform-Q Method Corrado Carta (Dresden University of Mobility Transistors Ryohei Yamagishi (The University of Electro- Liang-Feng Qiu (Shanghai Jiao Tong Technology, Germany); Frank Ellinger Communications, Japan); Ryo Ishikawa (The University, P.R. China); Lin-Sheng Wu (Technische Universität Dresden, Germany) Zhennan Wei (Southeast University, P.R. University of ElectroCommunications, Japan); (Shanghai Jiao Tong University, P.R. China); Fengyi Huang (Southeast University, Hiroshi Suzuki (The University of Electro- China); Junfa Mao (Shanghai Jiao Tong P.R. China); Xusheng Tang (Southeast Communications, Japan); Kazuhiko Honjo (The TH2-C1-4 University, P.R. China) A 140-210 GHz Low-Power University, P.R. China); Youming Zhang University of Electro-Communications, Japan) (Southeast University, P.R. China); Nan TH2-B2-4 Vector-Modulator Phase Shifter in Jiang (S-TEK (Shanghai)High-frequency TH2-B1-3 130 nm SiGe BiCMOS Technology Two-Layer Planar-Circuit Filters Communication Technology Co., Ltd., P.R. Design of a Low-Coupled Compact China) Based on the Cul-de-Sac Coupling Paolo Valerio Testa (Technische Universität MIMO Antenna with Element Matrix under Consideration of Dresden, Germany); Corrado Carta (Dresden Spacing Less than 0.1λ University of Technology, Germany); Frank TH2-C2-4 Cross-Coupling Suppression Ellinger (Technische Universität Dresden, Modified Wideband Tandem Lei Zhao (Communication University of China, Germany) Couplers with Arbitrary Coupling P.R. China); Dazhi Piao (Communication Kazuki Yamamura (University of Doshisha, University of China, P.R. China) Japan) Coefficient and Its Implementation in Beam-Forming Networks TH2-B2-5 TH2-B1-4 He Zhu (University of Technology, Sydney A New Study to Suppress Mutual- Theoretical Design of M-PhC & Global Big Data Technologies Centre, Coupling between Waveguide Slot Bandpass Filter In THz Regime Australia); Y. Jay Guo (University of Array Antennas based on Chenglong Xie (University of Kanagawa, Technology, Sydney, Australia) Japan); Chun-Ping Chen (Kanagawa Metasurface Bulkhead for MIMO TH2-C2-5 Systems University, Japan); Zejun Zhang (Kanagawa University, Japan); Tetsuo Anada Improved Harmonics in Metal Mohammad Alibakhshikenari (Università degli (Kanagawa University, Japan) Insulator Metal Capacitors Using Studi di Roma “Tor Vergata”, Roma - ITALY, Design Techniques Italy); Bal Virdee (London Metropolitan University, United Kingdom (Great Britain)); Praveen Arotha (Globalfoundries Mohsen Khalily (University of Surrey & 5G Engineering Private Limited, India); Ananth Innovation Centre, Institute for Communication Sundaram (Globalfoundries Engineering Systems (ICS), United Kingdom (Great Britain)); Private Limited, India); Tamilmani Ethirajan Chan See (University of Bolton, United Kingdom (Globalfoundries Engineering Private (Great Britain)); Raed A Abd-Alhameed Limited, India); Balaji Swaminathan (University of Bradford, United Kingdom (Great (Globalfoundries Engineering Private Britain)); Francisco Falcone (Universidad Publica Limited, India) de Navarra, Spain); Ernesto Limiti (University of Rome Tor Vergata, Italy) TH2-B1-5 140 bps/Hz 16 × 16 MIMO Whole Azimuth Beam Steering Array for Connected Car Applications Taiki Fukushima (University of Toyama, Japan); Kazuhiro Honda (University of Toyama, Japan); Koichi Ogawa (University of Toyama & Faculty of Engineering, Japan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 22 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 10:30 - 12:10 10:30 - 12:10 Thursday, November 8 Room D Room K Room 103 Session TH2-D Session TH2-K Session TH2-103 Advances in Power Amplifiers II Microwave Biomedical JSPS 188 Committee/JEMEA Chairs:Kenji Mukai (Murata Applications Special Session: Innovative Manufacturing Co., Ltd., Chairs:Basari Basari (Universitas Microwave Heating and Japan), Shintaro Shinjo Indonesia, Indonesia), Chemistry (Mitsubishi Electric Tomoaki Nagaoka (National Chairs:Jun Fukushima (Tohoku Corporation, Japan) Institute of Information and University, Japan), Shuntaro Communications Tsubaki (Tokyo Institute of Technology, Japan) Technology, Japan) TH2-D-1 TH2-K-1 TH2-103-1 120-W Ku-band GaN SSPA with Preliminary Numerical Analysis of New Aspects towards Application Diode Linearizer for Future Monitoring Bone Density Using of Microwave Heating in Solid Broadcasting Satellite Microwave Tomography Systems Masafumi Nagasaka (NHK, Japan); Masaaki Mohanad Alkhodari (American University Yuji Wada (Tokyo Insitute of Technology, Kojima (NHK(Japan Broadcasting of Sharjah, United Arab Emirates); Amer Japan) Corporation), Japan); Susumu Nakazawa Zakaria (American University of Sharjah, (NHK, Japan); Hisashi Sujikai (NHK United Arab Emirates); Nasser Qaddoumi TH2-103-2 Science and Technical Research (American University of Sharjah, United Electrical Properties of Ferroelectric Laboratories, Japan); Shoji Tanaka (NHK Arab Emirates) Science and Technical Research Thin Films Crystallized by Laboratories, Japan); Takuma Torii TH2-K-2 Microwave Heating (Mitsubishi Electric, Japan); Hiromitsu Immunosensor using 250MHz shear Utsumi (Mitsubishi Electric, Japan); Zhanjie Wang (Shenyang University of Shintaro Shinjo (Mitsubishi Electric horizontal surface acoustic wave Technology, P.R. China) Corporation, Japan); Mitsuhiro Shimozawa delay line (Mitsubishi Electric, Japan) TH2-103-3 Hiromi Yatsuda (Japan Radio Co. Ltd., Selective microwave heating of Japan) TH2-D-2 organic reaction mixtures A Novel Multi-Band Look-Up Table TH2-K-3 Gregory B Dudley (West Virginia Based Digital Predistorter with a Contactless Carotid Pulse University, USA) Single Common Feedback Loop Measurement Using Continuous Tomoya Ota (Fujitsu Limited, Japan); Wave Radar TH2-103-4 Toshio Kawasaki (Fujitsu Limited, Japan); Research on Microwave Chemistry Shigekazu Kimura (Fujitsu Limited, Japan); Kilin Shi (Friedrich-Alexander University in Sichuan University Ken Tamanoi (Fujitsu Limited, Japan); Erlangen-Nuremberg, Germany); Sven Hiroyoshi Ishikawa (Fujitsu Laboratories Schellenberger (Brandenburg University of Kama Huang (Sichuan University, P.R. Limited, Japan); Masahiko Shimizu (Fujitsu Technology, Germany); Tobias Steigleder China); Yanping Zhou (Sichuan University, Limited, Japan); Maniwa Toru (Fujitsu (University Hospital Erlangen, Germany); P.R. China); Li Wu (Sichuan University, Limited, Japan) Fabian Michler (Friedrich-Alexander P.R. China) University Erlangen-Nuremberg, Germany); TH2-D-3 Fabian Lurz (Friedrich-Alexander University TH2-103-5 Erlangen-Nuremberg, Germany); Robert Study on Microwave Absorption An S-Band GaN MMIC High Power Weigel (Friedrich-Alexander Universität Amplifier With 50W Output Power Erlangen-Nürnberg, Germany); Alexander Property of Multi Metal Particles by and 55% Power Added Efficiency Koelpin (BTU & Chair for Electronics and Electromagnetic Simulation Sensor Systems, Germany) Rocco Giofrè (University of Roma Tor Naoki Shinohara (Kyoto University, Japan) Vergata, Italy); Ferdinando Costanzo TH2-K-4 (University of Roma Tor Vergata, Italy); Portable Biomedical Microwave Sergio Colangeli (University of Rome Tor Vergata, Italy); Walter Ciccognani Imaging Using Software-Defined (Università of Rome Tor Vergata, Italy); Radio Manuela Sotgia (Rheinmetall Italy, Italy); Maurizio Cirillo (Rheinmetall Italy, Italy); Anthony E Stancombe (The University of Ernesto Limiti (University of Rome Tor Queensland, Australia); Konstanty S Vergata, Italy) Bialkowski (The University of Queensland, Australia) TH2-D-4 TH2-K-5 53% PAE 32W Miniaturized Orthogonally-face-to-face Type of X-band GaN HEMT Power Micro-electrode with Ring Amplifier MMICs Resonator for Circulating Tumor Naoko Ono (Toshiba Infrastructure Systems Cell Detection & Solutions Corporation, Japan); Tomohiro Senju (Toshiba Infrastructure Systems & Shouta Sora (National Institute of Solutions Corporation, Japan); Kazutaka Technology, Kure College, Japan); Kousei Takagi (Toshiba Infrastructure Systems & Kumahara (NIT, Kure College, Japan); Solutions Corporation, Japan) Masanori Eguchi (National Institute of Technology, Kure College, Japan); Futoshi TH2-D-5 Kuroki (National Institute of Technology, Kure College, Japan); Takeshi Yamakawa 70W X-band GaN Internally (Fuzzy Logic Systems Institute, Japan); Matched FET with 40% PAE and Fumihiro Tanaka (University of 800MHz bandwidth Occupational and Environmental Health, Japan) Kwanjin Oh (Wavice, Inc, Korea); Sangmin Lee (Wavice, Inc, Korea); Heejae Yoon (Wavice, Inc, Korea); Heejun Kim (Wavice, Inc, Korea)

23

APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 23 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 13:30 - 15:10 Room B1 Room B2 Room C1 Room C2 Session TH3-B1 Session TH3-B2 Session TH3-C1 Session TH3-C2 Antenna Arrays and Beam- Novel Tunable Technologies and Millimeter-wave Devices and EM Analysis and Scattering forming II Structures Circuits Problems Chairs:Jiro Hirokawa (Tokyo Chairs:Ruey-Beei Wu (National Chairs:Hiroshi Hamada (NTT Chairs:Takashi Hisakado (Kyoto Institute of Technology, Taiwan University, Corporation, Japan), Jeffrey University, Japan), Japan), Mayumi Matsunaga Taiwan), Hidenori Yukawa Hesler (Virginia Diodes, Xiaochun LI (SHANGHAI (Tokyo University (Mitsubishi Electric, Japan) Inc., USA) Jiao Tong University, P.R. Technology, Japan) China)

TH3-B1-1 TH3-B2-1 TH3-C1-1 TH3-C2-1 Mm-Wave High Gain Substrate A Wide Range Tunable Bandpass On-Chip Antennas in SiGe A Compact 2-D WLP-FDTD Integrated Cavity Excited Patch Filter Using Imaginary Resonance BiCMOS Technology: Challenges, Method for Superconducting Antenna Array Phenomena State of the art and Future Microstrip Lines Jianfeng Zhu (Beijing University of Posts Satoru Yokono (Japan Radio Co., Ltd., Directions Yan Li (Shanghai Jiao Tong University, P.R. and Telecommunications, P.R. China); Li Japan); Takashi Chiba (Japan Radio Co., Herman J Ng (IHP, Germany); Dietmar China); Xiaochun LI (SHANGHAI Jiao Deng (Beijing University of Posts and Ltd, Japan); Shotaro Nagai (Japan Radio Kissinger (IHP, Germany) Tong University, P.R. China); Junfa Mao Telecommunications, P.R. China); Yang Co., Ltd, Japan); Kazuo Hirabayashi (Japan (Shanghai Jiao Tong University, P.R. China) Yang (University of Technology Sydney, Radio Co., Ltd, Japan); Nobuyuki Adachi TH3-C1-2 Australia); Shufang Li (Beijing University (Japan Radio Co., Ltd, Japan) High Responsivity Power Detectors TH3-C2-2 of Posts and Telecommunications, P.R. THz Wave Scattering by Graphene China) TH3-B2-2 for W/D-Bands Passive Imaging Systems in 0.13µm SiGe BiCMOS Strip Grating Embedded into a Tunable Filter by FBAR Using Dielectric Slab with PEC Plane TH3-B1-2 Coupling Capacitors Technology Microstrip Aperture-Coupled Mstyslav Kaliberda (Karazin National Han-Yun Tsai (National Taiwan University, Berktug Ustundag (Sabanci University, Stacked Patch Antenna Array for Turkey); Esref Turkmen (Sabanci University of Kharkiv & National University Taiwan); Ruey-Beei Wu (National Taiwan of Pharmacy, Ukraine); Leonid Lytvynenko Wide-Band Wide-Angle-Scan University, Taiwan) University, Turkey); Barbaros Cetindogan Applications (IHP, Germany); Mehmet Kaynak (IHP, (Institute of Radio Astronomy of the Germany & Leibniz-Institut für innovative National Academy of Sciences of Ukraine, Ukraine); Sergey Pogarsky (Karazin Cheng Yang (East China Research Institute TH3-B2-3 Mikroelektronik, Turkey); Yasar Gurbuz National University of Kharkiv, Ukraine) of Electronic Engineering, P.R. China); Sen A Tunable Single-to-Balanced (Sabanci University, Turkey) Feng (The 38th Reserch Instatute of China Bandpass Filter with Bandwidth Electronics Technology Group Corporation, Control TH3-C1-3 TH3-C2-3 P.R. China) Formulation of Single-conductor Xu Zhu (University of Electronic Science Tunable Equalizer for 64 Gbps data communication systems in 130nm Transmission Line Model with TH3-B1-3 and Technology of China, P.R. China); Tao Feedback Electric Fields by A Novel Rigid-Flex Aperture Yang (University of Electronic Science and SiGe Technology of China, P.R. China); Pei-Ling Terminal Discontinuity Coupled Patch Antenna Array Chi (National Chiao Tung University, Stavros Giannakopoulos (Chalmers University of Technology, Sweden); Daiki Tashiro (Kyoto University, Japan); Vincens Gjokaj (Michigan State University, Taiwan); Ruimin Xu (University of Zhongxia Simon He (Chalmers University Takashi Hisakado (Kyoto University, USA); John Papapolymerou (Michigan State Electronic Science and Technology of of Technology & Microwave Electronic Japan); Tohlu Matsushima (Kyushu Institute University, USA); John Albrecht (Michigan China, P.R. China) Lab, Sweden); Herbert Zirath (Chalmers of Technology, Japan); Osami Wada (Kyoto State University, USA); Prem Chahal University of Technology, Sweden) University & Graduate School of (Michigan State University, USA) TH3-B2-4 Engineering, Japan) Miniaturized Tunable Filters with TH3-B1-4 TH3-C1-4 T-coil Design A 28 GHz Superregenerative TH3-C2-4 Bandwidth Enhancement of a Chia-Chia Lin (National Taiwan University, Amplifier for FMCW Radar Generation of One-Dimensional Series-Fed Microstrip Patch Array Taiwan); Han-Yun Tsai (National Taiwan Reflector Applications in 45 nm SOI Airy Beams by a Single-Layer Antenna University, Taiwan); Ruey-Beei Wu CMOS Flexible Metasurface at Millimeter- (National Taiwan University, Taiwan) Yohei Miura (Japan Radio Co., Ltd., Japan); Wave Band Kazuo Yamashita (Japan Radio Co., Ltd., Manu Viswambharan Thayyil (Technische Zhuo-Wei Miao (Southeast University, P.R. Japan); Rei Katoh (Japan Radio Co., Ltd., TH3-B2-5 Universität Dresden, Germany); Hatem China); Zhang-Cheng Hao (SEU, P.R. Japan); Yuzo Shibuya (Japan Radio Co., Compact Multi-Function Notch Ghaleb (TU Dresden, Germany); Niko China); Quan Yuan (Southeast University, Ltd., Japan) Filter Using λ/4 Microstrip Joram (Technische Universität Dresden, Germany); Frank Ellinger (Technische P.R. China) Resonator with Embedded Varactor- Universität Dresden, Germany) TH3-B1-5 Loaded Hybrid Microstrip/CPW TH3-C2-5 Broadband Duplex Slot Antenna Structure TH3-C1-5 Scattering Characteristics of Vortex Array with high isolation Tianyi Wang (University of Electronic High-output-power and Reverse- Electromagnetic Waves for Typical Wei Hu (South China University of Science and Technology of China, P.R. isolation G-band Power Amplifier Targets Technology, P.R. China); Zheming Xie China); Xiaohui Liu (University of Module Based on 80-nm InP HEMT Xiangxi Bu (Institute of Electronics, Chinese (South China University of Technology, P.R. Electronic Science and Technology of Technology China); MingYou Xie (South China Academy of Sciences, P.R. China); Zhuo China, P.R. China); Zhixian Deng Zhang (Institute of Electronics, Chinese University of Technology, P.R. China) Hiroshi Hamada (NTT Corporation, Japan); (University of Electronic Science and Academy of Sciences, P.R. China); Takuya Tsutsumi (NTT Access System Technology of China, P.R. China); Xun Luo Xingdong Liang (Institute of Electronics, Services Laboratories & Neko 9 (University of Electronic Science and Chinese Academy of Sciences, P.R. China); Laboratories, Japan); Hiroki Sugiyama (NTT Technology of China, P.R. China) Zheng Zeng (Institute of Electronics, Device Technology Laboratories, NTT Chinese Academy of Sciences, P.R. China); Corporation, Japan); Hideyuki Nosaka (NTT Longyong Chen (National Key Laboratory Corporation, Japan) of Science and Technology on Microwave Imaging, P.R. China); Haibo Tang (Institute of Electronics, Chinese Academy of Sciences, P.R. China)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 24 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 13:30 - 15:10 13:30 - 15:10 Thursday, November 8 Room D Room K Room 103 Session TH3-D Session TH3-K Session TH3-103 mmW Low Noise Amplifiers Beam Controlled Communication Electromagnetic Compatibility Chairs:Yasushi Itoh (Shonan Techniques and Radar/ (EMC) I Institute of Technology, Communication Systems Chairs:Ae-Kyoung Lee (ETRI, Japan), Peng Wen Wong Chairs:Madhumita Chakravarti Korea), Tohlu Matsushima (Universiti Teknologi (Research Center Imarat, (Kyushu Institute of PETRONAS, Malaysia) India), Kazuaki Takahashi Technology, Japan) (Panasonic Corporation, Japan) TH3-D-1 TH3-K-1 TH3-103-1 [Invited] Low-Noise Amplifiers for W-Band An Efficient Codebook-based Beam Review on Human Dosimetry for and D-Band Passive Imaging Training Technique for Millimeter- Radio-Frequency Exposure Above 6 Systems in SiGe BiCMOS Wave Communication Systems GHz -International Exposure Technology Phonfred Okoth (Waseda University, Japan); Standards- Berktug Ustundag (Sabanci University, Quang Ngoc Nguyen (Waseda University, Akimasa Hirata (Nagoya Institute of Turkey); Esref Turkmen (Sabanci Japan); Dhruba Dhakal (Waseda University, Technology, Japan) University, Turkey); Barbaros Cetindogan Japan); Daichi Nozaki (Waseda University, (IHP, Germany); Alper Guner (Sabanci Japan); Yoshihide Yamada (Malaysia-Japan TH3-103-2 International Institute of Technology, University, Turkey); Mehmet Kaynak (IHP, Design of an X-band Microwave Germany & Leibniz-Institut für innovative Universiti Teknologi Malaysia, Malaysia); Mikroelektronik, Turkey); Yasar Gurbuz Takuro Sato (Waseda University, Japan) Magnetic Absorber composed of (Sabanci University, Turkey) Multimode Dielectric Resonator TH3-K-2 Array TH3-D-2 Low Complexity Antenna Array Sofian Hamid (RWTH Aachen University, A 38 GHz Low Power Variable Concept Using Overlapped Subarray Germany); Dirk Heberling (RWTH Aachen Gain LNA Using PMOS Current- Based Hybrid Beamforming University, Germany) Steering Device and Gm-Boost Joerg Eisenbeis (Karlsruhe Institute of Technique Technology, Germany); Pablo Ramos López TH3-103-3 (Karlsruhe Institute of Technology (KIT), Comparison of different SAR limits Yu-Teng Chang (National Taiwan Germany); Tobias Mahler (Karlsruhe University, Taiwan); Yu-Ni Chen (National in SAM phantom for mobile phone Institute of Technology (KIT), Germany); Taiwan University, Taiwan); Hsin-Chia Lu exposure Christian von Vangerow (Karlsruhe Institute (National Taiwan University, Taiwan) of Technology (KIT), Germany); Thomas Ae-Kyoung Lee (ETRI, Korea); Seon-Eui Zwick (Karlsruhe Institute of Technology Hong (Broadcasting and Media Research TH3-D-3 (KIT), Germany) Laboratory, Electronics and A W-Band Low-Noise Amplifier Telecommunication Research Institute, with Shunt Inductors and TH3-K-3 Korea); Masao Taki (Tokyo Metropolitan Transformer Feedback Gm-Boosting A mm-Wave Multi-Beam University, Japan); Kanako Wake (National Institute of Information and Techniques Directional and Polarimetric Agile Communications Technology, Japan); Hsing-I Tsai (National Tsing Hua Front-End for 5G Communications Hyung Do Choi (ETRI, Korea) University, Taiwan); Hou-Ru Pan (National Steffen Spira (Technische Universität Tsing Hua University, Taiwan); Hong-Shen Ilmenau, Germany); Kurt Gerd Blau TH3-103-4 Chen (National Tsing Hua University, (Technische Universität Ilmenau, Germany); Shielding Effect of Mu-Near-Zero Taiwan); Jenny Yi-Chun Liu (National Christoph Wagner (Technische Universität Metamaterial Slab to Reduce Tsing Hua University, Taiwan) Ilmenau, Germany); Alexander Schulz Magnetic Flux Leakage in Wireless (Technische Universität Ilmenau, Germany); TH3-D-4 Nam Gutzeit (Technische Universität Power Transfer System An E-Band Transformer-Based Ilmenau & IMN, Germany); Jens Müller In Gon Lee (Kongju National University, 90-nm CMOS LNA (Technische Universität Ilmenau, Germany); Korea); Nam Kim (Chungbuk National Reiner S. Thomä (Ilmenau University of University, Korea); In-Kui Cho (ETRI, Jeng-Han Tsai (National Taiwan Normal Technology, Germany); Matthias Hein Korea); Ic Pyo Hong (Kongju National University, Taiwan); Chuan-Chi Hung (Ilmenau University of Technology, University, Korea) (National Taiwan Normal University, Germany) Taiwan); Jen-Hao Cheng (MediaTek, Taiwan); Chen-Fang Lin (National Taiwan TH3-K-4 Normal University, Taiwan); Ruei-An Development of 5G System Chang (National Taiwan Normal University, Taiwan) Evaluation Tool Koshiro Kitao (NTT DOCOMO, INC., TH3-D-5 Japan); Anass Benjebbour (NTT DOCOMO, A 76-98 GHz Broadband Low-DC- INC., Japan); Tetsuro Imai (NTT Power Low Noise Amplifier Using DOCOMO, INC., Japan); Yoshihisa Kishiyama (NTT DOCOMO, INC., Japan); Coplanar Waveguide in 40 nm Minoru Inomata (NTT DOCOMO, INC., CMOS Process Japan); Yukihiko Okumura (NTT Shao-Wei Peng (National Central DOCOMO, INC., Japan) University, Taiwan); Jyun-Jia Huang (National Central University, Taiwan); TH3-K-5 Hong-Yeh Chang (National Central 24 GHz QAM-FBMC Radar with University, Taiwan); Yeong-Maw Chen Communication System (RadCom) (NCSIST, Taiwan) Jéssica Sanson (University of Aveiro & Instituto de Telecomunicacoes, Portugal); Atilio Gameiro (Telecommunications Institute/Aveiro University, Portugal); Daniel Castanheira (Instituto de Telecomunicações (IT)/University of Aveiro, Portugal); Paulo P Monteiro (Universidade de Aveiro & Instituto de Telecomunicações, Portugal)

25

APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 25 2018/10/26 11:20:07 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 15:30 - 17:10 Room B1 Room B2 Room C1 Room C2 Session TH4-B1 Session TH4-B2 Session TH4-C1 Session TH4-C2 Applications of Metasurfaces Novel Active Structures and High-speed and Broadband Novel Wireless Systems and Chairs:Takuji Arima (Tokyo Components Millimeter and THz Wave Propagation University of Agriculture Chairs:Roee Ben Yishay (ON Systems Chairs:Jerome Cheron (NIST, and Technology, Japan), Semiconductor, Israel), Chairs:Akihiko Hirata (Chiba USA), Shuichi Obayashi Sungtek Kahng (Incheon Hiroshi Mizutani (Salesian Institute of Technology, (Toshiba Corporation, National University, Korea) Polytechnic, Japan) Japan), Ho-Jin Song Japan) (POSTECH, Korea)

TH4-B1-1 TH4-B2-1 TH4-C1-1 TH4-C2-1 All-Polarization Blazed Surface An L-Band SiGe HBT Active Performance Evaluation of a Effect of human body shadowing on Haozhan Tian (University of California, Los Differential Equalizer with Tunable 32-QAM 1-Meter Wireless Link spatial correlation of indoor Angeles, USA); Tatsuo Itoh (UCLA, USA) Positive/Negative Gain Slopes Operating at 220-260 GHz with a millimeter MIMO branches Using Transistor-Loaded RC- Data-Rate of 90 Gbps Shuichi Obayashi (Toshiba Corporation, TH4-B1-2 Circuits Pedro Rodriguez-Vazquez (Bergische Japan); Takeo Fujii (The University of A Circularly Polarized Antenna Yasushi Itoh (Shonan Institute of Uuniversität Wwuppertal, Germany); Janusz Electro-Communications, Japan) Integrated with a Solar Cell Technology, Japan) Grzyb (University of Wuppertal, Germany); Metasurface for CubeSat Bernd Heinemann (IHP, Germany); Ullrich TH4-C2-2 TH4-B2-2 Pfeiffer (University of Wuppertal, Germany) Performance Evaluation of an IEEE Son Xuat Ta (Hanoi University of Science 802.11af Prototype in a Suburban and Technology, Vietnam); Ikmo Park (Ajou Low Loss 28 GHz Digital Phase TH4-C1-2 University, Korea) Shifter for 5G Phased Array Environment Resonant Tunneling Diode Receiver Transceivers for Coherent Terahertz Wireless Antonio III Montejo (University of San TH4-B1-3 Carlos, Philippines); Alberto Bañacia Roee Ben Yishay (ON Semiconductor, Highly Unidirectional Slot Antenna Communication (University of San Carlos, Philippines); Israel); Danny Elad (ON Semiconductor, Hirokazu Sawada (National Institute of using Transmissive and Reflective Israel) Naoki Nishigami (Osaka University, Japan); Metasurfaces for WLAN and Yousuke Nishida (Osaka University, Japan); Information and Communications Technology, Japan); Kentaro Ishizu WiMAX Applications TH4-B2-3 Sebastian Diebold (Osaka University, Japan); Jaeyoung Kim (Rohm Co, Ltd., (National Institute of Information and Tanan Hongnara (King Mongkut's A 7 GHz Differential 4-Stage Japan); Masayuki Fujita (Osaka University, Communications Technology, Japan); University of Technology North Bangkok, Programmable Equalizer with Japan); Tadao Nagatsuma (Osaka Takeshi Matsumura (Kyoto University & Thailand); Sarawuth Chaimool (Khon Kaen Hybrid Continuous-Time/Discrete- University, Japan) National Institute of Information and University, Thailand); Prayoot Time Architecture in 28 nm CMOS Communications Technology (NICT), Akkaraekthalin (King Mongkut's University TH4-C1-3 Japan); Kazuo Ibuka (National Institute of Information and Communications of Technology North Bangkok, Thailand) Yohei Morishita (Panasonic Corporation, Study on the Number and Size of Japan); Junji Sato (Panasonic Corporation, Technology, Japan); Fumihide Kojima TH4-B1-4 Japan); Koji Takinami (Panasonic Cells Composed of Multiple-beam (National Institute of Information and Transmission Base Station System Communications Technology, Japan) An X-Band Flat Broadband Corporation, Japan); Kazuaki Takahashi (Panasonic Corporation, Japan) Transformation-Optics-Driven Yuma Kase (Nihon University, Japan); TH4-C2-3 Tomohiro Seki (Nihon University, Japan) Luneburg Lens Antenna for TH4-B2-4 Propagation of Compact-Modeling Synthetic Aperture Radar A Novel Reconfigurable GaN Filter TH4-C1-4 Measurement Uncertainty to 220 Yuanyan Su (National University of MMIC with Active Reflector A 60-GHz 10-Gb/s OOK Modulator GHz Power-Amplifier Designs Singapore, Singapore); Zhi Ning Chen Hiroshi Mizutani (Salesian Polytechnic, with Transformer-Feedback Jerome Cheron (NIST, USA); Dylan (National University of Singapore, Japan) Williams (NIST, USA); Konstanty Lukasik Singapore); Siegfred Daquioag Balon Technique for High Gain and (KU Leuven, Belgium & Warsaw University (National University of Singapore, On-Off Isolation in 90-nm CMOS of Technology, Poland); Richard Singapore); Ke You Cheong (National TH4-B2-5 Po-Hsiang Chuang (National Taiwan Chamberlin (NIST, USA); Benjamin F University of Singapore, Singapore) A Tunable Non-Foster T-network University, Taiwan); Jung-Lin Lin (National Jamroz (NIST, USA); Erich Grossman Loaded Transmission Line Using Taiwan University, Taiwan); Yu-Hsuan Lin (NIST, USA); Wojciech Wiatr (Warsaw TH4-B1-5 Distributed Amplifier-Based (National Taiwan University, Taiwan); University of Technology, Poland); The Angular Stability of a Reconfigurable Negative Group Yunshan Wang (National Taiwan Dominique Schreurs (KU Leuven, Belgium) Miniaturized Frequency Selective Delay Circuit University, Taiwan); Huei Wang (National Surface Wi-Fi Protection Shield Taiwan University, Taiwan) TH4-C2-4 Minning Zhu (Rutgers University, USA); Multiple Frequency Reconstruction Go Itami (NTT & Network Technology Chung-Tse Michael Wu (Rutgers University, TH4-C1-5 Method with Phaseless Data Laboratories, Japan); Yohei Toriumi (NTT, USA) Asynchronous measurement of Japan); Jun Kato (NTT, Japan) millimeter waves using integrated Hu Zheng (University of ELectronic Science and Technology of China, P.R. China); one-dimensional multi-channel Baojin Liu (University of ELectronic probe Science and Technology of China, P.R. Yuya Asano (Gifu University, Japan); China) Hirohisa Uchida (ARKRAY Inc., Japan); Makoto Tojo (Think-Lands Co., Ltd., TH4-C2-5 Japan); Yoichi Oikawa (Think-Lands Co., Silicon Metadevices for Vortex Ltd., Japan); Kunio Miyaji (Think-Lands Beam Generation at Visible Co., Ltd., Japan); Shintaro Hisatake (Gifu Frequencies University, Japan) Zhixia Xu (Southeast University, P.R. China); Yicheng Hou (Southeast University, P.R. China); Changjiang Su (Southeast University, P.R. China); Hongxin Zhao (Southeast University, P.R. China); Shunli Li (Southeast University, P.R. China); Xiaoxing Yin (Southeast University, P.R. China)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 26 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Thursday, November 8 15:30 - 17:10 15:30 - 17:10 Thursday, November 8 Room D Room K Room 103 Session TH4-D Session TH4-K TH4-103 Monolithic Receivers and System Techniques - Material, Component, Electromagnetic Compatibility Transmitters Circuit, and Evaluation Aspects (EMC) II Chairs:Mizuki Motoyoshi (Tohoku Chairs:Julian L Webber (Osaka University Chairs:Katsushige Harima (National University, Japan), Jae- & Advanced Telecommunications Institute of Information and Sung Rieh (Korea Research Institute International, Communications Technology, University, Korea) Japan), Herbert Zirath (Chalmers Japan), Tohlu Matsushima University of Technology, (Kyushu Institute of Sweden) Technology, Japan) TH4-D-1 TH4-K-1 TH4-103-1 A 28GHz 4-Channel Transmit/ Clipping-and-Bank-Filtering Both-side Retrodirective System for Receive RF Core-Chip with Highly- Technique in Joint Crest Factor Minimizing the Leak Energy in Accurate Phase Shifter for High Reduction and Digital Predistortion Microwave Power Transmission SHF Wide-band Massive MIMO in for Power Amplifiers Takayuki Matsumuro (Ryukoku University, 5G Siqi Wang (GeePs, centralesupelec); Morgan Japan); Yohei Ishikawa (Kyoto University, Wataru Yamamoto (Mitsubishi Electric Roger (Supélec, France); Caroline Japan); Masashi Yanagase (Murata Corporation, Japan); Koji Tsutsumi (Mitsubishi Lelandais-Perrault (SUPÉLEC, France) Manufacturing Co., Ltd., Japan); Naoki Electric Corporation, Japan); Takaya Maruyama Shinohara (Kyoto University, Japan) (Mitsubishi Electric Corporation, Japan); TH4-K-2 Takanobu Fujiwara (Mitsubishi Electric Cancelling Noise in Multi-Band TH4-103-2 Corporation, Japan); Tatsuya Hagiwara Digital-Intensive Transmitters Investigation of Radiated Immunity (Mitsubishi Electric Corporation, Japan); Ai Testing Using White Gaussian Osawa (Mitsubishi Electric Corporation, Japan); Sungwon Chung (University of Southern Noise and Multitone Signals Mitsuhiro Shimozawa (Mitsubishi Electric, California, USA); Rui Ma (Mitsubishi Japan) Electric Research Lab, USA) Katsushige Harima (National Institute of Information and Communications TH4-D-2 TH4-K-3 Technology, Japan); Daichi Akita (TOYO 36-40 GHz Tx/Rx Beamformers for Evaluation of Link Level Corporation, Japan); Tetsuya Nakamura (TOYO Corporation, Japan) 5G mm-Wave Phased-Array Performance Considering EVM of Chun-Nien Chen (National Taiwan Transmit Signal for Downlink TH4-103-3 University, Taiwan); Yi-Hsien Lin (National NOMA ESD-Reliability Enhancement in a Taiwan University, Taiwan); Yin-Lin Liu Kenta Mayama (Tohoku University, Japan); High-voltage 60 V Square-type (National Taiwan University, Taiwan); Kohei Akimoto (Tohoku University, Japan); Wei-Jun Liao (National Chung Cheng pLDMOS by the Guard-Ring Suguru Kameda (Tohoku University, Japan); University, Taiwan); Yu-Hsiang Nien Engineering Noriharu Suematsu (Tohoku University, (National Chung Cheng University, Taiwan); Japan) Shen-Li Chen (National United University, Hsin-Chia Lu (National Taiwan University, Taiwan); Yi-Hao Chiu (National United Taiwan); Tsung-Heng Tsai (National Chung University, Taiwan); Yu-Lin Jhou (National Cheng University, Taiwan); Tian-Wei Huang TH4-K-4 United University, Taiwan); Pei-Lin Wu (National Taiwan University, Taiwan); Huei Emulator to Generate Multiple (National United University, Taiwan); Wang (National Taiwan University, Taiwan) Heterogeneous Interference Signal Po-Lin Lin (National United University, in Korean Unlicensed Band Taiwan); Yu-Jen Chen (National Sun TH4-D-3 Yat-sen University, Taiwan) A Ku-Band 8-Element Phased- Sangjoon Lee (Kookmin University, Korea); Hyungoo Yoon (Myongji College, Korea); Array Receiver in 0.18-μm CMOS Kyung-Jin Baik (Kookmin University, Technology Korea); Byung Jun Jang (Kookmin Univ, Korea) Yiming Yu (University of Electronic Science and Technology of China, P.R. China); Xiaoning Zhang (University of Electronic Science and Technology of China, P.R. China); Zhengdong Jiang (University of Electronic Science and Technology of China, P.R. China); Yunqiu Wu (University of Electronic Science and Technology of China, P.R. China); Chenxi Zhao (University of Electronic Science and Technology of China, P.R. China); Huihua Liu (University of Electronic Science and Technology of China, P.R. China); Kai Kang (University of Electronic Science and Technology of China, P.R. China) TH4-D-4 Design of V-Band CMOS Low- Noise Amplifier and Mixer with Integrated Transformers Hong-Shen Chen (National Tsing Hua University, Taiwan); Wen-Chieh Huang (National Tsing Hua University, Taiwan); Jenny Yi-Chun Liu (National Tsing Hua University, Taiwan) TH4-D-5 A Ku-Band Receiver with 12-to-20- dB Gain, -14-dBm IP1dB in 65-nm CMOS Technology Depeng Cheng (Southeast University, P.R. China); Lianming Li (Southeast University, P.R. China) 27

APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 27 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Friday, November 9 8:30 - 10:10 Room B1 Room B2 Room D Room J Session FR1-B1 Session FR1-B2 Session FR1-D Session FR1-J Millimeter-wave Antenna Couplers and Dividers I Special Session: Recent Advances Special Session: Silicon-Based Technologies Chairs:Kwok-keung (Michael) in Metamaterial and Metasurfaces mmW/THz Technologies Chairs:Kunio Sakakibara (Nagoya Cheng (Chinese University for Antenna Applications Chairs:Shuhei Amakawa Institute of Technology, of Hong Kong, Hong Chairs:Toru Uno (Tokyo University (Hiroshima University, Japan), Young Joong Yoon Kong), Pei-Ling Chi of Agricultural Technology, Japan), Davide Guermandi (Yonsei University, Korea) (National Chiao Tung Japan), Naobumi Michishita (IMEC, Belgium) University, Taiwan) (National Defense Academy, Japan) FR1-B1-1 FR1-B2-1 FR1-D-1 FR1-J-1 [Invited] Via-less Waveguide to Microstrip A Modified Wilkinson Power Measured Performance of CMOS Devices and Circuits for Line Transition with Tolerance to Divider with Wide Dual-band Broadband Frequency Selective THz Applications Misalignment of Circuit Patterns Frequency Ratio Range Surface to Reduce Return Loss of Chun-Hsing Li (National Tsing Hua Takashi Maruyama (Mitsubishi Electric Pu-Hua Deng (National University of Dielectric Plate Designed by Matrix University, Taiwan); Te-Yen Chiu (National Corporation, Japan); Shigeo Udagawa Kaohsiung, Taiwan) Analysis of Equivalent Circuit Central University, Taiwan); Wei-Min Wu (National Central University, Taiwan) (Mitsubishi Electric Corporation, Japan) Tomihiro Ikegami (Nagoya Institute of FR1-B2-2 Technology, Japan); Kunio Sakakibara FR1-B1-2 A Power Divider with Controllable (Nagoya Institute of Technology, Japan); FR1-J-2 Experimental Investigation of Transmission Zeros Using Lumped Shota Ino (Nagoya Institute of Technology, Phase Modulated mm-Wave Radars Residual Substrate Effect in CMOS Artificial Transmission Line Japan); Nobuyoshi Kikuma (Nagoya in Advanced CMOS Technology On-Chip Antenna Design Institute of Technology, Japan) Siang Chen (National Taiwan University, Davide Guermandi (IMEC, Belgium); Piet Wambacq (IMEC/VUB, Belgium); Andre Chun-Chi Lin (Industrial Technology Taiwan); Tzong-Lin Wu (National Taiwan FR1-D-2 Bourdoux (IMEC, Belgium); Jan Craninckx Research Institute, Taiwan); Pei-Yu Lyu University, Taiwan) Design of Transmission Line (IMEC, Belgium) (National Chung Cheng University, Resonator Based CRLH Leaky- Taiwan); Chia-Chan Chang (National FR1-B2-3 Wave Antenna FR1-J-3 Chung-Cheng University, Taiwan) Analysis and Verification of three- Scalable Wideband and Wide-Angle way Gysel Power Divider with Yujiro Kushiyama (Tokyo University of FR1-B1-3 Beam Steering mm-Wave/THz Arbitrary Power-Dividing Ratio Agriculture and Technology, Japan); Takuji Design and Experiment of Arima (Tokyo University of Agriculture and Radiator and Phased Arrays in Wideband Circularly-Polarized Yihua Zhou (Nanjing University of Science Technology, Japan); Toru Uno (Tokyo Silicon Millimeter-Wave Transmitarrays and Technology, P.R. China); Haidong Chen University of Agricultural Technology, (Nanjing University of Science and Japan) Hossein Jalili (University of California, Zhihao Jiang (Southeast University, P.R. Technology, P.R. China); Wenquan Che Davis, USA); Omeed Momeni (University China); Xiaowei Zhu (Southeast University, (Nanjing University of Science and FR1-D-3 of California Davis, USA) P.R. China); Zhe Song (Southeast Technology, P.R. China); Tingting Liu Leaky-wave antennas of CRLH University, P.R. China); Ling Tian (Nanjing University of Science and FR1-J-4 waveguide using the cutoff TM01 (University of Southeast, P.R. China); Technology, P.R. China); Wenjie Feng Millimeter-wave CMOS Transceiver mode and sector-shaped cutoff TE Nianzu Zhang (SEU, P.R. China) (Nanjing University of Science and Toward 1Tbps Wireless Technology, P.R. China); Wanchen Yang mode FR1-B1-4 (Nanjing University of Science and Communication Technology, P.R. China); Quan Xue (South Jungo Nakajima (Doshisha University, Design Analysis of Folded Japan) Kenichi Okada (Tokyo Institute of China University of Technology, P.R. Technology) Reflectarray Element for High China) Aperture Efficiency FR1-D-4 Jun Gi Jeong (Yonsei University, Korea); FR1-B2-4 Negative Effective Permeability Young Joong Yoon (Yonsei University, Design of the Wide-Stopband Balun Material Composed of Multi-Layer Korea); Youngwook Kim (California State With Stepped Coupled Lines Ceramic Capacitors University, Fresno, USA); Hyungrak Kim (Daelim University, Korea) Chun-Yuan Huang (National Chung Cheng Thanh Binh Nguyen (National Defense University, Taiwan); Guan-Yin Lin Academy, Japan); Naoyuki Kinai (National (National Chung Cheng University, Defense Academy, Japan); Naobumi Taiwan); Ching-Wen Tang (National Chung Michishita (National Defense Academy, Cheng University, Taiwan) Japan); Hisashi Morishita (National Defense Academy, Japan); Teruki Miyazaki (The Yokohama Rubber Co., Ltd., Japan); Masato Tadokoro (The Yokohama Rubber Co., Ltd., Japan) FR1-D-5 Unit Cell Block for 3-D Isotropic Negative-Index Metamaterials Impedance-Matched to Free Space by Using Dielectric Cubes and Metallic Mesh Takuya Yamaguchi (Kyoto Institute of Technology, Japan); Takumi Ishiyama (Kyoto Institute of Technology, Japan); Tetsuya Ueda (Kyoto Institute of Technology, Japan); Tatsuo Itoh (UCLA, USA)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 28 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Friday, November 9 8:30 - 10:10 8:30 - 10:10 Friday, November 9 Room K Room 103 Session FR1-K Session FR1-103 High Frequency Oscillators Microwave Heating and Chairs:Chairs: Nobuyuki Itoh Chemistry (Okayama Prefectural Chairs:Yoshio Nikawa University, Japan), Hiroshi (Kokushikan University, Okazaki (NTT DOCOMO, Japan), Changjun Liu Japan) (Sichuan University, P.R. China)

FR1-K-1 FR1-103-1 A 16-GHz-Band Low-Supply- Permittivity and Electric Voltage Class-C VCO IC with Conductivity Measurement and Switching Feedback Circuit in Microwave Heating Behavior of 40-nm SOI CMOS Mo/Cordierite Composite Materials Mengchu Fang (Waseda University, Japan); Noboru Yoshikawa (Graduate School of Xiao Xu (Waseda University, Japan); Environmental Studies, Tohoku University, Toshihiko Yoshimasu (Waseda University, Japan) Japan) FR1-103-2 FR1-K-2 Studies on a Frequency-Stabilized 60-GHz Millimeter-Wave Voltage- Power-Adjustable Magnetron Based Controlled Oscillators Using on Equivalent Model Transformer-Tuning Technique Xiaojie Chen (Sichuan University, P.R. Hao-Jiun Wu (National Cheng Kung China); Hang Lin (Sichuan University, P.R. University, Taiwan); Chien-Chang Chou China); Zhenlong Liu (Sichuan University, (National Cheng Kung University, Taiwan); P.R. China); Kama Huang (Sichuan Chun-Yu Ku (National Cheng Kung University, P.R. China); Changjun Liu University, Taiwan); Tzuen-Hsi Huang (Sichuan University, P.R. China) (National Cheng Kung University, Taiwan); Huey-Ru Chuang (National Cheng Kung FR1-103-3 University, Taiwan); Tsai-Kan Chien Feasibility Study on a Microwave (Industrial Technology Research Institution (ITRI), Taiwan); Tai-Hsing Lee (ITRI, Heating Applicator Using Taiwan) Electromagnetic Coupling Tomohiko Mitani (Kyoto Universiy, Japan); FR1-K-3 Daichi Nishio (Kyoto University, Japan); Low Phase Noise Integrated Naoki Shinohara (Kyoto University, Japan) Mechanically Tunable Oscillator Based on Multi-layer SIW Bandpass FR1-103-4 Filter A 5.8 GHz Microwave Applicator by Post-Wall Waveguide Ruoqiao Zhang (Southeast University, P.R. China) Yuu Nishie (Okayama Prefectural Uniwersity, Japan); Mitsuyoshi Kishihara FR1-K-4 (Okayama Prefectural University, Japan); Two Ultra-Low Power mm-Wave Kensuke Okubo (Okayama Prefectural University, Japan); Akinobu Yamaguchi Push-Pull VCOs in FD-SOI CMOS (University of Hyogo, Japan); Yuichi Therese Forsberg (Lund University, Utsumi (University of Hyogo, Japan) Sweden); Johan Wernehag (Lund University, Sweden); Henrik Sjöland (Lund FR1-103-5 University, Sweden); Markus Törmänen Development of rapid heating and (Lund University, Sweden) cooling technology by single-mode FR1-K-5 microwave cavity applied for nanoparticle synthesis 70% Improvement in Q-factor of spiral inductor and its application in Masateru Nishioka (National Institute of a switched K-band VCO using 0.18 Advanced Industrial Science and Technology (AIST), Japan); Masato µm CMOS Technology Miyakawa (National Institute of Advanced Islam Mansour (Egypt-Japan University of Industrial Science and Technology (AIST), Science and Technology (E-JUST), Egypt); Japan) Ahmed Allam (EJUST, Egypt); Adel B. Abdel-Rahman (EJUST, Egypt); Mohammed Abo-Zahhad (EJUST, Egypt); Ramesh Pokharel (Kyushu University, Japan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 29 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Friday, November 9 10:30 - 12:10 Room B1 Room B2 Room D Room J Session FR2-B1 Session FR2-B2 Session FR2-D Session FR2-J Broadband and Multi-band Couplers and Dividers II Metamaterials, EMBGs and FSSs Radar Architectures, Signal Antennas Chairs:Motomi Abe (Mitsubishi II Processing, and Systems Chairs:Ryo Yamaguchi Electric, Japan), Qing-Xin Chairs:Ye Han (Nanjing University Chairs:Futoshi Kuroki (National (SOFTBANK Corp., Chu (South China of Posts and Institute of Technology, Kure Japan), Eisuke Nishiyama University of Technology, Telecommunications, P.R. College, Japan), Withawat (Saga University, Japan) P.R. China) China), Toshio Watanabe Withayachumnankul (The (Kagoshima University, University of Adelaide, Japan) Australia) FR2-B1-1 FR2-B2-1 FR2-D-1 FR2-J-1 Prototype of 12/21GHz-band A Wide Band Coupler with High A study on nonreciprocal CRLH-TL A Scalable 77 GHz Massive MIMO Dual-circularly Polarized Receiving Directivity Using Phase composed of gyrator and series FMCW Radar by Cascading Fully- Antenna for Satellite Broadcasting Compensation for LTE capacitor Integrated Transceivers Masafumi Nagasaka (NHK, Japan); Susumu Jongmo Lim (Samsung Electro-Mechancs, Kensuke Okubo (Okayama Prefectural Andreas Och (DICE GmbH & Co KG, Nakazawa (NHK, Japan); Masaaki Kojima Korea); Hyun-Jin Yoo (Samsung Electro- University, Japan); Masayuki Ishihara Austria & Friedrich-Alexander University of (NHK(Japan Broadcasting Corporation), Mechanics, Korea); Yoo-Sam Na (Samsung (Okayama Prefectural University, Japan); Erlangen-Nuremberg, Germany); Clemens Japan); Shoji Tanaka (NHK Science and Electro-Mechanics, Korea) Mitsuyoshi Kishihara (Okayama Prefectural Pfeffer (DICE GmbH & Co KG, Austria); Technical Research Laboratories, Japan) University, Japan); Hironori Takimoto Jochen Schrattenecker (DICE GmbH & Co FR2-B2-2 (Okayama Prefectural University, Japan) KG, Austria); Stefan Schuster (Voestalpine FR2-B1-2 Dual-Function Circuit with Stahl Gmbh & Institute for Communications and Information Engineering, Austria); Bandwidth Enhancement of a Crossover/Branch-Line Coupler FR2-D-2 A 2-D Via-Free Indefinite Robert Weigel (Friedrich-Alexander Double-Element Vivaldi Antenna Characteristics Universität Erlangen-Nürnberg, Germany) with Sum and Difference Radiation Anisotropic Medium with LH and I-Ju Chen (National University of Patterns RH modes Degenerated at the FR2-J-2 Kaohsiung, Taiwan); Yi-Hsin Pang Γ-Point Seyed-Ali Malakooti (University of (National University of Kaohsiung, Taiwan) Evaluation of ISAR-based autofocus Adelaide, Australia); Christophe Fumeaux Yuto Kato (National Institute of Advanced methods for estimation of true- (The University of Adelaide & School of FR2-B2-3 Industrial Science and Technology & Osaka speed-over-ground using a 24 GHz Electrical and Electronic Engineering, Design of the Compact Planar University, Japan); Masahiro Horibe FMCW-Radar Australia) Butler Matrix (National Institute of Advanced Industrial Science and Technology, Japan); Atsushi Torsten Reissland (University of Erlangen- FR2-B1-3 Chen-Chan Tang (National Chung Cheng Sanada (Osaka University, Japan) Nuremberg, Germany); Bjoern Lenhart A Broadband Circular Polarized University, Taiwan); Chun-Yuan Huang (University of Erlangen-Nuremberg, Germany); Johann Lichtblau (Friedrich- Hexagon Patch Antenna with Three- (National Chung Cheng University, FR2-D-3 Taiwan); Ching-Wen Tang (National Chung Generation of Orbital Angular Alexander-Universität, Germany); Michael Feeds Cheng University, Taiwan) Sporer (Friedrich-Alexander University of Momentum Vortex Waves on Both Erlangen-Nuremberg, Germany); Alexander Changjiang Su (Southeast University, P.R. Sides of the Cascaded Metasurfaces Koelpin (BTU & Chair for Electronics and China); Cheng Lu (Southeast University, FR2-B2-4 Sensor Systems, Germany); Robert Weigel P.R. China); Xiaoxing Yin (Southeast An In-phase Balanced-to-Single- Wang Lingling (Nanjing University of (Friedrich-Alexander Universität Erlangen- University, P.R. China) Aeronautics and Aeronautics, P.R. China); Ended Power Divider with Arbitrary Nürnberg, Germany) Power Division Ratio Xiangkun Kong (Nanjing University of FR2-B1-4 Aeronautics and Astronautics, P.R. China) Kai Xu (Nantong University, P.R. China); FR2-J-3 The design of smartwatch antenna Application of MUSIC method to for bluetooth and 5G applications Jin Shi (Nantong University, P.R. China); FR2-D-4 Wei Zhang (Nantong University, P.R. Digital Microfluidics for Terahertz multicarrier optical FM-CW radar Zhu Duan (Nanjing University of China); Gire Merphy Mbongo (Nantong Digital and Programmable system based on optical-modulator- Information Science and Technology, P.R. University, P.R. China) based optical frequency comb China); Lijie Xu (Nanjing University of Metamaterials: A Proof-of-Concept Posts and Telecommunications, P.R. China) FR2-B2-5 Study Shintaro Otani (Aoyama Gakuin University, Japan) A Substrate Integrated Coaxial Line Fangjing Hu (Huazhong University of FR2-B1-5 Dual-Band Balun for 5G Science and Technology, P.R. China); Peiyi Design methodology of single-layer Applications Song (Huazhong University of Science and FR2-J-4 wideband notch antenna with Technology, P.R. China); Kai Luo A 7-9 GHz UWB Radar Sensor interdigital capacitor Satya Krishna Idury (Indian Institute of (Huazhong University of Science and Module with Single Chip Radar IC Technology Jodhpur, India); Soumava Technology, P.R. China); Huafeng Liu and on-Board Antenna Constant Manouan Aka Niamien Mukherjee (Indian Institute of Technology (Huazhong University of Science and (Normandie Univ, UNIROUEN, Jodhpur, India) Technology, P.R. China); Kai Zhang Byeong Jae Seo (Kwangwoon University, ESIGELEC/IRSEEM, Rouen, France) (Huazhong University of Science and Korea); Jun Young Yoo (Kwangwoon Technology, P.R. China); Zhenggang Hu University, Korea); Sang Gyun Kim (Silicon (Huazhong University of Science and R&D, Korea); Yun Seong Eo (Kwangwoon Technology, P.R. China); Liang-Cheng Tu University, Korea) (Huazhong University of Science and Technology, P.R. China) FR2-J-5 Two-dimensional Subspace-based FR2-D-5 Model Order Selection Methods for Reflectionless Metalens Collimating FMCW Automotive Radar Systems Multi-OAM Waves for Antenna Gain Enhancement in Wireless Yuliang Sun (HELLA GmbH & Co. KGaA & Ruhr-University Bochum, Germany); Tai Communication Fei (HELLA GmbH & Co. KGaA, Yudai Shigeta (Osaka University, Japan); Germany); Nils Pohl (Ruhr-University Atsushi Sanada (Osaka University, Japan); Bochum & Fraunhofer FHR, Germany) Atsushi Fukuda (NTT DOCOMO, INC., Japan); Kunihiro Kawai (NTT DOCOMO, INC., Japan); Hiroshi Okazaki (NTT DOCOMO, Japan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 30 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Friday, November 9 10:30 - 12:10 10:30 - 12:10 Friday, November 9 Room K Room 103 Session FR2-K Session FR2-103 Emerging III-V Devices/Circuits Material Characterization Techniques at Chairs:Hiroshi Okazaki (NTT Microwave and Millimeter-wave frequencies DOCOMO, Japan), Atsushi Chairs:Masahiro Horibe (National Fukuda (NTT DOCOMO, Institute of Advanced Industrial INC., Japan) Science and Technology, Japan), Karsten Kuhlmann (Physikalisch-Technische Bundesanstalt (PTB), Germany) FR2-K-1 FR2-103-1 Effect of AlN Spacer on the AlGaN/ Measurements of Interface GaN HEMT Device Performance at Conductivity of Copper-clad Millimeter-wave Frequencies Dielectric Substrates at Millimeter Chun Wang (National Chiao Tung Wave Frequencies Using TE02δ University, Taiwan); Heng-Tung Hsu Mode Dielectric Rod Resonator (National Chiao Tung University & Excited by NRD Guide International College of Semiconductor Technology, Taiwan); Ting-Jui Huang Naoki Hirayama (Kyocera Corporation, (National Chiao Tung University, Taiwan); Japan); Akira Nakayama (Kyocera Jun-Kai Fan (National Chiao Tung Corporation, Japan); Hiromichi Yoshikawa University, Taiwan); Edward Chang (Kyocera Corporation, Japan) (National Chiao Tung University, Taiwan) FR2-103-2 FR2-K-2 Frequency Dependence A 26-W X-band high efficiency Measurement of Conductivity of GaN MMIC power amplifier with Copper Plates by the Balanced-type compact spurious suppression filters Disk Resonator Method Jun Kamioka (Mitsubishi Electric Yoshio Kobayashi (SUMTEC, Inc., Japan); Corporation, Japan); Eigo Kuwata Sotaro Kobayashi (SUMTEC, Inc., Japan); (Mitsubishi Electric Corporation, Japan); Hirokazu Kawabata (Tomo Industrial Masatake Hangai (Mitsubishi Electric Technology Center, Japan) Corporation, Japan); Kazuhiko Nakahara (Mitsubishi Electric Corporation, Japan); FR2-103-3 Yoshitaka Kamo (Mitsubishi Electric Equivalent Conductivity Corporation, Japan); Shintaro Shinjo (Mitsubishi Electric Corporation, Japan); Characterization of Silver-Coated Mitsuhiro Shimozawa (Mitsubishi Electric, Plastic Antenna Components in Ku, Japan) K and Ka Bands Plamen I. Dankov (Sofia University “St. FR2-K-3 Kliment Ohridski” & SU, Bulgaria); Rossen 18GHz-/28GHz-Band Gain-Boosted Traykov (RaySat Bulgaria Ltd, Bulgaria); Feedback Power Amplifiers Using Vesselin Peshlov (RaySat Bulgaria Ltd, Affordable GaN HEMT MMIC Bulgaria); Stanimir Kamenopolski (MatriQx Process Antenna Systems Ltd., Bulgaria) Tsukasa Yasui (The University of Electro- FR2-103-4 Communications, Japan); Ryo Ishikawa (The Microwave characteristics of a University of ElectroCommunications, Japan); Kazuhiko Honjo (The University of conductor backed CPW by a home Electro-Communications, Japan) printed electronics technology with silver nanoparticle ink FR2-K-4 Takashi Shimizu (Utsunomiya University, 10-MHz-to-70-GHz Ultra- Japan); Yoshinori Kogami (Utsunomiya Wideband Low-Insertion-Loss University, Japan) SPST and SPDT Switches using GaAs PIN Diode MMIC Process FR2-103-5 An Interferometric Sensor for Hao-En Liu (National Central University, Taiwan); Xiang Lin (National Central Scanning Microwave Microscopy University, Taiwan); Hong-Yeh Chang Application (National Central University, Taiwan); Aleksandra Baskakova (Czech Technical Yu-Chi Wang (Win Semiconductors University in Prague, Czech Republic) Corporation, Taiwan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 31 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Friday, November 9 13:30 - 15:10 Room B1 Room B2 Room D Room J Session FR3-B1 Session FR3-B2 Session FR3-D Session FR3-J Smart and Reconfigurable Novel Technologies for Wireless Metamaterials, EMBGs and FSSs Radar Applications and Remote Antennas Communication Systems III Sensing Chairs:Wayne A. Shiroma Chairs:Tadashi Kawai (University Chairs:Ryuji Kuse (Kumamoto Chairs:Jerdvisanop Chakarothai (University of Hawaii, of Hyogo, Japan), Tzyh- University, Japan), Shah (National Institute of USA), Ichihiko Toyoda Ghuang Ma (National Nawaz Burokur (LEME, Information and (Saga University, Japan) Taiwan University of France) Communications Technology, Science and Technology, Japan), Jaeyoung Kim (Rohm Taiwan) Co, Ltd., Japan) FR3-B1-1 FR3-B2-1 FR3-D-1 FR3-J-1 [Invited] A Polarization-Reconfigurable Circuit Simulator for Wideband Novel 3D Bandpass Frequency Small Satellite Constellations to Antipodal Dipole Antenna Using Lumped Element Circulator Selective Structures Based on Provide Rapid-Refresh Microwave Liquid Metal Shigeru Takeda (Magnontech Ltd., Japan); Stacked Planar Slotlines: Modelling, Observations of Severe Storms, Matthew Moorefield (University of Hawaii, Takao Okada (Orient Microwave Corp., Design and Validation Hurricanes and Typhoons Japan) USA); Aaron T. Ohta (University of Hawaii, Wanping Zhang (Nanjing University of Steven C. Reising (Colorado State USA); Wayne A. Shiroma (University of Posts and Telecommunications, P.R. China); University, USA); V. Chandrasekar Hawaii, USA) FR3-B2-2 Bo Li (NJUPT, P.R. China); Lei Zhu (Colorado State University, USA); Chris Generalized Topology and Design (University of Macau, Macau SAR, China); Kummerow (Colorado State University, FR3-B1-2 Method for a New Class of Ye Han (Nanjing University of Posts and USA); Wesley Berg (Colorado State A Polarization Switchable Active Wideband Phase Shifters Based on Telecommunications, P.R. China); Yun- University, USA); C. Radhakrishnan Array Antenna Integrating a Peng Lyu (Nanjing University of Posts and (Colorado State University, USA); Todd Multimode Resonators Telecommunications, P.R. China) Gaier (Jet Propulsion Laboratory, California Multiport Oscillator and PSK Yun-Peng Lyu (Nanjing University of Posts Institude of Technology, USA); Shannon Modulators and Telecommunications, P.R. China); Lei FR3-D-2 Brown (JPL-CalTech, USA); Sharmila Padmanabhan (Jet Propulsion Laboratory, Maodudul Hasan (Saga University, Japan); Zhu (University of Macau); Chonghu Cheng Proposal and Design of Dual- California Institude of Technology, USA); Hiroki Ushiroda (Saga University, Japan); (Nanjing University of Post & Polarized Frequency Selective Boon Lim (Jet Propulsion Laboratory, Eisuke Nishiyama (Faculty of Science and Telecommunication, P.R. China) Absorbers with Passband and California Institude of Technology, USA); Engineering, Saga University, Japan); Cate Heneghan (Jet Propulsion Laboratory, Ichihiko Toyoda (Faculty of Science and FR3-B2-3 Notched-Band California Institute of Technology, USA); Engineering, Saga University, Japan) Compact On-chip Quadruplexer Ye Han (Nanjing University of Posts and John Carvo (Blue Canyon Technologies, Using Lumped Elements on Telecommunications, P.R. China); Lei Zhu USA); Matthew Pallas (Blue Canyon FR3-B1-3 Integrated Passive Device Process (University of Macau, Macao); Bo Li Technologies, USA) A Fully Integrated Frequency (NJUPT, P.R. China); Yumei Chang Reconfigurable Antenna Co- Huy Nam Chu (National Taiwan University (Nanjing University of Posts and FR3-J-2 of Science and Technology, Taiwan); Poki Telecommunications & State Key designed as a Whole Circuit on Chen (National Taiwan University of Laboratory of Millimeter Waves, P.R. Screen printed chipless RFID Silicon Science and Technology, Taiwan); Tzyh- China); Lijie Xu (Nanjing University of resonator design for remote sensing Ghuang Ma (National Taiwan University of Posts and Telecommunications, P.R. China) Rozenn Allanic (Lab-STICC - UBO Brest, applications Science and Technology, Taiwan) France); Denis Le Berre (Lab-STICC - UBO Tharindu Athauda (Monash University, Brest, France); Yves Quéré (Université de FR3-D-3 FR3-B2-4 Australia); Nemai Karmakar (MONASH Brest, France); Cedric Quendo (Lab-STICC A New Fitness Function in Binary University, Australia) - UBO Brest, France); David Chouteau Cryogenic 29-50 GHz Orthomode Particle Swarm Optimization for (Université de Tours, France); Virginie Transducer for Radio Astronomical Efficient Design of Frequency FR3-J-3 Grimal (Université de Tours, France); Receiver Damien Valente (Université de Tours, Selective Surfaces Sensing Performance Evaluation of France); Jérôme Billoué (Université de Chau-Ching Chiong (Institute of Astronomy Yang Dae Do (Yonsei University, Korea) Landslides Prediction System Using Tours, France) and Astrophyiscs, Academia Sinica, Public AM Radio Broadcasting Taiwan); Chen Chien (Institute of FR3-D-4 FR3-B1-4 Astronomy and Astrophysics, Academia Kousei Kumahara (NIT, Kure College, A Band-Pass Frequency Selective Japan); Masanori Eguchi (National Institute Design of A Phased Array Antenna Sinica, Taiwan); Chih-Cheng Chang (Institute of Astronomy and Astrophysics, Surface with Wideband Rejection of Technology, Kure College, Japan); for Indoor Positioning System Academia Sinica, Taiwan); Ted Huang Characteristic Futoshi Kuroki (National Institute of Technology, Kure College, Japan) Chai-Eu Guan (Nagasaki University, Japan); (ASIAA, Taiwan); Yuh-Jing Hwang (Institute of Astronomy and Astrophysics, Ning Liu (Dalian University of Technology, Kuniaki Yoshitomi (Kyushu University, P.R. China); Xianjun Sheng (Dalian Japan); Haruichi Kanaya (Kyushu Academia Sinica, Taiwan) FR3-J-4 University of Technology, P.R. China); Characterization of Layered University, Japan) Xiang Gao (Dalian University of FR3-B2-5 Technology, P.R. China); Dongming Guo Dielectric Materials Using Ultra- Development of Zero-shrinkage- (Dalian University of Technology, P.R. Wideband FMCW-Radar LTCC Substrate for Millimeter- China); Rui Yang (Dalian University of Measurements wave Applications Technology, P.R. China) Jochen Jebramcik (Ruhr-Universität Koichi Tokita (Tokyo Metropolitan FR3-D-5 Bochum, Germany); Jan Barowski (Ruhr- Industrial Technology Research Institute, Universität Bochum, Germany); Ilona Rolfes Japan); Yuichi Hashimoto (Adamant Namiki Design of a novel 2.5-D frequency (Ruhr-Universität Bochum, Germany) Precision Jewel Co., Ltd., Japan); Kohei selective surface element using Fujiwara (Tokyo Metropolitan Industrial Fibonacci spiral for radome Technology Research Institute, Japan); application Asako Suzuki (Adamant Namiki Precision Jewel Co., Ltd., Japan); Yuso Ishida Krushna Kanth Varikuntla (National (Adamant Namiki Precision Jewel Co., Ltd., Institute of Technology Tiruchirappalli, Japan); Hidehiko Yamaoka (Tokyo India); Raghavan S (NIT, India) Metropolitan Industrial Technology Research Institute, Japan)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 32 2018/10/26 11:20:08 TECHNICAL SESSIONS (Oral Sessions)

Friday, November 9 13:30 - 15:10 13:30 - 15:10 Friday, November 9 Room K Room 103 Session FR3-K Session FR3-103 Special Session: Advance in Numerical Microwave Measurement and Simulation Technology does not stop ! Sensing - Technological Collaboration brings a Chair:Masahiro Horibe (National New World - Institute of Advanced Chairs:Hideaki Kimura (NTT Network Industrial Science and Service Systems Laboratories, Technology, Japan) Japan), Yasuhide Tsuji (Muroran Institute of Technology, Japan) FR3-K-1 [Invited] FR3-103-1 Automated Microstrip Bandpass Capacitance Extraction De- Filter Design Using Feedforward Embedding Method to Address and Inverse Models of Neural Board Variability Network David Molinero (Wispry, inc, USA); Shawn Masataka Ohira (Saitama University, Japan); Cunningham (Wispry, inc., USA); Art Ao Yamashita (Saitama University, Japan); Morris (Wispry, USA) Zhewang Ma (Saitama University, Japan); Xiaolong Wang (Jilin University, P.R. FR3-103-2 China) Magnetoelectric Microwave Magnetic Field Sensor at 3 GHz FR3-K-2 Topology Optimization Using Beam Sebastian Salzer (University of Kiel, Germany); Christine Kirchhof (CAU Kiel, Propagation Method for Fabrication Germany); Eckhard Quandt (Christian- Tolerant Optical Waveguide Albrechts-Universität zu Kiel, Germany); Devices Michael Höft (Kiel University, Germany); Reinhard Knoechel (CAU Kiel, Germany) Akito Iguchi (Muroran Institute of Technology, Japan); Yasuhide Tsuji (Muroran Institute of Technology, Japan); FR3-103-3 Takashi Yasui (Kitami Institute of Efficiency Calculation of Non- Technology, Japan); Koichi Hirayama Periodic Metasurface Based on (Kitami Institute of Technology, Japan) Modified Near Field to Far Field Transformation FR3-K-3 Object Identification form GPR Ashif Aminulloh Fathnan (University of New South Wales, Canberra, Australia); Images by Deep Learning David Powell (University of New South Jun Sonoda (National Institute of Wales, Australia) Technology, Japan) FR3-103-4 FR3-K-4 A Stacked Planar Sensor Concept Numerical Simulation and for Minimally Invasive Plasma Experiments on Advanced Traffic Monitoring Engineering Dennis Pohle (Ruhr-University Bochum, Takashi Miyamura (NTT, Japan); Akira Germany); Christian Schulz (Ruhr- Misawa (Chitose Institute of Science and Universität Bochum, Germany); Moritz Technology, Japan); Akio Kawabata (NTT, Oberberg (Ruhr-Universität Bochum, Japan) Germany); Michael Friedrichs (Leuphana University Lüneburg, Germany); Alexandra FR3-K-5 Serwa (IMST GmbH, Germany); Peter Uhlig (IMST GmbH, Germany); Jens Future Society Created by Progress Oberrath (Leuphana University Lüneburg, of Numerical Simulation Germany); Peter Awakowicz (Ruhr- Technology Universität Bochum, Germany); Ilona Rolfes (Ruhr-Universität Bochum, Germany) Hideaki Kimura (NTT Network Service Systems Laboratories, Japan) FR3-103-5 Heat-resistant 3D printed microwave devices Vincent Laur (Lab-STICC / University of Brest, France); Mira Kaissar Abboud (Lab-STICC / University of Brest, France); Azar Maalouf (Lab-STICC / University of Brest, France); Den Palessonga (Lab-STICC / University of Brest, France); Alexis Chevalier (University of Brest & Lab- STICC UMR CNRS 3192, France); Julien Ville (IRDL / University of Brest, France)

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APMC2018 13_33_TECHNICAL SESSIONS_sk.indd 33 2018/10/26 11:20:08 TECHNICAL SESSIONS (Interactive Forum)

Wednesday, November 7 10:00 - 11:30 10:00 - 11:30 Wednesday, November 7

Session WE1-IF Room A Chair: Peng Wen Wong (Universiti Teknologi PETRONAS, Malaysia)

WE1-IF-1 WE1-IF-7 WE1-IF-13 WE1-IF-19 A Triple-Band SiGe HBT Cross- A Mutual Phase Synchronization Type Design of compact E-plane differential Waveguide Structure Compatible with Coupled Differential VCO Using a Push-Push Oscillator Array Using phase shift circulators TE, TM, and TEM Modes Novel Element-Switching Technique Fourth-Harmonic Push-Push Guangjian Deng (Northwest Institute of Shotaro Ishino (Furuno Electric, Japan); Yasushi Itoh (Shonan Institute of Oscillators Nuclear Technology, P.R. China); Jiawei Li Satoshi Matsumoto (Furuno Electric, Japan) Technology, Japan) Naoaki Takeda (Saga University, Japan); (Northwest Institute of Nuclear Technology, Takayuki Tanaka (Faculty of Science and P.R. China); Tao Ba (Northwest Institute of WE1-IF-20 WE1-IF-2 Engineering, Saga University, Japan); Nuclear Technology, P.R. China); Letian Cut-off-less Coplanar Waveguide A Ka-band Monolithic Doubly Ichihiko Toyoda (Faculty of Science and Guo (Northwest Institute of Nuclear Connector with Mode-Selectable Filter Balanced Up- and Down-conversion Engineering, Saga University, Japan) Technology, P.R. China); Xie Shaoyi Satoshi Matsumoto (Furuno Electric, Japan); Mixer (Northwest Institute of Nuclear Technology, Shotaro Ishino (Furuno Electric, Japan) WE1-IF-8 Liang Zhang (Microsystem and Terahertz P.R. China); Wenhua Huang (Northwest Microwave-assisted Continuous Flow Research Center, China Academy of Institute of Nuclear Technology, P.R. China); WE1-IF-21 Process of Biodiesel Production Eegineering Physics & Institute of Electronic Shao Hao (Northwest Institute of Nuclear X-band compact microwave Engineering, China Academy of Huacheng Zhu (Sichuan University, P.R. Technology, P.R. China) terminations Engineering Physics, P.R. China); Fengjun China) WE1-IF-14 Allan Pen (Lab-STICC / University of Brest, Chen (Microsystem and Terahertz Research France); Alexis Chevalier (Lab-STICC / WE1-IF-9 A Differential 90° Phase Shifter with Centre of CAEP, P.R. China); Jiang-An Han Controllable Common-Mode University of Brest); Azar Maalouf (Lab- (China Academy of Engineering Physics, A 60 GHz Frequency Doubler with Suppression STICC / University of Brest, France); P.R. China); Xu Cheng (Mircosystem and Differential Output in 130 nm SiGe Vincent Laur (Lab-STICC / University of Terahertz Research Centre of CAEP, P.R. BiCMOS Technology Wei Zhang (Nantong University, P.R. Brest, France) China); Xian-jin Deng (Mircosystem and Vincent Rieß (Technische Universität China); Kai Xu (Nantong University, P.R. WE1-IF-22 Terahertz Research Centre of CAEP, P.R. Dresden, Germany); Corrado Carta (Dresden China); Gire Merphy Mbongo (Nantong A Novel Design of a Tri-Band China) University of Technology, Germany); Frank University, P.R. China); Jin Shi (Nantong University, P.R. China) Impedance Matching Network Based WE1-IF-3 Ellinger (Technische Universität Dresden, Germany) on the Concept of an Impedance A 90-140 GHz, High Power Frequency WE1-IF-15 Bridge Source Packaged in a Self-aligned NRD-guide Beam Lead Diode Mount WE1-IF-10 Deepayan Banerjee (University of Calgary, Waveguide Module Trans-directional Coupler Based Planar Consisting of High Permittivity Dielectric Substrate at 60GHz Canada); Mohammad Hashmi (Nazarbayev Zhongxia Simon He (Chalmers University of Balun with Improved Bandwidth and University, Kazakhstan & IIIT Delhi, India); Technology & Microwave Electronic Lab, Output Balance Yuto Uchida (National Institute of Fadhel Ghannouchi (University of Calgary, Sweden); Sona Carpenter (Chalmers Hongmei Liu (Dalian Maritime University, Technology, Kure College, Japan); Masanori Canada) University of Technology, Sweden); Vessen P.R. China); Shaojun Fang (Dalian Maritime Eguchi (National Institute of Technology, Vassilev (Chalmers University of University, P.R. China); Te Shao (Dalian Kure College, Japan); Futoshi Kuroki WE1-IF-23 Technology, Sweden); Herbert Zirath Maritime University, P.R. China); Zhongbao (National Institute of Technology, Kure Compact Four-Way Radial-Cavity- (Chalmers University of Technology, Wang (Dalian Maritime University, P.R. College, Japan); Yuya Ueno (DAIHEN Co., Based Power Divider/Combiner with Sweden) China); Chenhui Xun (Dalian Maritime Japan); Tadamasa Fukae (DAIHEN Co., High Power and High Isolation Japan) WE1-IF-4 University, P.R. China) Hao Shao (Northwest Institute of Nuclear A Novel K-band Divide-by-4 WE1-IF-16 Technology, P.R. China); Kaijun Song WE1-IF-11 (University of Electronic Science and Injection-Locked Frequency Divider A Miniature 92-95 GHz On-chip Slow- Design of Compact Dual-Band Matching Network with Single Technology of China, P.R. China); Liyuan Yu-Hsin Chang (National Formosa wave Branch-line Coupler Unequal Susceptance Cancellation Xue (University of Electronic Science and University, Taiwan); Yen-Chung Chiang Yi-Tang Chen (National Chiao-Tung Stub Technology of China, P.R. China); Letian (National Chung Hsing University, Taiwan) University, Taiwan); Chia-Sung Chiu Guo (Northwest Institute of Nuclear Antra Saxena (University of Calgary, Technology, P.R. China); Song Guo WE1-IF-5 (National Nano Device Laboratories, Canada); Deepayan Banerjee (University of (University of Electronic Science and A K-Band High-Gain Linear CMOS Taiwan); Chia-Wei Chuang (National Nano Device Laboratories, Taiwan); Guo-Wei Calgary, Canada); Mohammad Hashmi Technology of China, P.R. China); Yedi Mixer with Current-Bleeding Huang (National Nano Device Laboratories, (Nazarbayev University, Kazakhstan & IIIT Zhou (University of Electronic Science and Neutralization Technique Taiwan); Sheng-Kai Peng (National Chiao- Delhi, India); Fadhel Ghannouchi (University Technology of China, P.R. China); Yong Fan Dong-Ru Lin (National Taiwan University, Tung University, Taiwan); Yu-Ting Ke of Calgary, Canada) (University of Electronic Science and Taiwan); Kun-Yao Kao (National Taiwan (National Chiao-Tung University, Taiwan); Technology of China, P.R. China) WE1-IF-17 University, Taiwan); Kun-You Lin (National Lin-Kun Wu (National Chiao Tung X band RF interface technology with Taiwan University, Taiwan) University, Taiwan) WE1-IF-24 both low loss characteristic and low Dielectric Constant Measurement WE1-IF-6 WE1-IF-12 thermal insulating Using Metallized Slot Substrate A Wideband, Low-Noise, and High- Novel Dielectric Waveguide Design Hiroyuki Kayano (Toshiba Corporation, Integrated Waveguide at PCB process Resolution Digitally-Controlled Studies for mmW Applications Japan) Pei-Tzu Chen (National Taiwan University, Oscillator for SDR Applications Felix Distler (Friedrich-Alexander- Taiwan); Yu-Heng Cai (National Taiwan WE1-IF-18 Chun-Ming Lin (Graduate Institute of University, Germany); Martin Vossiek University, Taiwan); Joseph Cheng Modeling and Synthesis of On-chip Communication Engineering, National (LHFT, Friedrich-Alexander-Universität (BoardTek Electronics Corp., Taiwan); Jason Multi-layer Spiral Inductor for Taiwan University, Taiwan); Kun-Yao Kao Erlangen-Nürnberg, Germany); Jan Schür Lee (BoardTek Electronics Corp., Taiwan); (National Taiwan University, Taiwan); Kun- (Friedrich-Alexander-Universität Erlangen- Millimeter-wave Regime Based on Chung-Hsing Liao (BoardTek Electronics You Lin (National Taiwan University, Nürnberg (FAU), Germany) ANN Method Corp., Taiwan); Hsin-Chia Lu (National Taiwan) Cheng Cao (Beijing University of Posts and Taiwan University, Taiwan) Telecommunications, P.R. China); Yajing Hou (Beijing University of Posts and Telecommunications, P.R. China); Jiangfan Liu (Beijing University of Posts and Telecommunications, P.R. China); Xiuping Li (Beijing University of Post Telecommunications, P.R. China)

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APMC2018 34_43 Interactive Forum_6k.indd 34 2018/10/26 11:19:47 TECHNICAL SESSIONS (Interactive Forum)

Wednesday, November 7 10:00 - 11:30 10:00 - 11:30 Wednesday, November 7

*The Interactive Forum (IF) will provide an opportunity for authors to present Chair: Peng Wen Wong (Universiti Teknologi PETRONAS, Malaysia) theoretical or experimental materials interactively to participants with posters.

WE1-IF-25 WE1-IF-32 WE1-IF-37 WE1-IF-43 Fully Additively Manufactured An Empirical Nonlinear Capacitance Investigation of Extension Limits of Investigation of a 3D Printed Broadband Low Loss High Frequency Model for SOI Transistor Main Passband of the "Chain of Tetrahedral Aligned Sphere Target at Interconnects Qiuping Wang (University of Electronic Coupled Resonators"-Type Slow-Wave 145 GHz for Radar Positioning Michael Thomas Craton (Michigan State Science and Technology of China, P.R. Structure Christian Schulz (Ruhr-Universität Bochum, University, USA); Chris Oakley (Michigan China); Yunqiu Wu (University of Electronic Natalya Kravchenko (National Research Germany); Michael Gerding (Ruhr- State University, USA); John Albrecht Science and Technology of China, P.R. University Higher School of Economics, University Bochum, Germany); Timo (Michigan State University, USA); Prem China); Shili Cong (University of Electronic Russia); Semyon Presnyakov (National Jaeschke (Ruhr-University Bochum, Chahal (Michigan State University, USA); Science and Technology of China, P.R. Research University Higher School of Germany); Alexander Golkowski (Ruhr- John Papapolymerou (Michigan State China); Yiming Yu (University of Electronic Economics, Russia); Alexandr Kasatkin University Bochum, Germany); Nils Pohl University, USA) Science and Technology of China, P.R. (National Research University Higher School (Ruhr-University Bochum & Fraunhofer China); Chenxi Zhao (University of of Economics, Russia); Sergey Mukhin FHR, Germany) WE1-IF-26 Electronic Science and Technology of China, (Moscow University of Finances and Law) 0-level encapsulation using thin films P.R. China); Huihua Liu (University of WE1-IF-44 deposition for RF MEMS - Electronic Science and Technology of China, WE1-IF-38 Supply Noise Induced Jitter Reduction demonstration on RF MEMS switch P.R. China); Hongyan Tang (University of A small signal model for Carbon in Package Power Distributed structures Electronic Science and Technology of China, Nanotube Field-Effect Transistor Networks for 28 Gbps High Speed Serial Links Dan Vasilache (IMT-Bucharest, Romania); P.R. China); Yuehang Xu (University of Yuming Zhang (University of Electronic Andrei Marius Avram (National Institute for Electronic Science and Technology of China, Science and Technology of China, P.R. Sheng-Fan Yang (Global Unichip R&D in Microtechnologies - IMT Bucharest, P.R. China); Kai Kang (University of China); Tao Yang (University of Electronic Corporation, Taiwan) Romania); Alexandra Stefanescu (University Electronic Science and Technology of China, Science and Technology of China, P.R. Politehnica of Bucharest, Romania); George P.R. China) China); Yang Yang (Nanjing Electronic WE1-IF-45 A novel approach on multi-shielded Boldeiu (IMT-Bucharest, Romania); Sergiu WE1-IF-33 Devices Institute, P.R. China); Lei Xia Iordanescu (IMT-Bucharest, Romania); (University of Electronic Science and coaxial cable immunity assessment Super-Resolution Information in based on electromagnetism simulation Bogdan Bita (IMT-Bucharest, Romania) Electromagnetic Inverse Scattering Technology of China, P.R. China); Ruimin Xu (University of Electronic Science and Clement Pornin (IMEP LaHC, Grenoble INP WE1-IF-27 Qimeng Fan (National University of Defense Technology of China, P.R. China) Investigation of High-Efficiency Université Grenoble Alpes, France); Tan Phu Technology, P.R. China); Chengyou Yin Vuong (Grenoble INP, France); Pascal Hybrid Power Combining for Ka-Band WE1-IF-39 (National University of Defense Technology, Xavier (UJF Grenoble, France); Gilbert Frequencies P.R. China); Ziqiang Xu (National Radar Simultaneous Localization and Mapping (SLAM) for Stochastic Angenieux (Université Savoie Mont-Blanc, Philipp Neininger (Fraunhofer IAF & University of Defense Technology, P.R. France) Spread Targets Karlsruhe Institute of Technology, China) Germany); Dirk Meder (Fraunhofer IAF, Xiong Liu (Shanghai JIao Tong University, WE1-IF-46 WE1-IF-34 Measurement of electromagnetic Germany); Laurenz John (Fraunhofer IAF, A Method for Accurate ADS-B Signal P.R. China); Dongying Li (Shanghai Jiaotong Germany); Christian Friesicke (Fraunhofer University, P.R. China); Wenxian Yu shielding provided by new generation Strength Measurement under Co- train windshields IAF, Germany); Rüdiger Quay (Fraunhofer channel Interference (Shanghai Jiao Tong University, P.R. China) IAF, Germany); Thomas Zwick (Karlsruhe WE1-IF-40 Tarik Hammi (SNCF, France); Gabriel Institute of Technology (KIT), Germany) Junichi Naganawa (Electronic Navigation Papaiz (SNCF, France) Research Institute, Japan); Hiromi Miyazaki RF CMOS Transistor Equivalent WE1-IF-28 (Electronic Navigation Research Institute, Circuit Model up to 66 GHz WE1-IF-47 Study on Quadruple-Mode Cavity- Japan) Muhammad Adil Bashir (University of A Study of Very Low mm-scale Dk Type Resonator for Mobile-Phone Electronic Science and Technology of China, Variation Fluoro-Carbon Resin Base-Station Filter WE1-IF-35 Substrate on mm-Wave range CSI-based Indoor high-precision P.R. China); Yunqiu Wu (University of Akihiro Tsubouchi (Ryukoku University, localization System Electronic Science and Technology of China, Tamaki Tatsuya (NIPPON PILLAR Japan); Toshio Ishizaki (Ryukoku University, P.R. China); Kai Kang (University of PACKING CO. LTD., Japan); Kojiro Iwasa Japan) Mingyang Zheng (Beijing University of Electronic Science and Technology of China, (Nippon Pillar Packing Co.,Ltd., Japan); Posts and Telecommunications, P.R. China); P.R. China); Yiming Yu (University of Takeshi Okunaga (Nippon Pillar Packing WE1-IF-29 Shufang Li (Beijing University of Posts and Electronic Science and Technology of China, Area Source Design for Exciting a Co., Ltd., Japan); Hirakawa Nobuhito Telecommunications, P.R. China); Li Deng P.R. China); Chenxi Zhao (University of (NIPPON PILLAR PACKING CO, LTD., Microstrip Line in an FDTD (Beijing University of Posts and Electronic Science and Technology of China, Japan); Ishida Kaoru (NIPPON PILLAR Simulation Telecommunications, P.R. China); Meijun P.R. China); Hongyan Tang (University of PACKING CO, LTD., Japan) Yong Wang (Remcom Inc., USA); Scott Qu (Beijing University of Posts and Electronic Science and Technology of China, Langdon (Remcom Inc., USA) Telecommunications, P.R. China); Chen P.R. China) WE1-IF-48 Zhang (Beijing University of Posts and Use of Mode Stirred Reverberating WE1-IF-30 Telecommunications, P.R. China) WE1-IF-41 Chambers for evaluating wireless Wake Identification and Detection A global modeling technique for InP communication performances Method by Sea Surface Correlation WE1-IF-36 HBT based on machine learning Wilfrid Quenum (ONERA, France); Isabelle Difference Measure Distributed modeling of 4-port method transistor for linear mmW design Junqua (ONERA, France) Nan Bi (Harbin Engineering University, P.R. application Jialin Cai (Hangzhou Dianzi University, P.R. China); Tao Jiang (Harbin Engineering China) University, P.R. China) Wafa Khelifi (XLIM, France); Tibault Reveyrand (XLIM, France); Julien Lintignat WE1-IF-42 WE1-IF-31 (XLIM UMR 7252 Université de Limoges/ Temperature Dependent Robust Analytical small-signal description of CNRS, France); Bernard Jarry (XLIM - Behavioral Modeling of Non-Linear unilateral distributed amplifiers with University of Limoges, France); Raymond Power Amplifier uniform lines and arbitrary Quere (XLIM, France) Sagar Kumar Dhar (University of Calgary, terminations Canada); Mohamed Helaoui (University of Christian von Vangerow (Karlsruhe Institute Calgary, Canada); Fadhel Ghannouchi of Technology (KIT), Germany); Joerg (University of Calgary, Canada) Eisenbeis (Karlsruhe Institute of Technology, Germany); Thomas Zwick (Karlsruhe Institute of Technology (KIT), Germany)

35

APMC2018 34_43 Interactive Forum_6k.indd 35 2018/10/26 11:19:47 TECHNICAL SESSIONS (Interactive Forum)

Thursday, November 8 10:00 - 11:30 10:00 - 11:30 Thursday, November 8

Chairs: Masahiro Horibe (National Institute of Advanced Industrial Science and Technology, Japan), Room A Session TH1-IF Dmitry Kholodnyak (St. Petersburg Electrotechnical University, Russia)

TH1-IF-1 TH1-IF-8 TH1-IF-15 TH1-IF-21 A -194 dBc/Hz FoM VCO with Low- Design and Implementation of 2.4Gsps Holographic SAR Tomographic A HSV-Based Fusion of InIRA SAR Supply Sensitivity for Ultra-Low- Digital Channelized Receiver Processing of the Multicircular Data and GoogleEarth Optical Images Power Atomic Clock Yang Yuchen (No38 Research Institute of Dong Feng (National University of Defense Dong Li (National Space Science Center, Haosheng Zhang (Tokyo Institude of CETC, P.R. China) Technology, P.R. China); Daoxiang An Chinese Academy of Sciences, P.R. China); Technology, Japan); Hans Herdian (Tokyo (National University of Defense Technology, Yunhua Zhang (National Space Science Institute of Technology, Japan); Aravind TH1-IF-9 P.R. China); Xiaotao Huang (National Center, Chinese Academy of Sciences, P.R. Tharayil Narayanan (Tokyo Institude of Non-contact and Real-time Pulse-based University of Defense Technology, P.R. China); Xiao Dong (National Space Science Technology, Japan); Bangan Liu (Tokyo radar with Sensitivity Improvement for China); Zhimin Zhou (National University of Center, Chinese Academy of Sciences, P.R. Institude of Technology, Japan); Rui Wu Vital-sign Monitoring Defense Technology, P.R. China) China); Xiaojin Shi (Center for Space (Tokyo Institute of Technology, Japan); Jian-Yu Huang (Feng-Chia University, Science and Applied Research, Chinese Atsushi Shirane (Tokyo Institute of TH1-IF-16 Academy of Sciences, P.R. China); Taiwan); Chia-Chin Hsu (Feng-Chia A Theory of Aircraft Position Technology, Japan); Kenichi Okada (Tokyo University, Taiwan); Chia-Hung Chang Wenshuai Zhai (Center for Space Science Verification using TDOA Institute of Technology, Japan) (Feng-Chia University, Taiwan); Wei-Wen and Applied Research, Chinese Academy of Hu (Southern Taiwan University of Science Junichi Naganawa (Electronic Navigation Sciences, P.R. China) TH1-IF-2 and Technology, Taiwan) Research Institute, Japan); Hiromi Miyazaki Single-pole Double-throw Switch TH1-IF-22 (Electronic Navigation Research Institute, Interferometric Imaging Radar Using Stacked-FET Configuration at TH1-IF-10 Japan) Millimeter Wave Frequencies A modified Map-Drift Algorithm for Altimeter on Board Chinese Tiangong-2 Space Laboratory Peng-I Mei (National Chiao Tung University, SAR Autofocusing TH1-IF-17 Automatic Tracking of Human Body Taiwan); Ting-Jui Huang (National Chiao Wu Wang (National University of Defense Yunhua Zhang (National Space Science Using Millimeter-Wave Adaptive Tung University, Taiwan); Yi-Fan Tsao Technology, P.R. China); Daoxiang An Center, Chinese Academy of Sciences, P.R. Array Radar for Noncontact Heart Rate (International College of Semiconductor (National University of Defense Technology, China); Xiaojin Shi (National Space Science Technology, NCTU, Taiwan); Che-Yang P.R. China); Yuxiao Luo (National Measurement Center, Chinese Academy of Sciences, P.R. Chiang (Industrial Technology Research University of Defense Technology, P.R. Kentaro Konishi (University of Hyogo, China) Institute, Taiwan); Heng-Tung Hsu (National China); Zhimin Zhou (National University of Japan); Takuya Sakamoto (University of TH1-IF-23 Chiao Tung University & International Defense Technology, P.R. China); Xiaotao Hyogo & Kyoto University, Japan) Broadband 2 W SiGe - GaN Driver College of Semiconductor Technology, Huang (National University of Defense Amplifier and 28 W GaN on Si Power Taiwan) Technology, P.R. China) TH1-IF-18 High Resolution Moving Train Amplifier TH1-IF-3 TH1-IF-11 Imaging using Linear-FM Random Eigo Kuwata (Mitsubishi Electric Phase Noise Improvement of a Ku- Quantized Beamforming for RAR Radar Waveform Corporation, Japan); Shuichi Sakata Band Push-Push Oscillator Using Suppression using Convex-ABC Jiafang Liu (National Space Science Center, (Mitsubishi Electric Corporation, Japan); Injection Locking via Two Magnetic Hybrid Algorithm Kengo Kawasaki (Mitsubishi Electric Coupling Points Chinese Academy of Sciences & University Sung-Jun Yang (KAIST, Korea) of Chinese Academy of Sciences, P.R. Corporation, Japan); Daisuke Tsunami Elton Nascimento Lima (Graduate School of China); Yunhua Zhang (National Space (Mitsubishi Electric Corporation, Japan); Science and Engineering, Saga University, TH1-IF-12 Science Center, Chinese Academy of Kazuhiro Maeda (Mitsubishi Electric Japan); Takayuki Tanaka (Faculty of Science Wireless 3D Localization Concept for Sciences, P.R. China); Xiao Dong (National Corporation & High Frequency & Optical and Engineering, Saga University, Japan); Industrial Automation Based on a Space Science Center, Chinese Academy of Device Works, Japan); Shintaro Shinjo Ichihiko Toyoda (Faculty of Science and Bearings Only Extended Kalman Filter Sciences, P.R. China) (Mitsubishi Electric Corporation, Japan) Engineering, Saga University, Japan) Melanie Lipka (LHFT, Friedrich-Alexander- TH1-IF-19 TH1-IF-24 Universität Erlangen-Nürnberg, Germany); TH1-IF-4 Experimental Results of Target A Frequency-domain Technique of Erik Sippel (Friedrich-Alexander Universiät A Low-loss Compact X-band Classification Using mmWave Corner Chipless RFID Identification using Superconducting Phase Shifter Erlangen-Nürnberg, Germany); Markus Cauchy Method Hehn (University Erlangen Nuremberg, Radar Sensors Hiroaki Ikeuchi (Toshiba Corporation, Germany); Julian Adametz (FAU, Germany); Xinyi Tang (Desay SV Automotive, Lakkhana Bannawat (RMUTR, Thailand); Japan); Tamio Kawaguchi (Toshiba Martin Vossiek (LHFT, Friedrich- Singapore); Xiaojun Wu (Desay SV Akkarat Boonpoonga (KMUTNB, Thailand) Corporation, Japan); Noritsugu Shiokawa Alexander-Universität Erlangen-Nürnberg, Automotive, Singapore); Siew Bee Yeap TH1-IF-25 (Toshiba Corporation, Japan); Yuichi Germany); Yassen Dobrev (Symeo GmbH, (Desay SV Automotive, Singapore); Ruijiang 24 GHz FMCW Radar System for Sawahara (Toshiba Corporation, Japan); Germany); Peter Gulden (Symeo GmbH, Luo (Desay SV Automotive Singapore PTE Real-time Hand Gesture Recognition Hiroyuki Kayano (Toshiba Corporation, Germany) LTD, Singapore); Tiffany Dai (Desay SV Using LSTM Japan) Automotive, Singapore); Li Huang (Desay TH1-IF-13 SV Automotive, P.R. China) Jun Seuk Suh (KAIST, Korea); Sijung Ryu TH1-IF-5 Short Range FMCW Radar for (KAIST, Korea); Byunghun Han (KAIST Tunable Film Bulk Acoustic Wave Velocity and Range Detection of Slow TH1-IF-20 Institute for IT Convergence, Korea); Jaewoo Resonator Based on Magnetostrictive Moving Target Range Migration Algorithm for Near- Choi (KAIST, Korea); Jong-Hwan Kim Fe65Co35 Thin Films field SIMO Array Imaging Mengting Tu (University of Macau, Macao); (Korea Advanced Institute of Science and Jitendra Singh (CEERI Pilani, India) Wai Wa Choi (University of Macau, Macao); Rongqiang Zhu (National University of Technology (KAIST), Korea); Songcheol Pedro Cheong (University of Macau, Macao) Defense Technology, P.R. China); Jianxiong Hong (IEEE, USA) TH1-IF-6 Zhou (National University of Defense Linearity characterization of reactive TH1-IF-26 TH1-IF-14 Technology, P.R. China); Qiang Fu (National Envelope Tracking System for High components Squint SAR Ground Moving Target University of Defense Technology, P.R. Power Applications in uplink 4G/5G David Molinero (Wispry, inc, USA); Shawn Imaging and Motion Parameters China) LTE Advanced Cunningham (Wispry, inc., USA); Art Estimation with Keystone Transform Morris (Wispry, USA) Jiefang Yang (National Space Science Florinel Balteanu (Skyworks Solutions, Center, Chinese Academy of Sciences, P.R. USA) TH1-IF-7 China); Yunhua Zhang (National Space A X-Band Wide-Scan Phased Array Science Center, Chinese Academy of system based on Rotman lens Sciences, P.R. China) Yang Yuchen (No38 Research Institute of CETC, P.R. China)

36

APMC2018 34_43 Interactive Forum_6k.indd 36 2018/10/26 11:19:47 TECHNICAL SESSIONS (Interactive Forum)

Thursday, November 8 10:00 - 11:30 10:00 - 11:30 Thursday, November 8

Chairs: Masahiro Horibe (National Institute of Advanced Industrial Science and Technology, Japan), Dmitry Kholodnyak (St. Petersburg Electrotechnical University, Russia)

TH1-IF-27 TH1-IF-33 TH1-IF-40 TH1-IF-47 An On-chip Self-Interference Canceller Development of High Isolation Ping- Simulation of Suppression Technology Microstrip Lines Loaded with with Variable Inductor Based Electrical Pong DDS-PLL based Frequency of Angular Glint Based on MIMO Bandstop Resonators for High Balance Network for Full Duplex Synthesizer for Fast Frequency Radar Resolution Permittivity Sensing Systems Hopping Applications Hai Lin (Nanjing University of Information Amir Ebrahimi (RMIT University, Xiucheng Hao (Peking University, P.R. Jian-Yu Li (Yuan Ze University, Taiwan); Science & Technology, P.R. China); Jun- Australia); Asif Ahmed (RMIT University, China); Yongan Zheng (Peking University, Fu Chun Tang (Yuan Ze University, Xiang Ge (Nanjing University of Information Australia & American International P.R. China); Zhengkun Shen (Peking Taiwan); Tsung-Hwa Hsieh (Yuan Ze Science & Technology, P.R. China); Jie University Bangladesh, Bangladesh); University, P.R. China); Zexue Liu (Peking University, Taiwan) Wang (Nanjing University of Information Benjamin Mapleback (RMIT University, University, P.R. China); Junhua Liu (Peking Science & Technology, P.R. China) Australia); James Scott (RMIT University, University, P.R. China); Huailin Liao TH1-IF-34 Australia); Kamran Ghorbani (RMIT (Peking University, P.R. China) Study on Fading Prediction for TH1-IF-41 University, Australia) Automated Guided Vehicle using Flexible OTA Probe Setups for TH1-IF-28 Probabilistic Neural Network Massive MIMO Base Station Testing TH1-IF-48 Flange Angle Design for Waveguide- Complex permittivity evaluation of Julian L Webber (Osaka University & Heng Wang (Beijing University of Posts and Based Orbital Angular Momentum dielectric materials for millimeter wave Advanced Telecommunications Research Telecommunications, P.R. China); Weimin Multiplexing Communication Systems circuit substrates with the Whispering- Institute International, Japan); Norisato Suga Wang (Beijing University of Posts and gallery mode resonator method Nedime Pelin M. H. Salem (New Jersey (ATR, Japan); Abolfazl Mehbodniya (UCD, Telecommunications, P.R. China); Yongle Institute of Technology, USA); Edip Niver Ireland); Kazuto Yano (ATR, Japan); Wu (Beijing University of Posts and Kentaro Takano (Utsunomiya University, (NJIT, USA); Mohamed A Salem (Sonoma Tomoaki Kumagai (ATR, Japan) Telecommunications, P.R. China); Yuanan Japan); Kota Tsunoda (Utsunomiya State University, USA) Liu (Beijing University of Posts and University, Japan); Takashi Shimizu TH1-IF-35 Telecom, P.R. China) (Utsunomiya University, Japan); Yoshinori TH1-IF-29 Atmospheric Vapor Distribution Kogami (Utsunomiya University, Japan) Experimental demonstration of OFDM Observation by Using a Ku-Band TH1-IF-42 based WDM-MIMO visible light Beacon from a LEO Satellite A 3D Printed Elliptical Mirror for TH1-IF-49 communication system Material Characterization using Complex permittivity measurements of Seiji Fukushima (Kagoshima University, FMCW Transceivers thermoplastic resin filaments for a 3D Nariisa Omura (Kyoto Institute of Japan); Yusuke Kora (Kagoshima University, printer using a 50GHz TM0m0 mode Technology, Japan); Saeko Oshiba (Kyoto Japan); Masanori Nishio (Aichi University of Jonas Wagner (Ruhr-Universität Bochum, Institute of Technology, Japan) Technplogy, Japan) Germany); Jan Barowski (Ruhr-Universität cavity resonator Bochum, Germany); Ilona Rolfes (Ruhr- Takafumi Sasaki (Utsunomiya University, TH1-IF-30 TH1-IF-36 Universität Bochum, Germany) Japan); Kohei Takahagi (Utsunomiya Six-port based High Performance Busy/Idle Duration Model for WLAN University, Japan); Yoshinori Kogami TH1-IF-43 Concurrent Dual-band Receiver Traffic and Its Prediction Performance (Utsunomiya University, Japan); Takashi Towards an Automated, Non- using Autoregressive Method Shimizu (Utsunomiya University, Japan) Nadia Chagtmi (Faculté des Sciences de Destructive Method to Measure Sugar Tunis, Tunisia); Afef Harguem (Ecole Yafei Hou (Okayama University, Japan); Content Using Dielectric Spectroscopy Polytechnique of Montreal, Canada); Yusuke Tanaka (Okayama University, Noureddine Boulejfene (Center for Research Japan); Julian L Webber (Osaka University Scott J Thomason (The University of on Microelectronics and Nanotechnology, & Advanced Telecommunications Research Queensland, Australia); Konstanty S Technopole of Sousse, Sousse, Tunisia); Institute International, Japan); Kazuto Yano Bialkowski (The University of Queensland, Fadhel Ghannouchi (University of Calgary, (ATR, Japan); Satoshi Denno (Okayama Australia) Canada) University, Japan); Tomoaki Kumagai (ATR, Japan) TH1-IF-44 TH1-IF-31 Near Field Quasi Plane Wave Clustering Based Pilot Allocation TH1-IF-37 Generation and Performance Algorithm for Mitigating Pilot Efficient Acquisition of Map Evaluation Contamination in Massive MIMO Information using Local Data Sharing Xuelei Sun (Beihang University, P.R. Systems over Hierarchical Wireless Network China); Zhengpeng Wang (Beihang He Gao (Beijing University of Posts and for Service Robots University, P.R. China); Jungang Miao Telecommunications, P.R. China); Tiankui Rui Teng (Advanced Telecommunications (Beihang University, P.R. China) Zhang (Beijing University of Posts and Research Institute International, Japan); TH1-IF-45 Telecommunications, P.R. China); Chunyan Kazuto Yano (ATR, Japan); Tomoaki The Impact of Human Walking on the Feng (Beijing University of Posts and Kumagai (ATR, Japan) Telecommunications, P.R. China); Youxiang Time-Frequency Distribution of In- Wang (China United Network TH1-IF-38 Home Radio Channels Communication Corporation Ltd., P.R. Effect of Applying Meta-surface Alireza Borhani (University of Agder, China) Reflector on 2×2 LOS MIMO Norway); Matthias Pätzold (University of Agder, Norway) TH1-IF-32 Ryuji Kuse (Kumamoto University, Japan); Experimental Evaluation of Adaptive Takeshi Fukusako (Kumamoto University, Japan); Akira Matsushima (Kumamoto TH1-IF-46 Simultaneous Transmission Timing University, Japan) A Novel Composite-Loop Active Control Considering Idle/Busy Load-Pull System Having Stability and Probability for Multi-band Wireless TH1-IF-39 Simple Structure LAN Wool-Air Mix Permittivity Kentaro Kawabe (Ryukoku University, Naoto Egashira (ATR Wave Engineering Measurement Japan); Toshio Ishizaki (Ryukoku University, Laboratories, Japan); Kazuto Yano (ATR, Kimberley W. Eccleston (Lincoln Agritech Japan) Japan); Masayuki Suto (Mobile Techno Ltd, New Zealand); Sonya M Scott Corp., Japan); Atsuhiko Sugitani (Mobile (AgResearch Ltd, New Zealand); Paula A Techno Corps, Japan); Yasuharu Amezawa Brooksby (University of Canterbury, New (Mobile Techno Corp, Japan); Tomoaki Zealand); Ian Fowler (AgResearch Ltd, New Kumagai (ATR, Japan) Zealand); Scott A Sevier (AgResearch Ltd, New Zealand)

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APMC2018 34_43 Interactive Forum_6k.indd 37 2018/10/26 11:19:47 TECHNICAL SESSIONS (Interactive Forum)

Thursday, November 8 14:00 - 15:30 14:00 - 15:30 Thursday, November 8

Chairs: Tuptim Angkeaw (Chulalengkorn University, Thailand), Room A Session TH3-IF Kazuya Yamamoto (Mitsubishi Electric Corporation & High Frequency and Optical Device Works, Japan)

TH3-IF-1 TH3-IF-7 TH3-IF-14 TH3-IF-21 A Generalized Digital Predistortion 1-40GHz MMIC Distributed Power Phase Noise Characteristics of VCOs A Novel Indirect Learning Digital Model Based on Artificial Neural Amplifier in Gallium Nitride Utilizing Various Structural 3D-Striped Predistortion Architecture Only with Networks Technology with P1dB > 31dBm Inductor In-phase Component Zhijian Yu (Shanghai Huawei Technologies Iban Barrutia (Universidad de Cantabria, Yuta Sakamoto (Okayama Prefectural Cuiping Yu (Beijing University of Posts and Co., Ltd., P.R. China) Spain); Amparo Herrera (Universidad de University, Japan); Nobuyuki Itoh (Okayama Telecommunications, P.R. China); Quan Cantabria, Spain) Prefectural University, Japan) Tang (Beijing University of Posts and TH3-IF-2 Telecommunications, P.R. China); Yuanan In-Phase or Quadrature Observation TH3-IF-8 TH3-IF-15 Liu (Beijing University of Posts and for Indirect Learning Architecture A 2W 45% PAE X-Band GaN HEMT Solid-State Transmitters and Sources Telecom, P.R. China) Digital Predistortion Method Based on Class-F MMIC Power Amplifier for Remote Sensing Radars, TH3-IF-22 Forward Modeling Tomohiro Senju (Toshiba Infrastructure Instruments and Communication Envelope Tracking Linearizability of Systems & Solutions Corporation, Japan); Naresh Deo (QuinStar Technology, USA) Yikang Zhang (University of Science and Power Amplifier Technology of China, P.R. China); Gang Li Kazutaka Takagi (Toshiba Infrastructure (University of Science and Technology of Systems & Solutions Corporation, Japan); TH3-IF-16 Yu Zhu (Skyworks, USA); Alex Klimashov China, P.R. China); Hongmin Li (University Hideki Kimura (Toshiba Infrastructure Mode-Reconfigurable RF Power (Skyworks, USA); Boshi Jin (Skyworks of Science and Technology of China, P.R. Systems & Solutions Corporation, Japan) Amplifier with Independently Solutions Inc., USA); Florinel Balteanu China); Wen Qiao (University of Science Controllable Fundamental and Second (Skyworks Solutions, USA); Serge Drogi and Technology of China, P.R. China); Falin TH3-IF-9 Harmonic Output Impedances (Skyworks Solutions, USA); Dylan Bartle Deep Neural Network Based Liu (University of Science and Technology Genedyn Gems Mendoza (University of the (Skyworks, USA); Paul DiCarlo (Skyworks of China, P.R. China) Predistorter with ReLU Activation for Solutions, USA) Doherty Power Amplifiers Philippines, Philippines); Miguel Carlo Purisima (University of the Philippines, TH3-IF-23 TH3-IF-3 Reina Hongyo (Toshiba Corporation); A 32% Bandwidth, 47.2% PAE Power Philippines) A Novel Power Combining Technique Yoshimasa Egashira (Toshiba Corporation, for Microwave Generation with a Amplifier with a reduced IMD3 using Japan); Keiichi Yamaguchi (Toshiba TH3-IF-17 Combination of Injection-Locked High GaAs HBT Technology Corporation, Japan) Study on Linearization Performance of Power Oscillator and Power-Adjustable Li Shaojun (Xidian University, P.R. China); Highly Efficient Low-Voltage Biased High Efficiency Amplifier Lv Hongliang (Xidian University, P.R. TH3-IF-10 Driver Including Dual-Stage GaN China); Zhang Yimen (Xidian University, A low loss slow wave structure based MMIC Hikaru Ikeda (Company & Panasonic P.R. China); Zhang Yuming (Xidian on HCG SSP for traveling wave tube Corporation, Japan); Yasushi Itoh (Shonan applications Osman Ceylan (Ampleon Netherlands BV, University, P.R. China); Muhammad Asif The Netherlands); Andre Prata (Ampleon Institute of Technology, Japan) (Chinese Academy of Science, Pakistan) Chen Zhao (Nanyang Technological Netherlands BV, The Netherlands); Sergio University, Singapore); Geyi Wen (Nanjing TH3-IF-24 Pires (Ampleon Netherlands BV, The A Low-profile Dual-polarized TH3-IF-4 University of Information Science and Design of a 1.4 - 3.6 GHz High- Netherlands) Technology, P.R. China) Wideband Antenna with AMC Efficiency Broadband Power TH3-IF-18 Reflector Amplifiers with Mixed Operation TH3-IF-11 A 29.6 dBm 29-GHz Power Amplifier Kaining Zhu (Beijing University of Posts and Modes A 26GHz 22.2dBm Variable Gain for Satellite and 5G Communications Telecommunications, P.R. China); Ming Su Fei You (University of Electronic Science Power Amplifier in 28nm FD-SOI Using 0.15-μm GaAs p-HEMT (Being University of Post and and Technology of China, P.R. China); CMOS for 5G Antenna Arrays Technology Teleommunication, P.R. China); Cuiping Yu Chuan Li (University of Electronic Science Christian Elgaard (Ericsson Research & Ian Huang (National Taiwan University, (Beijing university of posts and and Technology of China, P.R. China); Lund University, Sweden); Andreas Axholt Taiwan); Shao-Ting Yen (National Taiwan telecommunications, P.R. China); Yuanan Weimin Shi (University of Electronic (Acconeer, Sweden); Eric Westesson University, Taiwan); Wei-Pang Chao Liu (Beijing University of Posts and Science and Technology of China, P.R. (Ericsson Research, Sweden); Henrik (National Taiwan University, Taiwan); Jeng- Telecom, P.R. China); Chaorui Zang (Beijing China); Songbai He (University of Electronic Sjöland (Lund University, Sweden) Han Tsai (National Taiwan Normal University of Posts and Telecommunications, Science and Technology of China, Chengdu, P.R. China) TH3-IF-12 University, Taiwan); Abdulelah Alshehri P.R. China) (KACST, Saudi Arabia); Mazen Almalki Novel Dual Power-Mode CMOS TH3-IF-25 (KACST, Saudi Arabia); Abdulhamid Sayed TH3-IF-5 Differential Power Amplifier Design Directed gain bandwidth enhancement Design of Low-power High-speed (KACST, Saudi Arabia); Tian-Wei Huang in patch/slot hybrid antenna Using Single Supply Voltage and a (National Taiwan University, Taiwan) Current Mode Dual-modulus Prescaler Compact Reconfigurable Output Bei Huang (Guangdong University of with Inductive Peaking Structure Combining Network TH3-IF-19 Technology, P.R. China); Jun Zhang High Power High Efficiency Wanlu Wang (Peking University, P.R. Chenxi Zhai (The Chinese University of (Guangdong University of Technology, P.R. China); Song Jia (Peking University, P.R. Hong Kong, Hong Kong); Kwok-keung Asymmetric Doherty Amplifiers for China); Zuhua Liu (Foshan Innovative China); Xinning Liu (Peking University, P.R. (Michael) Cheng (Chinese University of Base Station Applications Micro-IC Technology Inc, P.R. China); Gary China); Yuan Wang (Peking University, P.R. Hong Kong, Hong Kong) James Wong (Sumitomo Electric Europe Ltd Zhang (Guangdong University of China) & Sumitomo Electron Device Innovations, Technology, P.R. China); Fugen Wu TH3-IF-13 (Guangdong University of Technology, P.R. TH3-IF-6 United Kingdom (Great Britain)); Akira A GaN-on-Si MMIC Doherty Power Akiyama (Sumiotmo Electric Device China) An 88.68% Tuning Range Amplifier for 5G Applications Enhancement and High Process Innovations, Inc., Japan) TH3-IF-26 Compatibility mm-Wave QVCO with Rocco Giofrè (University of Roma Tor Millimeter Wave High-isolated MIMO Vergata, Italy); Alessandro Del Gaudio TH3-IF-20 SCHI Achieving -196.6 FOMT A High-Efficiency 4.35-4.85 GHz Antenna With Two Opposite Radiation (University of Rome Tor Vergata, Italy); Directions Hui Yang (Institute of Microelectronic Walter Ciccognani (Università of Rome Tor Doherty Amplifier for Base Station Circuits and Systems, East China Normal Vergata, Italy); Sergio Colangeli (University Applications Zheng Gan (South China University of University, P.R. China); Runxi Zhang (East of Rome Tor Vergata, Italy); Ernesto Limiti James Wong (Sumitomo Electric Europe Ltd Technology, P.R. China) China Normal University, P.R. China); (University of Rome Tor Vergata, Italy) & Sumitomo Electron Device Innovations, TH3-IF-27 Chunqi Shi (East China Normal University, United Kingdom (Great Britain)); Gaku Wideband Reconfigurable Parasitic P.R. China); Guangsheng Chen (Shanghai Nishio (Sumitomo Electric Device Plasma Antenna in VHF Band Eastsoft Microelectronics Co. Ltd., P.R. Innovations, Inc., Japan) China) Chao Wang (Shanghai Jiao Tong University, P.R. China); Bin Yuan (Shanghai Jiao Tong University, P.R. China)

38

APMC2018 34_43 Interactive Forum_6k.indd 38 2018/10/26 11:19:47 TECHNICAL SESSIONS (Interactive Forum)

Thursday, November 8 14:00 - 15:30 14:00 - 15:30 Thursday, November 8

Chairs: Tuptim Angkeaw (Chulalengkorn University, Thailand), Kazuya Yamamoto (Mitsubishi Electric Corporation & High Frequency and Optical Device Works, Japan)

TH3-IF-28 TH3-IF-35 TH3-IF-42 TH3-IF-49 A Microstrip Patch Antenna A Super Compact 2×2 MIMO Antenna Miniaturized Antenna Based On Design of a low-voltage high- Sandwiched Between a Ground Plane for GSM/WLAN Applications Vertical Split-Ring Resonator efficiency 250 GHz gyrotron and a Metasurface for WiMAX Sachin Kumar (Kyungpook National Zhan Wang (University of Electronic Science Chenxiang An (National University of Applications University, Korea); Kunal Srivastava (Indian and Technology of China, P.R. China); Defense Technology, P.R. China); Dian Niamat Hussain (Chungbuk National Institute of Technology (ISM) Dhanbad, Yuandan Dong (University of Electronic Zhang (National University of Defense University, Korea); Uktam Azimov India); Kang Wook Kim (Kyungpook Science and Technology of China, P.R. Technology, P.R. China); Jun Zhang (Chungbuk National University, Korea); Ji National University, Korea); Hyun Chul China) (National University of Defense Technology, Woong Park (Chungbuk National University, Choi (Kyungpook National University, P.R. China); Song Li (National University of Korea); Seung-Yeop Rhee (Chonnam Korea) TH3-IF-43 Defense Technology, P.R. China); Jing Liu National University, Korea); Nam Kim Numerical Homogenization for (National University of Defense Technology, (Chungbuk National University, Korea) TH3-IF-36 Effective Permittivity of Composite P.R. China) Planar Via-Free Medium with 2-D Dielectrics in Waveguide by the Finite TH3-IF-29 Negative Refractive Index Properties Element Method Design of a Triple Band Folded Dipole Hidehisa Shiomi (Osaka University, Japan); Tuptim Angkeaw (Chulalongkorn Antenna with Low SAR for GPS/ Atsushi Sanada (Osaka University, Japan) University, Thailand) WLAN Application TH3-IF-37 Ji Woong Park (Chungbuk National TH3-IF-44 Mie Resonances of Silicon Meta-atoms University, Korea); Min-joo Jeong Design methodology of a single-beam (Chungbuk National University, Korea); Han at Visible Frequencies passive reflectarray for controlling Ul Bong (Chungbuk National University, Zhixia Xu (Southeast University, P.R. arbitrary illuminations Korea); Ic Pyo Hong (Kongju National China); Changjiang Su (Southeast Jiawei Han (ESIGELEC, IRSEEM & University, Korea); Nam Kim (Chungbuk University, P.R. China); Siyuan Liu Normandie Univ, UNIROUEN, France); National University, Korea) (Southeast University, P.R. China); Hongxin Constant Manouan Aka Niamien (Normandie Zhao (Southeast University, P.R. China); Univ, UNIROUEN, ESIGELEC/IRSEEM, TH3-IF-30 Shunli Li (Southeast University, P.R. China); Rouen, France); Zouheir Riah (Normandie High-Performance Long-range OAM Xiaoxing Yin (Southeast University, P.R. Univ UNIROUEN ESIGELEC/IRSEEM, Communication Using Loop Antenna China) France) Arrays in 12-GHz Band TH3-IF-38 Hiroto Otsuka (The University of Electro- TH3-IF-45 Low Frequency Leaky Waves at Left Communications, Japan); Ryohei Yamagishi Design of a Perfect Absorber for Handed Ferrite Microstrip Line (The University of Electro-Communications, Normal Incident Waves Using Dirac Japan); Ryo Ishikawa (The University of Makoto Tsutsumi (Fukui Institute Cone Metasurface with Anchor Shaped ElectroCommunications, Japan); Akira Technology & Kyoto Institute of Unit Cells Saitou (The University of Electro- Technology, Japan) Subaru Morita (Osaka University, Japan); Communications, Japan); Hiroshi Suzuki Atsushi Sanada (Osaka University, Japan) (The University of Electro-Communications, TH3-IF-39 Japan); Kazuhiko Honjo (The University of Using Magnetic Photonic Crystal to TH3-IF-46 Electro-Communications, Japan) Achieve High Performance Broadband Ground-Wave-Suppressed High- Band-Pass Filter Frequency Sky-Wave Radar Based on TH3-IF-31 Xi Yang (Nanjing University, P.R. China); Practically-Realizable Bandgap The Design and Simulation of a Yan Gu (Nanjing University, P.R. China); Structure Compact Vivaldi Antenna for UWB Zhong-Hao Sa (Nanjing University, P.R. Applications Liang-Yu Ou Yang (National Chung-Shan China); Rui-Xin Wu (Nanjing University, Institute of Science & Technology, Taiwan); Yongdong Zang (CETC38, P.R. China); P.R. China) Shih-Yuan Chen (National Taiwan Mou-ping Jin (East China Research Institute University, Taiwan) of Electronic Engineering, P.R. China) TH3-IF-40 Phase Modulation in Partially TH3-IF-47 TH3-IF-32 Reflective Surfaces for Beam Steering Antenna Gain Enhancement by 2-D A Magnetic Current-Based Filtering in Fabry-Perot Cavity Antennas Photonic Crystals with the Γ-Point Antenna Badreddine Ratni (Univ Paris Nanterre, Dirac Cone Xue Ren (City Univeirsity of Hong Kong, France); André de Lustrac (Institut Daigo Kambayashi (Osaka University, P.R. China); Shaowei Liao (South China d'Electronique Fondamentale - Université Japan); Atsushi Sanada (Osaka University, University of Technology, P.R. China); Quan Paris-Sud, France); Gérard-Pascal Piau Japan) Xue (South China University of Technology, (Airbus, France); Shah Nawaz Burokur P.R. China) (LEME, France) TH3-IF-48 Design of Small-size Bandstop Filters TH3-IF-33 TH3-IF-41 with Lumped-element Immittance A Low-profile and High-gain Flat Retroreflector Mimicking a Inverters on Artificial Transmission Circularly Polarized Antenna Based on Cylindrical Retroreflector with a Lines Holographic Principle Function of a Luneburg Lens Dmitry Kholodnyak (Saint Petersburg Lei Gan (Xidian University, P.R. China) Tsutomu Nagayama (Kagoshima University, Electrotechnical University ''LETI'', Russia / Japan); Seiji Fukushima (Kagoshima TH3-IF-34 Tohoku University, Japan); Noriharu University, Japan); Toshio Watanabe Suematsu (Tohoku University, Japan) Slot Antenna Backed by a Quarter (Kagoshima University, Japan); Atsushi Cylindrical Cavity with a Tuning Slit Sanada (Osaka University, Japan) Stub Jun Nishijima (Kyoto Institute of Technology, Japan)

39

APMC2018 34_43 Interactive Forum_6k.indd 39 2018/10/26 11:19:47 TECHNICAL SESSIONS (Interactive Forum)

Friday, November 9 10:00 - 11:30 10:00 - 11:30 Friday, November 9

Chairs: Rozenn Allanic (Lab-STICC - UBO Brest, France), Room A Session FR1-IF Hidehisa Shiomi (Osaka University, Japan)

FR1-IF-1 FR1-IF-8 FR1-IF-15 FR1-IF-21 Parallel-coupled-line quasi-elliptic Compact Microstrip Lowpass Filter Design of Holographic Metasurface for Circularly Polarized Antenna with single-ended and balanced bandpass with Ultra-wide Stopband Antenna Beam Steering Based on Asymmetric-Metasurface filters Thulaseedharan Kodiyattuvila Rekha Liquid Crystal Technology Jils Sheersha (Nanyang Technological Chih-Jung Chen (National Taiwan Ocean (Cochin University of Science and Xiang Zhang (University of Science and University, Singapore); N Nasimuddin University & National Taiwan Ocean Technology, India); Parambil Abdulla Technology of China, P.R. China); Qingyuan (Institute for Infocomm Research, University, Taiwan); Chun-Lung Chen (Cochin University of Science and Zhang (University of Science and Singapore); Arokiaswami Alphones (National Taiwan Ocean University, Taiwan) Technology, India); Thevaruparambil Technology of China, P.R. China); Chang (Nanyang Technological University, Abdulnazer Nisamol (Cochin University of Chen (University of Science and Technology Singapore) FR1-IF-2 Science and Technology, India) of China, P.R. China); Weidong Chen Bandpass Filter with Capacitively (University of Science & Technology of FR1-IF-22 Loaded Coupled Lines for Wideband FR1-IF-9 China, P.R. China); Bin Liu (University of Novel Compact High-Gain Wideband Spurious Rejection Compact Quasi-elliptic Bandpass Filter Science and Technology of China, P.R. Filtering Metasurface Antenna Using Magnetically Coupled LC Peng Chen (University of Electronic Science China); Jian Cai (Institute of Si Chen (Nanjing University of Science and Resonator Pair and Technology of China, P.R. China); Microelectronics of the Chinese Academy of Technology, P.R. China); Wanchen Yang Luping Li (University of Electronic Science Ting-Yi Lin (National Taiwan University & Sciences, P.R. China) (Nanjing University of Science and GICE, Taiwan); Tzong-Lin Wu (National Technology, P.R. China); Wenquan Che and Technology of China, P.R. China); Kai FR1-IF-16 Taiwan University, Taiwan) (Nanjing University of Science and Yang (University of Electronic Science and Reconfigurable Metasurface as Technology of China, P.R. China); Qiang Technology, P.R. China); Quan Xue (South Microwave Reflectors and Polarization Chen (Tohoku University, Japan) FR1-IF-10 China University of Technology, P.R. Miniaturized EMSIW Filter with High Converters China); Wenjie Feng (Nanjing University of FR1-IF-3 out of Band Rejection Badreddine Ratni (Univ Paris Nanterre, Science and Technology, P.R. China) Matrix Synthesis of Cascaded Xing-He Nie (Southeast University & State France); André de Lustrac (Institut K-Tuplets Filters with Frequency- d'Electronique Fondamentale - Université FR1-IF-23 Key Laboratory of Millimeter Waves, P.R. Unambiguous Determination of Variant Couplings China); Wei Hong (Southeast University, Paris-Sud, France); Gérard-Pascal Piau Oscillation Frequency for Multiple P.R. China) (Airbus, France); Shah Nawaz Burokur Yuxing He (Yokohama National University, Objects using Quadrature Doppler Japan); Nobuyuki Yoshikawa (Yokohama (LEME, France) FR1-IF-11 Radar National University, Japan) FR1-IF-17 Analysis and Determination of Avon Whitworth (University of Hawaii at A Reconfigurable 4G MIMO Liquid FR1-IF-4 Microwave Filter Order Manoa, USA); Khaldoon Ishmael (University Metal Mobile Handset Antenna A Design of Balun Bandpass Filter for Eng Leong Tan (Nanyang Technological of Hawaii at Manoa, USA); Ehsan Yavari Wide Stopband Attenuation Base on University, Singapore); Ding Yu Heh Haiqiang Gao (Beihang University, P.R. (University of Hawaii at Manoa, USA); Olga Stepped Impedance Resonators (Nanyang Technological University, China); Zhengpeng Wang (Beihang Boric-Lubecke (University of Hawaii at Phirun Kim (Chonbuk National University, Singapore) University, P.R. China); Chang Xu (BeiHang Manoa, USA) Korea); Wang Qi (Chonbuk National University, P.R. China) FR1-IF-12 FR1-IF-24 University, Korea); Girdhari Chaudhary Design and fabrication of 3-pole BPF FR1-IF-18 14.5GHz Circular Waveguide (Chonbuk National University, Korea); Dual-band Conformal Antenna for Applicator for the Treatment of Skin Yongchae Jeong (Chonbuk National configured by hairpin resonators and Wireless Capsule Endoscopy Cancer University, Korea) different types of coupling and feed Applications types at 20 GHz Shaun Preston (Bangor University, United FR1-IF-5 Satoshi Ono (The University of Electro- Lijie Xu (Nanjing University of Posts and Kingdom (Great Britain)); Christopher Paul A Novel 3.5 GHz Low-Loss Bandpass Communications, Japan) Telecommunications, P.R. China); Zhu Duan Hancock (Bangor University and Creo Filter Using I.H.P. SAW (Nanjing University of Information Science Medical, United Kingdom (Great Britain)) Yuichi Takamine (Murata Manufacturing FR1-IF-13 and Technology, P.R. China); Ming Zhang A Compact Power Divider Using Dual (Nanjing University of Posts and FR1-IF-25 Co., Ltd., Japan); Tsutomu Takai (Murata A Miniature Flexible Microwave Manufacturing Co., Ltd., Japan); Hideki Composite Right-/Left-Handed Telecommunications, P.R. China); Yaming Applicator for the Ablation of Iwamoto (Murata Manufacturing Co., Ltd., Resonators (D-CRLH) with Filtering Bo (Nanjing University of Posts and Pancreatic Tumours at 5.8GHz Japan); Takeshi Nakao (Murata MFG., Response Telecommunications, P.R. China) Japan); Masayoshi Koshino (Murata I-Ju Chen (National University of FR1-IF-19 William Taplin (Bangor University, United Manufacturing Co., Ltd., Japan) Kaohsiung, Taiwan); Wen-Chen Lee Flexible Broadband achromatic Kingdom (Great Britain)); Shaun Preston (Bangor University, United Kingdom (Great (National University of Kaohsiung, Taiwan); microwave metalens design using FR1-IF-6 Britain)); Christopher Paul Hancock (Bangor Novel Length Independent Beltrami Yi-Hsin Pang (National University of polynomial fitting method Kaohsiung, Taiwan) University and Creo Medical, United Resonators Using Corrugated Ling Wang (Beijing University of Posts and Kingdom (Great Britain)) Reflectors FR1-IF-14 Telecommunications, P.R. China); Weijun A Notch Filter Design Using Quarter- Hong (Beijing University of Posts and FR1-IF-26 Ryo Mochizuki (Kyoto University, Japan); The Effect of Data Acquisition Yuma Takano (Osaka University, Japan); mode SIW Cavities with High Mode Telecommunications, P.R. China); Li Deng Configuration on Simultaneous Naoki Shinohara (Kyoto University, Japan); Suppression (Beijing University of Posts and Algebraic Reconstruction Technique Atsushi Sanada (Osaka University, Japan) Telecommunications, P.R. China); Shufang Xiaolong Huang (Shanghai Jiao Tong Algorithm for Microwave Imaging University, P.R. China); Liang Zhou Li (Beijing University of Posts and FR1-IF-7 Telecommunications, P.R. China); Shahab System Compact Ultra-Narrowband (Shanghai Jiao Tong University, P.R. China); Junfa Mao (Shanghai Jiao Tong University, Uddin (Beijing University of Posts and Basari Basari (Universitas Indonesia, Superconducting Filter using P.R. China) Telecommunications, Pakistan); Haomin Indonesia); Ria Aprilliyani (Universitas Asymmetric Twin-Spiral Resonators Tian (Beijing University of Posts and Indonesia, Indonesia) Lin Tao (Tsinghua University, P.R. China); Telecommunications, P.R. China); Deken Bin Wei (Tsinghua University, P.R. China); Chen (Beijing University of Posts and Xubo Guo (Tsinghua University, P.R. Telecommunications, P.R. China) China); Bisong Cao (Tsinghua University, FR1-IF-20 P.R. China) High-Gain Low-Profile Substrate- Integrated Fabry-Pérot Cavity Antenna Zhiming Liu (Nanjing University of Aeronautics and Astronautics, P.R. China); Xiangkun Kong (Nanjing University of Aeronautics and Astronautics, P.R. China)

40

APMC2018 34_43 Interactive Forum_6k.indd 40 2018/10/26 11:19:48 TECHNICAL SESSIONS (Interactive Forum)

Friday, November 9 10:00 - 11:30 10:00 - 11:30 Friday, November 9

Chairs: Rozenn Allanic (Lab-STICC - UBO Brest, France), Hidehisa Shiomi (Osaka University, Japan)

FR1-IF-27 FR1-IF-34 FR1-IF-41 FR1-IF-47 Dual-Band Dual-Polarization Coding Wide Range Dual Linear Polarization Contactless Power Transfer Module for Non-contact Emotion Recognition via Metasurface Antenna Rectenna Using Beamforming an Articulated Arm Robot CW Doppler Radar Shun-Cheng Tian (Xidian University, P.R. Networks for Nuclear Power Plants Motoki Futatsuya (Ryukoku University, Qian Gao (Nanjing University of Science China); Yunjia Huang (Xidian University, Dong-Jin Lee (Korea Institute of Nuclear Japan); Toshio Ishizaki (Ryukoku University, and Technology, P.R. China); Li Zhang P.R. China); Xiaoxiao Liu (Xidian Safety(KINS), Korea); Jaeyul Choo (Korea Japan); Ikuo Awai (Ryutech Corporation, (Nanjing University of Science and University, P.R. China); Yu-Ying Zhao Institute of Nuclear Safety, Korea); In-June Japan) Technology, P.R. China); Jiaming Yan (Xidian University, P.R. China); Haixia Liu Hwang (Korea Advanced Institute of Science (Nanjing University of Science and (Xidian University, P.R. China); Long Li and Technology(KAIST), Korea) FR1-IF-42 Technology, P.R. China); Heng Zhao (Xidian University, P.R. China) RF Energy Harvesting Using (Nanjing University of Science and FR1-IF-35 Efficiency Dual Band Rectifier Technology, P.R. China); Chuanwei Ding FR1-IF-28 Stacked Microstrip Patch Antenna Nermeen Ahmed Eltresy (Faculty of (Nanjing University of Science and An Extensive Load Resistor Operation Array with High-gain and Improved Engineering, Ain Shams University & Technology, P.R. China); Hong Hong of Wireless Power Transfer System in Thermal-Stability for Microwave Electronics Research Institute, Egypt); Dalia (Nanjing University of Science and 13.56MHz Resonant Mode Power Transmission Applications Elsheakh, dalia (Electronics Research Technology, P.R. China); Xiaohua Zhu Heng-Ming Hsu (National Chung-Hsing Kyoung-Joo Lee (Korea Electrotechnology Institute & ElTahrir St. Dokki Giza, Egypt); (Nanjing University of Science and University, Taiwan) Research Institute, KERI, Korea); Juntaek Esmat Abdallah (Former President of the Technology, P.R. China) Electronics Research Institute, Egypt); Oh (Yeungnam University, Korea); Sang- FR1-IF-48 FR1-IF-29 Hadia Elhenawy (Prof, Egypt) Hwa Yi (Korea Electrotechnology Research Terahertz Non-Destructive Monitoring Reflection Investigation of Modified Institute, KERI, Korea) Greinacher Charge Pump Using FR1-IF-43 for Infrastructure Components Frequency Doubler for An Elegant FR1-IF-36 Study on a Microwave Power Transfer Tadao Tanabe (Tohoku University, Japan); Full-Duplex WPT System A High Q Dual E-Shaped Defected System to a Stratospheric Platform Yutaka Oyama (Tohoku University, Japan) Ground Structure for Wireless Power Airship Hao Zhang (Nanjing University of Science Transfer Applications FR1-IF-49 and Technology & National University of Yuta Nakamoto (Kyoto University, Japan); Improvement of Electric Field Naoki Shinohara (Kyoto University, Japan) Singapore, P.R. China); Si-Ping Gao Shalin Verma (IIITD, India); Dinesh Rano Focusing for Deep Hyperthermia in (National University of Singapore, (Indraprastha Institute of Information FR1-IF-44 Breast Cancer Treatment by Using Singapore); Jian Wang (National University Technology, Delhi, India); Mohammad Deep Body Microwave Hyperthermia Microwave Dielectric Heating with of Singapore, Singapore); Zheng Zhong Hashmi (Nazarbayev University, Kazakhstan Curved Plate Applicator (National University of Singapore Suzhou & IIIT Delhi, India); Vivek A Bohara Device for Personal Uses from Focused Research Institute, P.R. China); Wen Wu (Indraprastha Institute of Information Microwave Thermotherapy System Supawat Kotchapradit (Suranaree University (Nanjing University of Science and Technology, Delhi (IIIT-Delhi), India) Soon-Ik Jeon (Electronics and of Technology, Thailand); Thanaset Technology, P.R. China) Telecommunications Research Institute, Thosdeekoraphat (Suranaree University of FR1-IF-37 Korea) Technology, Thailand) FR1-IF-30 A Novel Coil Design Method for Long Range Wireless SAW Passive Inductive Power Transfer Avoiding FR1-IF-45 FR1-IF-50 Tag System using Patch Antenna for Compensation Circuits Development of objects storage A Compact Wearable Antenna Using Vibration Monitoring EBG for Smart-watch Applications Zixuan Yi (University of Science and location detector with UHF-RFID Koki Shibata (Japan Radio Co., Ltd., Japan); Technology of China, P.R. China); Qi Zhu system Adel Ashyap (Universiti Tun Hussein Onn Eiki Takahashi (Japan Radio Co., Ltd., (University of Science and Technology of Shinji Matsuoka (Tokyo City University, Malaysia, Malaysia); Zuhairiah Zainal Japan) China, P.R. China) Japan); Yoshinobu Okano (Tokyo City Abidin (Universiti Tun Hussein Onn University, Japan) Malaysia, Malaysia); Samsul Haimi Dahlan FR1-IF-31 FR1-IF-38 (Universiti Tun Hussien Onn Malaysia, Autopilot Drone with Rectenna for A Polarization-Based Power-Splitting FR1-IF-46 Malaysia); Huda A. Majid (Universiti Tun 28GHz Microwave Irradiation Full-Duplex Relaying Scheme Design Support Vector Machine-Based Hussein Onn Malaysia, Malaysia); Measurement for SWIPT System Instantaneous Presence Detection for Fauziahanim Che Seman (Universiti Tun Satoru Suganuma (University of Tsukuba, Jinyang Li (Beijing University of Posts and Continuous Wave Radar Systems Hussein Onn Malaysia, Malaysia) Japan) Telecommunications, P.R. China); Fangfang Sven Schellenberger (Brandenburg Liu (Beijing University of Posts and University of Technology, Germany); Kilin FR1-IF-32 Telecommunications, P.R. China); Caili Guo Shi (Friedrich-Alexander University Improvement in Transmission (Beijing University of Posts and Erlangen-Nuremberg, Germany); Tobias Efficiency for Cavity Resonance Telecommunications, P.R. China) Steigleder (University Hospital Erlangen, Enabled Wireless Power Transfer by Germany); Fabian Michler (Friedrich- Handling Cavity Impedance FR1-IF-39 Alexander University Erlangen-Nuremberg, Drone Driven by Microwave Shinji Nimura (Toyohashi University of Germany); Fabian Lurz (Friedrich-Alexander Technology, Japan) Yudai Hashimoto (NTT Communications University Erlangen-Nuremberg, Germany); Corporation, Japan); Qiaowei Yuan (National Robert Weigel (Friedrich-Alexander FR1-IF-33 Institute of Technology, Sendai College, Universität Erlangen-Nürnberg, Germany); Analysis of Contact-less Power Japan); Takumi Aoki (National Institute of Alexander Koelpin (BTU & Chair for Transfer Characteristics in a Technology, Sendai College, Japan) Electronics and Sensor Systems, Germany) Periodically Connected Drill Pipes Based on Measurement of Coupling FR1-IF-40 Unit Experiment on Direction Finding using Array antenna for Solar Power Satellite Ikuo Awai (Ryutech Corporation, Japan); Tatsuya Hiraiwa (Ryukoku University, Mudassir Raza (The Graduate University for Japan); Toshio Ishizaki (Ryukoku University, Advanced Studies (SOKENDAI), Japan); Japan); Tomoya Inoue (JAMSTEC, Japan); Koji Tanaka (Institute of Space and Junya Ishiwata (JAMSTEC, Japan) Astronautical Science, Japan Aerospace Exploration Agency, Japan); Shotaro Katano (The Graduate University for Advanced Studies (SOKENDAI), Japan)

41

APMC2018 34_43 Interactive Forum_6k.indd 41 2018/10/26 11:19:48 TECHNICAL SESSIONS (Interactive Forum)

Friday, November 9 14:00 - 15:30 14:00 - 15:30 Friday, November 9

Chairs: Julian L Webber (Osaka University & Advanced Telecommunicatioms Reserch Institute International, Japan), Room A Session FR3-IF Chung-Tse Michael Wu (Rutgers University, USA)

FR3-IF-1 FR3-IF-9 FR3-IF-15 FR3-IF-22 Third-Order Bandwidth-Tunable A Wideband 90-nm CMOS Phase- A 68-79 GHz 15.6dBm Power Tri-band 2x2 5G MIMO Antenna Bandpass Filter with Two locked Loop with Current Mismatch Amplifier in 65nm CMOS Array Transmission Zeros Calibration for Spur Reduction Wei Lv (East China Research Institute of Son Chu (University of Oxford, United Ziwei Zhou (University of Electronic Yueh-Hua Yu (National Taiwan University, Electronic Engineering); Zongming Duan Kingdom (Great Britain)); Md Nazmul Science and Technology of China, P.R. Taiwan); Jau-Horng Chen (National Taiwan (East China Research Institute of Electronic Hasan (Sungkyunkwan University, Korea); China); Fei Xiao (University of Electronic University, Taiwan); Yi-Jan Emery Chen Engineering); Shiwei Wu (East China Jiaruo Yan (University of Oxford, United Science and Technology of China, P.R. (National Taiwan University, Taiwan) Research Institute of Electronic Kingdom (Great Britain)); Can Chu China); Yu Cao (Chengdu Tiger Microwave Engineering); Yan Wang (East China (University of Transport and Tech Co Ltd, P.R. China); Yong Zhang FR3-IF-10 Research Institute of Electronic Engineering, Communications, Vietnam) (University of Electronic Science and Achieving Perfect Absorption by the P.R. China) Technology of China, P.R. China); Xiaohong combination of Dallenbach Layer and FR3-IF-23 Tang (University of Electronic Science and Salisbury Screen FR3-IF-16 A Method of Grating-Lobe A study on Direct RF Undersampling Suppression Using Flat-Topped Technology of China, P.R. China) Feifei Li (Nanjing University, P.R. China); Receiver Configuration considering Element Pattern Ping Chen (Nanjing University, P.R. China); FR3-IF-2 Timing Skew Spurs using Time- Yin Poo (Nanjing University, P.R. China); Xie Shaoyi (Northwest Institute of Nuclear Balanced-to-Balanced Power Divider Interleaved ADC Rui-Xin Wu (Nanjing University, P.R. Technology, P.R. China); Jiawei Li with Tunable In-Phase/Out-of-Phase China) Tomoyuki Furuichi (Tohoku University, (Northwest Institute of Nuclear Technology, Power-Dividing Ratio Japan); Mizuki Motoyoshi (Tohoku P.R. China); Tao Ba (Northwest Institute of Pei-Ling Chi (National Chiao Tung FR3-IF-11 University, Japan); Suguru Kameda (Tohoku Nuclear Technology, P.R. China); Letian University, Taiwan); Chun-Pin Chien A Low Droop Rate Wide Input University, Japan); Noriharu Suematsu Guo (Northwest Institute of Nuclear (National Chiao Tung University, Taiwan) Bandwidth High Dynamic Range (Tohoku University, Japan) Technology, P.R. China); Deng Guangjian Track-and-hold Amplifier in 0.18 μm (Northwest Institute of Nuclear Technology, FR3-IF-3 SiGe Process FR3-IF-17 P.R. China); Shao Hao (Northwest Institute Generic UHF Bandpass Filter with Air- An E-Band Silicon-IC-to-Waveguide of Nuclear Technology, P.R. China) Filled SIR Coaxial Resonators Guan-Lin Huang (National Central Contactless Transition Incorporating a University, Taiwan); Cheng-Rui Li (National Low-Loss Spatial Power Combiner FR3-IF-24 Marc Hakim Aouidad (Elliptika, France); Central University, Taiwan); Hong-Yeh A 5.8-GHz Dual-Axis Monopulse Eric Rius (Lab-STICC/Université de Brest); Chang (National Central University, Taiwan) Piyush Kaul (Eindhoven University of Microstrip Array Antenna Using Dual- Jean François Favennec (Lab-STICC/ENIB, Technology, The Netherlands); Alhassan Feed Network France); Alexandre Manchec (Elliptika, FR3-IF-12 Aljarosha (Eindhoven University of France) Design of 6-bit 28GHz Phase Shifter in Technology & Chalmers University of Thet Paing Phyoe (Saga University, Japan); 65nm CMOS Technology, The Netherlands); A. B. (Bart) Eisuke Nishiyama (Faculty of Science and FR3-IF-4 Jeehoon Park (Electronics and Smolders (Eindhoven University of Engineering, Saga University, Japan); Design theory of dual-band Wilkinson Technology, The Netherlands); Peter Baltus Ichihiko Toyoda (Faculty of Science and power divider with different frequency Telecommunications Research Institute, ETRI, Korea); Sunwoo Kong (Electronics (Eindhoven University of Technology, The Engineering, Saga University, Japan) ratio ranges and Telecommunications Research Institute, Netherlands); Marion Matters-Kammerer (Eindhoven University of Technology, The FR3-IF-25 An Song (Saitama University, Japan); Korea); Seunghyun Jang (ETRI, Korea); Hui Design of Circularly Polarized Xiaolong Wang (Jilin University, P.R. Netherlands); Rob Maaskant (CHALMERS, Dong Lee (Electonics and Dielectric Resonator Reflectarray China); Zhewang Ma (Saitama University, Telecommunications Research Institute, Sweden) Antenna Japan); Masataka Ohira (Saitama University, Korea); Kwang-Seon Kim (ETRI, Korea); FR3-IF-18 Japan) Xibei Zhao (Xidian University, P.R. China); Lee Kwang Chun (ETRI, Korea) A Phased Array Pattern Prediction Feng Wei (Xidian University & National Technique Based on the Pattern FR3-IF-5 FR3-IF-13 Laboratory of Science and Technology on A Wideband Forward Coupler with A 110-135 GHz Integrated Sixport Multiplication Method Antennas and Microwaves, P.R. China) Tunable Coupling Ratio Using Receiver Front-End in a 130-nm Shihyuan Yeh (Texas A&M University, Varactor Based Tuning Network BiCMOS Technology USA) FR3-IF-26 360-degree Azimuth Beam Scan Four- Chih-Hao Lai (National Chiao Tung Matthias Voelkel (University Erlangen/ FR3-IF-19 Branch MRC Adaptive Array for University, Taiwan); Chih-Yang Chang Nuermberg, Germany); Karl Borutta Design of Planar 8-by-16 Butler Matrix Secure Connected Cars (National Chiao Tung University, Taiwan) (University Erlangen/Nuermberg, Germany); for 16-Element Switch-Beam Antenna Marco Dietz (Friedrich-Alexander- Ryoya Furukura (University of Toyama); Array FR3-IF-6 University Erlangen-Nuremberg & Institute Hiroya Tanaka (University of Toyama, Cross-board Synchronization of for Electronics Engineering, Germany); Chao-Hsiung Tseng (National Taiwan Japan); Kazuhiro Honda (University of Oscillators Embedded with Phase- Klaus Aufinger (Infineon Technologies AG, University of Science and Technology, Toyama, Japan); Koichi Ogawa (University difference Adjusting Germany); Robert Weigel (Friedrich- Taiwan); Jheng-Yuan Huang (National of Toyama & Faculty of Engineering, Japan) Alexander Universität Erlangen-Nürnberg, Taiwan University of Science and Janne-Wha Wu (National Chung Cheng FR3-IF-27 University, Taiwan) Germany); Amelie Hagelauer (University of Technology, Taiwan); Chun-Hao Tseng Erlangen-Nuremberg, Germany) (National Taiwan University of Science and The Radial Line Slot Antenna using FR3-IF-7 Technology, Taiwan) Non-Resonant Cross-Slot Pair for X-Band Broadband Branch-Line FR3-IF-14 Radiating Waveguide Termination A DC to 40 GHz 4-Vpp Output High- FR3-IF-20 Coupler with Loose Coupling Utilizing Yasuhiro Tsunemitsu (Takushoku Efficiency Linear Driver for Optical Efficient Antenna Scan Response Short-/Open-Circuited Coupled- University, Japan); Yasuhiro Higuma Models for Large Phased Arrays Transmission Lines Communication (Takushoku University, Japan); Naohisa Yuya Haoka (University of Hyogo, Japan); Xiao Liu (Eindhoven University of Brandt Klopper (Stellenbosch University, Goto (Tokyo Institute of Technology and Tadashi Kawai (University of Hyogo, Japan); Technology, The Netherlands); Xi Zhang South Africa); Dirk de Villiers (Stellenbosch Takushoku University, Japan) (Eindhoven University of Technology - TU/ University, South Africa) Akira Enokihara (University of Hyogo, FR3-IF-28 Japan) e, The Netherlands); Rainier Van Dommele (Eindhoven University of Technology, The FR3-IF-21 Design of a Substrate Integrated FR3-IF-8 Netherlands); Hao Gao (Eindhoven 6:1 Bandwidth Linearly Polarized Coaxial Line based 2x4 Slot Antenna Design Method of Frequency- University of Technology, The Netherlands); Compact Vivaldi Antenna Array Array for Millimeter Wave Application Reconfigurable Filtering Couplers Domine Leenaerts (NXP Semiconductors, Saurabh Shukla (CARE, IIT DELHI & Naman Baghel (Indian Institute of Feng Lin (Beijing Institute of Technology, The Netherlands); Marion Matters- DARE, DRDO, India); Shiban K Koul Technology Jodhpur, India); Soumava P.R. China); Hongzhong Ma (Beijing Kammerer (Eindhoven University of (Indian Institute of Technology Delhi, India); Mukherjee (Indian Institute of Technology Institute of Technology, P.R. China) Technology, The Netherlands) Mahesh P Abegaonkar (IIT Delhi, India) Jodhpur, India)

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APMC2018 34_43 Interactive Forum_6k.indd 42 2018/10/26 11:19:48 TECHNICAL SESSIONS (Interactive Forum)

Friday, November 9 14:00 - 15:30 14:00 - 15:30 Friday, November 9

Chairs: Julian L Webber (Osaka University & Advanced Telecommunicatioms Reserch Institute International, Japan), Chung-Tse Michael Wu (Rutgers University, USA)

FR3-IF-29 FR3-IF-35 FR3-IF-42 FR3-IF-50 New Approach to Suppress Mutual Novel Design of a Dual-band 5G mm- Nature Inspired Golden Spiral Super- Microwave Specific Effect on Catalytic Coupling Between Longitudinal- Wave Antenna Array Integrated with a Ultra Wideband Microstrip Antenna Enantioselective Reactions Slotted Arrays Based on SIW Antenna Metal Frame of a Cellular Phone Sarthak Gupta (Netaji Subhas Institute of Tohru Yamada (Keio University, Japan) Loaded with Metal-Fences Working on Yijin Wang (vivo Mobile Communication Technology, India); Tushar Arora (Netaji VHF/UHF Frequency-Bands: Study, Co., Ltd, P.R. China); Huan-Chu Huang Subhas Institute of Technology, India); FR3-IF-51 Investigation, and Principle (vivo Mobile Communication Co., Ltd, Deepak Singh (Netaji Subhas Institute of Effect of Multimode and Single-mode Microwave Processing of Anisotropic Mohammad Alibakhshikenari (Università Taiwan); Xianjing Jian (vivo Mobile Technology, India); Krishan Kumar Singh degli Studi di Roma “Tor Vergata”, Roma - Communication Co., Ltd, P.R. China) (Netaji Subhas Institute of Technology, Grain Growth of CuFeO2 ITALY, Italy); Bal Virdee (London India) Jun Fukushima (Tohoku University, Japan) FR3-IF-36 Metropolitan University, United Kingdom Broadside 60 GHz Antenna with two FR3-IF-43 (Great Britain)); Chan See (University of A LTE/GPS/WWAN Dipole Antenna Bolton, United Kingdom (Great Britain)); Quasi-Yagi Radiators with Corrugated for Smartwatch Applications Raed A Abd-Alhameed (University of Directors and Reflector Bradford, United Kingdom (Great Britain)); Dan Neculoiu (National Institute of R&D in Jui-Han Lu (National Kaohsiung Marine Francisco Falcone (Universidad Publica de Microtechnologies - IMT Bucharest & University, Taiwan); Jia-Wen Hsu (National Navarra, Spain); Ernesto Limiti (University Politehnica University of Bucharest, Kaohsiung University of Science and of Rome Tor Vergata, Italy); Mohsen Khalily Romania); Alina-Cristina Bunea (National Technology, Taiwan); Jing-Hui Zhuang (University of Surrey & 5G Innovation Institute for R&D in Microtechnologies - (National Kaohsiung University of Science Centre, Institute for Communication Systems IMT Bucharest, Romania); Andrei Marius and Technology, Taiwan) (ICS), United Kingdom (Great Britain)) Avram (National Institute for R&D in Microtechnologies - IMT Bucharest, FR3-IF-44 FR3-IF-30 Romania) A Compact Ku/E band Horn Antenna Scattering and Radiation Performance Xiaoyu Du (Xidian University, P.R. China); of Ninja Array Antennas FR3-IF-37 Shufeng Zheng (Xidian University, P.R. Keisuke Konno (Tohoku University, Japan); SIW Cavity-Backed Self-Triplexing China) Qiang Chen (Tohoku University, Japan); Antenna with T-Shaped Slot FR3-IF-45 Qiaowei Yuan (National Institute of Arvind Kumar (National Institute of UWB Double-Sided Printed Bowtie Technology, Sendai College, Japan) Technology, Trichy India & National Institute of Technology, Trichy India, India); Antenna Using Supershape FR3-IF-31 Divya Chaturvedi (NIT Trichy, India); B Vignesh Shanmugam Bhaskar (S2-B3c-26, A Wide Impedance Bandwidth Printed Murugeswari (NIT TRICHY, India); (Comm Research lab) & Nanyang Slot Antenna for 28, 38, and 60-GHz Raghavan S (NIT, India) Technological University, Singapore); Eng Applications Leong Tan (Nanyang Technological FR3-IF-38 Pei-Ling Chi (National Chiao Tung University, Singapore); King Ho Holden LI Broadband Thin-Film Microstrip University, Taiwan); Ching-Hsiang Wang (Nanyang Technological University, (National Chiao Tung University, Taiwan) Superconducting Antenna Singapore) Bing Li (Southwest Jiaotong University, P.R. FR3-IF-46 FR3-IF-32 China) A Planar Super Wideband Annular Dielectric Measurement in Liquids Ring Monopole Antenna with Time FR3-IF-39 Using an Estimation Equation Without Domain Characterization A Multi-Mode Resonator-Fed Short Termination via the Cut-off Broadband Patch Antenna with Waveguide Reflection Method Son Chu (University of Oxford, United Kingdom (Great Britain)); Md Nazmul Improved Selectivity and Harmonic Kouji Shibata (Hachinohe Institute of Hasan (Sungkyunkwan University, Korea); Suppression Technology, Japan) Jiaruo Yan (University of Oxford, United Jian-Feng Qian (School of Electronic and FR3-IF-47 Kingdom (Great Britain)); Can Chu Information Engineering, South China Relation between complex permittivity (University of Transport and University of Technology, P.R. China); Fu- Communications, Vietnam) Chang Chen (South China University of and microwave heating for Technology, P.R. China) semiconductor materials FR3-IF-33 Hideoki Fukushima (Toyota Central R&D A Ka-Band LTCC Magneto-Electric FR3-IF-40 Labs. Inc., Japan) Dipole Array for 5G Communications A Consistently High Gain Frequency Yu Jian Li (Beijing Jiaotong University, P.R. Scanning Antenna for Portable Low- FR3-IF-48 China); Yong-Xin Guo (National University Profile Beamforming Applications 2.45 GHz ISM-Band 450W High of Singapore, Singapore) Karthik Thothathri Chandrasekaran Efficiency GaN Pallet Amplifier for (Nanyang Technological University, Microwave Heating FR3-IF-34 Singapore); N Nasimuddin (Institute for Takumi Sugitani (Mitsubishi Electric Equal beamwidth and low sidelobe Infocomm Research, Singapore); Michael Corporation, Japan) mm-wave horn antenna Ong (Institute for Infocomm Research, Muhammad Shahzad Sadiq (Beihang, P.R. Singapore); Arokiaswami Alphones FR3-IF-49 China); Muhammad Wasif Niaz (Nanyang Technological University, Experimental Evaluation of Uniform (Northwestern Polytechnical University, P.R. Singapore); Faeyz Karim (Nanyang Heating of Object Arranged in China); Shufeng Zheng (Xidian University, Technological University, Singapore) Microwave Oven by Planar P.R. China); Luyu Zhao (Xidian University, Electromagnetic Stirrer P.R. China) FR3-IF-41 A Single-Feed Circularly Polarized Naruki Saito (Aoyama Gakuin University, Patch Antenna for Wideband Wireless Japan); Yuta Mizushima (Aoyama Gakuin Applications University, Japan); Ryosuke Suga (Aoyama Gakuin University, Japan); Osamu Min Han (Southeast University & State Key Hashimoto (Aoyama Gakuin University, Laboratory of Millimeter Waves, P.R. Japan) China); Wenbin Dou (Southeast University & State Key Of MMW, Southeast University, P.R. China)

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Tuesday, November 6 10:00-17:00 Tuesday, November 6 10:00-13:00 Room B1 Room B2 WS-B1 WS1-B2 RF Front End Modules for 4G/5G Applications mm-Wave GaN for 5G Applications Organizer: Florinel Balteanu (Skyworks Solutions, USA) Organizers: Kazuya Yamamoto (Mitsubishi Electric Corporation, Japan), Kazutaka Inoue (Sumitomo Electric Industry With the world wide adoption and access to voice and data Corporation, Japan) through Long Term Evolution (LTE) services, the cellular Sponsorship: Endorsed by IEEE MTT-S TC-7 industry is now the world's largest innovation engine. For most parts of the world mobile is the leading internet access platform Millimeter-wave and sub-millimeter-wave applications, such as for internet access. Today there are 4.5 billion worldwide mobile satellite communications, radar systems, high-speed wireless subscribers with this number expected to reach 6 billion by 2020. communications, and emerging 5G systems, have demanded high- The workshop examines the current status of LTE RF Front End power and high-efficiency devices. A GaN device is still a main Modules and the ways it evolve to deliver a gigabit-per-second player for the above frequencies and applications. This workshop user experience which is the LTE 5G goal. 5G is simultaneously introduces the advances in GaN device technology and its an evolutionary process (LTE evolution) with few elements of application to 5G millimeter-wave transmitter systems while revolution (5G New Radio NR). There are three LTE advanced focusing on transmitter system design and efficiency-enhancement techniques to increase the data rate for 5G which will be techniques as well as recent GaN device achievements. This explained in this workshop such as: workshop will be of great value to GaN power amplifier designers, - Wider bandwidth via carrier aggregation especially beginners or less-experienced designers, because it - Higher order modulation allows the attendees to learn and understand the hottest topics and - MIMO utilization the latest results related to GaN devices at a time. 5G ecosystem will consist of two frequency area of interest: sub 6GHz frequency domain and mmWave spectrum. Both areas WS1-B2-1 Novel Heterostructures for Millimeter-wave GaN will be covered by this workshop as well the technologies used. Devices Both 4G LTE as it currently used and 5G NR will be deployed Farid Medjdoub (Villeneuva D'ASCQ, France) concurrently in spectrum below 6GHz and therefore standalone WS1-B2-2 GaN Transistor Development for High-Power High- 5G will not be deployed in LTE bands for a while. To increase Linearity Millimeter-Wave Applications the data bandwidth there is also the need to increase the capacity Keisuke Shinohara (Teledyne Scientific & Imaging, for backhaul network. LLC, USA) Most of the recent 5G headlines have been focused on WS1-B2-3 GaN and Si Applications to 5G mm-Wave Massive- mmWave spectrum and the introduction of the new techniques MIMO Base-Stations like beam forming which will be presented in this workshop. Tomoya Kaneko (NEC Corporation, Japan) Currently there are many technical challenges that would prohibit WS1-B2-4 Envelope Tracking GaN Power Amplifiers for 5G mmWave deployment in consumer devices as a first step in the mmWave Signals 5G technology roadmap, but will be initially deployed for Donald Kimball (pSemi Corporation, USA) wireless backhaul solutions.

WS-B1-1 Introduction Florinel Balteanu (Skyworks Solutions, USA) WS-B1-2 RF-SOI for LTE Carrier Aggregation and 5G Venkata Narayana Rao Vanukuru (Globalfoundries, India) [Lunch break] WS-B1-3 Envelope Tracking Linearization Yu Zhu (Skyworks Solutions, USA) WS-B1-4 5G CMOS Tunable Filters for RF Front Ends Gaëtan Prigent (Univesité de Toulouse, France) WS-B1-5 RF Front End Modules for 4G/5G Cellular Applications Florinel Balteanu (Skyworks Solutions, USA) WS-B1-6 A 28GHz CMOS Phased-Array Transceiver for 5G New Radio Kenichi Okada (Tokyo Institute of Technology, Japan); Rui Wu (Tokyo Institute of Technology, Japan)

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Tuesday, November 6 14:00-17:00 Tuesday, November 6 10:00-13:00 Room B2 Room C1 WS2-B2 WS1-C1 Recent Progress of Terahertz Sources for Advanced Advances in RF Wireless Power Transfer and Energy Applications Harvesting Techniques Organizers: Masayuki Fujita (Osaka University, Japan), Shuhei Organizers: Ramesh K. Pokharel (Kyushu University, Japan), Amakawa (Hiroshima University, Japan) Mohammad Hashmi (Nazarbayev University, Kazakhstan)

Terahertz (THz) electromagnetic waves, which are located The Near-Field Wireless Power Transfer (WPT) techniques between microwaves and light (from around 0.1 THz to 10 THz), has found extreme usefulness in this decade. It can be due to are attracting much attention in interdisciplinary fields straddling multiple low power sensor type potential applications as a electronics and photonics. A wide variety of THz-wave wireless power supply system for implants, body area networks, applications are being developed, including high-data-rate drug delivery systems, etc. In this context, there has been strong wireless communication and high-resolution sensing. THz emphasis on DGS-based WPT systems owing to the superior sources are the most important components in developing performance and ease of their design when compared to the advanced THz applications because the sources can be the conventional coil based WPT systems. This workshop will take limiting factor of the performance of application systems. the audience through the challenges and solutions related to DGS Performance indicators of interest include the operation structures and their incorporation in single band and dual-band frequency, output power, power consumption, size, complexity, WPT systems. Simultaneously RF energy harvesting has also tunability and cost. Among others, solid-state semiconductor- attracted attention for application scenarios such as power transfer based sources are highly promising for various applications and to the sensors used in patient health monitoring, the sensors in are rapidly being developed around the world. hazardous environment, and the sensors for covert security In this Workshop on "Recent progress of terahertz sources for operations. The matching network and highly efficient rectifiers advanced applications", six distinguished invited speakers will are extremely critical to develop a successful energy harvesting present solid-state THz sources using different mechanism and system. In this workshop, the audience will be introduced to the materials including a multiplier based on Schottky barrier diodes recent advances in multi-band and wideband impedance matching (SBDs), integrated circuits based on high-electron-mobility techniques and the promising diode-based and PA-based rectifier transistors (HEMTs) using III-V compound semiconductors , configurations. silicon-based complementary metal oxide semiconductor (CMOS) circuits, resonant tunneling diodes (RTDs), quantum cascade WS1-C1-1 Single Band Wireless Power Transfer Employing lasers (QCLs), and photodetectors (PDs). After the invited talks, Defected Ground Structures we will hold an open discussion with all the presenters and Ramesh K. Pokharel (Kyushu University, Japan) participants on the future direction of the field and any further WS1-C1-2 Advanced Impedance Matching and Rectifier points. Configurations for Energy Harvesting Mohammad Hashmi (Nazarbayev University, WS2-B2-0 Welcome Address on the Workshop of Recent Kazakhstan) Progress of Terahertz Sources for Advanced WS1-C1-3 J-Inverter Modelling Technique for Dual-band WPT Applications Systems Masayuki Fujita (Osaka University, Japan); Shuhei Adel Barakat (Kyushu University, Japan) Amakawa (Hiroshima University, Japan) WS2-B2-1 Terahertz Sources Based on Schottky Barrier Diode Multipliers Jeffrey Hesler (Virginia Diodes, Inc., USA) WS2-B2-2 (Sub-) Millimeter-Wave Applications in Space, Communication and Sensing Using Advanced III/V mHEMT Technology: From Devices to Subsystems Michael Schlechtweg (Fraunhofer IAF, Germany) WS2-B2-3 Devices and Circuits for Efficient Generation of Broadband Terahertz Signals in Standard CMOS Zeshan Ahmad (Texas Instruments, USA) WS2-B2-4 Development of Resonant Tunneling Diodes for Terahertz Applications Jae-Young Kim (Rohm Co.,Ltd., Japan) WS2-B2-5 Re cent Developments of Terahertz Quantum Cascade Laser Sources Giacomo Scalari (ETH Zürich, Switzerland) WS2-B2-6 Photodetectors for Terahertz Applications Tadao Nagatsuma (Osaka University, Japan) [Open Discussion]

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Tuesday, November 6 14:00-17:00 Tuesday, November 6 10:00-17:00 Room C1 Room C2 WS2-C1 WS-C2 Industrial Wireless Applications, Standardizations and Wireless Power Transfer in Asia Technologies Organizer: Naoki Shinohara (Kyoto University, Japan) Organizers: Suguru Kameda (Tohoku University, Japan), Kenichi A Wireless Power Transfer technologies are developed in US, Maruhashi (National Institute of Information and EU, and Japan mainly in 20th century. However, after a Communications Technology, Japan) revolution of the WPT by proposal of a resonance coupling WPT Chair: Shoichi Narahashi (Setsunan University, Japan) by MIT group, there are a lot of interesting research and development of the WPT in the world. Recently, Asian activities Wide-spreading IoT utilization needs sophisticated wireless of the R&D of the WPT is very active, not only in Japan but also technology which satisfies a variety of requirements of industrial in various Asian countries. For example, a lot of commercial applications. This workshop focuses on activities and electric buses supported by an inductive wireless charging system run in many Chinese cities. In Korea, they are promoting OLEV technologies based on new standardization activities for industrial (On-Line Electric Vehicle) and inductive WPT aided train system. wireless applications including use of 5G New Radio (NR) In China, some group carried out a microwave beam WPT spectrum, coordination of existing wireless technologies, and a experiment and designed a Solar Power Satellite with the beam model approach with application-oriented assessment. microwave power technology. Singapore's group propose and is Remarkable wireless technologies dedicated for specific industrial developing medical system with a microwave power. In Vietnam, wireless applications are also presented for train radio they are interested in the microwave power transfer system. communications and highly reliable and secure wireless network Recently Japan leads a collaboration of Asian countries to for manufacturing industries demonstrated in Asian countries. promote the WPT R&D via scientific society of IEICE, which is named Asian Wireless Power Transfer Workshop. There are deep discussion toward new regulation of the WPT, not only an WS2-C1-1 5G NR Spectrum Sharing for Industrial IoT inductive WPT but also a WPT via microwave in China-Japan- Masakazu Shirota (QUALCOMM Japan Inc., Japan) Korea collaboration. The result of the discussion is submitted to WS2-C1-2 Coordination Control of Wireless Systems in ITU (International Telecommunication Union) to establish new Flexible Factory Environments WPT regulation. So recent hottest region of the WPT R&D in the Kenichi Maruhashi (National Institute of Information world is Asia. In this workshop, we focus on the novel WPT and Communications Technology, Japan) technologies in Asian countries and regulation/standardization status from the Asia. WS2-C1-3 Application Oriented Assessment of Industrial Wireless Communication Systems WS-C2-1 RF-DC Conversion Circuit for Wireless Power Lutz Rauchhaupt (Institut für Automation und Transfer and Energy Harvesting Technologies Kommunikation e. V., Germany) Tsunayuki Yamamoto (Yamaguchi University, Japan) WS2-C1-4 Toward the Realization of Millimeter-wave Train WS-C2-2 RF Rectenna Design for Wireless Power Transfer Radio Communications Using Linear Cellularization Jiafeng Zhou (University of Liverpool, United Hiroshi Nishimoto (Mitsubishi Electric Corporation, Kingdom (Great Britain)) Japan); Kenichiro Kamohara (Mitsubishi Electric WS-C2-3 Large-scale Rectenna Array at X-band Xuexia Yang (Shanghai University, P.R. China) Corporation, Japan); Fumihiro Hasegawa (Mitsubishi WS-C2-4 Wireless Power Communications - Combining WPT Electric Corporation, Japan); Shusaku Umeda and Communications (Mitsubishi Electric Corporation, Japan); Yusuke Nuno Borges Carvalho (University of Aveiro/IT Kinoshita (Mitsubishi Electric Corporation, Japan); Aveiro, Portugal) Akihiro Okazaki (Mitsubishi Electric Corporation, [Lunch break] Japan); Atsushi Okamura (Mitsubishi Electric WS-C2-5 RF in Medicine: Current Status and Challenges of Corporation, Japan) Wireless Power and Antennas Yongxin Guo (National University of Singapore, WS2-C1-5 Highly Reliable and Secure Wireless Network Useful Singapore) for Manufacturing Industries - Theoretical WS-C2-6 Internet of Energy Things (IoET) for Industry 4.0 Investigation and Demonstrations in Malaysia and Widad Ismail (Engineering Campus, Universiti Sains Singapore - Malaysia, Malaysia) Ken Takei (Hitachi, Ltd., Hitachi Research WS-C2-7 Universal RF Efficiency Calculation Approach for Laboratory, Japan) MIMO-WPT System Qiaowei Yuan (National Institute of Technology, Sendai College, Japan) WS-C2-8 Maximum Efficiency Contours Plotted on Smith Chart to Acquire Optimal Duty Cycle in Resonant Wireless Power Transfer System Heng-Ming Hsu (National Chung-Hsing University, Taiwan) WS-C2-9 Wireless Power Transfer Technologies for Electric Vehicles, Mobile Devices, and Biomedical Applications in Korea Seungyoung Ahn (KAIST, Korea); Hyun Ho Park (University of Suwon, Korea) 46

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Tuesday, November 6 10:00-17:00 WS-D-4 R&D Activities for Capacity Enhancement using 5G Ultra High-Density Distributed Antenna Systems Room D Teppei Oyama (Fujitsu Laboratories Ltd., Japan); Takashi Dateki (Fujitsu Laboratories Ltd., Japan); WS-D Morihiko Minowa (FUJITSU LIMITED, Japan); Proof of Concepts of 5G Radio Access Technologies and Tatsuki Okuyama (NTT DOCOMO, INC., Japan); Jun 5G System Trials Mashino (NTT DOCOMO, INC., Japan); Satoshi Organizers: Satoshi Suyama (NTT DOCOMO, INC., Japan), Suyama (NTT DOCOMO, INC., Japan); Yukihiko Kentaro Nishimori (Niigata University, Japan), Toshihiko Okumura (NTT DOCOMO, INC., Japan) Nishimura (Hokkaido University, Japan) WS-D-5 Wireless High Quality Video Transmission in 5G Mobile Network and its Trials While 5G standardization is progressing steadily in 3GPP, Hideki Shingu (Panasonic Corporation, Japan); several 5G experimental trials using prototypes and test-beds Masaaki Yoshino (Panasonic Corporation, Japan); have been performed by various operators, vendors, and regional Takumi Higuchi (Panasonic Corporation, Japan); 5G projects during the last years with the goal to confirm the Tetsuro Morimoto (Panasonic Corporation, Japan); performance of key 5G radio access technologies. Recently, 5G Sojiro Norita (Panasonic Corporation, Japan); system trials for further advanced 5G developments are being Hiroaki Asano (Panasonic Corporation, Japan); started in collaboration with vertical industries. The primary aim Yoshifumi Morihiro (NTT DOCOMO, INC., Japan); of these trials is to test new use cases, create new 5G applications Satoshi Suyama (NTT DOCOMO, INC., Japan); and services, and facilitate the transition to pre-commercial trials. Yukihiko Okumura (NTT DOCOMO, INC., Japan) In this workshop, we invite key players from industry and WS-D-6 Development and Field Trial of Low-SHF-Band academia in order to share and discuss their status on proof of C-RAN Massive MIMO System for 5G concepts (experimental trials) of 5G radio access technologies Yasushi Maruta (NEC Corporation, Japan); and 5G system trials toward commercialization in 2020. Kenichiro Yamazaki (NEC Corporation, Japan); Toshifumi Sato (NEC Corporation, Japan); Tatsuki WS-D-1 5G System Trials in Japan Okuyama (NTT DOCOMO, INC., Japan); Jun Yukihiko Okumura (NTT DOCOMO, INC., Japan); Mashino (NTT DOCOMO, INC., Japan); Satoshi Morihiko Minowa (FUJITSU LIMITED, Japan); Suyama (NTT DOCOMO, INC., Japan); Yukihiko Satoshi Suyama (NTT DOCOMO, INC., Japan) Okumura (NTT DOCOMO, INC., Japan) WS-D-2 Huawei's 5G PoC Activities and Technology WS-D-7 A 28GHz Compact Hybrid Beamforming System for Challenges towards Beyond 5G Wideband Massive MIMO in 5G Masao Akata (Huawei Technologies, Japan) Hi deyuki Nakamizo (Mitsubishi Electric WS-D-3 R& D Activities for 5G in IEICE Technical Committee Corporation, Japan); Hifumi Noto (Mitsubishi on Radio Communication Systems in FY2017 - Multi- Electric Corporation, Japan); Kenichi Tajima Antenna Technologies and Advanced Modulation/ (Mitsubishi Electric Corporation, Japan); Manabu Multiple Access Schemes - Sakai (Mitsubishi Electric Corporation, Japan); Fumiaki Maehara (Waseda University, Japan); Naofumi Iwayama (Mitsubishi Electric Corporation, Hidekazu Murata (Kyoto University, Japan); Tomoaki Japan); Nobuhide Nonaka (NTT DOCOMO, INC., Ohtsuki (Keio University, Japan); Yukitoshi Sanada Japan); Satoshi Suyama (NTT DOCOMO, INC., (Keio University, Japan); Eisuke Fukuda (Fujitsu Japan); Jun Mashino (NTT DOCOMO, INC., Japan); Laboratories Ltd., Japan); Satoshi Suyama (NTT Atsushi Okamura (Mitsubishi Electric Corporation, DOCOMO, INC., Japan); Tomoya Tandai (Toshiba Japan); Yukihiko Okumura (NTT DOCOMO, INC., Corporation, Japan); Toshihiko Nishimura (Hokkaido Japan) University, Japan); Tetsuya Yamamoto (Panasonic WS-D-8 Multi-beam massive MIMO without CSI estimation Corporation, Japan); Koichi Ishihara (NTT Kentaro Nishimori (Niigata University, Japan) Corporation, Japan); Kazushi Muraoka (NTT DOCOMO, INC., Japan); Shinsuke Ibi (Osaka University, Japan); Hiroshi Nishimoto (Mitsubishi Electric Corporation, Japan) [Lunch break]

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Tuesday, November 6 10:00-17:00 Tuesday, November 6 14:00-17:00 Room J Room 104 WS-J WS2-104 Trends of State-of-the-Art Measurement Technology An Example of Bilateral Collaborative Workshop from Organizer: Masahiro Horibe (National Institute of Advanced Grassroots Activity (Thailand-Japan Microwave, Industrial Science and Technology, Japan) TJMW) Organizers: Hiroshi Okazaki (NTT DOCOMO, Japan), Kenji Microwave and millimeter-wave measurements are demanded Itoh (Kanazawa Institute of Technology, Japan) from industry and scientific area for circuit performance test, on- wafer measurement, material characterization techniques. While This workshop will share all the attendees an example of reliable measurements are becoming more and more state-of-the- bilateral collaborative workshop from grassroots activity of Thai art, the traceability in an industrial characterization process and and Japanese microwave researchers. The workshop, Thailand- the extension to frequencies beyond 110 GHz are still open topics Japan Microwave (TJMW), is not a single shot event, it annually to the scientific and industrial community. Therefore, the aim of continues about ten years. TJMW does not intend to become a this workshop is to provide an overview of these current research premier conference such as IMS, EuMC, and APMC, but aims to areas and to present future directions in the field of microwave be a good place to give opportunities of presentation experience and millimeter-wave measurements. and networking, especially among young researchers and students. There are similar activities besides TJMW. Another WS-J-1 VNA Measurement Uncertainty example will be introduced in this workshop and discuss the Andrea Ferrero (Keysight Technologies) future of the bilateral and/or local collaborative workshop. WS-J-2 Millimeter-Wave Coaxial VNA and Power Sensor Calibration WS2-104-1 Resumption of Thailand-Japan Microwave Ken Wong (Keysight Technologies) T uptim Angkaew (Chulalongkorn University, WS-J-3 Millimeter-Wave VNA Characterization Using Thailand) Modulated Signals WS2-104-2 A Grassroots Tutorial for RF Power Transfer Jon Martins (Anritsu, Japan) Engineers WS-J-4 Material Characterization Overview Takashi Ohira (Toyohashi University of Technology, Yuto Kato (National Institute of Advanced Industrial Japan) Science and Technology & Osaka University, Japan) WS2-104-3 Recent TJMW Activities in Thailand [Lunch break] Prayoot Akkaraekthalin (King Mongkut's University WS-J-5 Material Measurement Application: Nano-Scale of Technology North Bangkok, Thailand) Measurement and Food Qualification WS2-104-4 Recent TJMW Activities in Japan Masahiro Horibe (National Institute of Advanced Hiroshi Okazaki (NTT DOCOMO, Japan) Industrial Science and Technology, Japan) WS2-104-5 Research Activities of IEEJ Investigating R&D WS-J-6 Seven Reasons Why You Should Choose Multiline Committees for Electromagnetic-wave Applications TRL for Wafer-Level System Calibration at mm- and Wireless Technologies Wave Frequencies Tadashi Kawai (University of Hyogo, Japan) Andrej Rumiantsev (MPI Corporation, Germany) WS-J-7 Wafer-Level Measurements from 110 GHz to THz Choon Beng Sia (FromFactor (Cascade Microtech)) WS-J-8 Precision and Reproducible On-Wafer Measurements at Millimeter-Wave Ryo Sakamaki (National Institute of Advanced Industrial Science and Technology, Japan) WS-J-9 EURAMET Planar Cal Project Karsten Kuhlmann (Physikalisch-Technische Bundesanstalt (PTB), Germany)

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Tuesday, November 6 10:00-13:00 Tuesday, November 6 14:00-17:00 Room E Room E SC1-E SC2-E Reconfigurable Synthesized Transmission Line - a New Ultra High Resolution Millimeterwave and Microwave Ultra-Low-Cost Phase Control Unit for Phased Arrays Photonics Radars Organizer: Tzyh-Ghuang Ma (National Taiwan University of Science Organizers: Zhongxia Simon He (Chalmers University of and Technology, Taiwan) Technology, Sweden), Antonella Bogoni (CNIT, Italy) Sponsorship: Financially sponsored by the Ministry of Science and Technology, Taiwan (partially). Range accuracy of traditional FMCW radar is proportional to Over the past two decades, synthesized (or artificial) transmission the bandwidth of the frequency sweep, for instance, several lines (STLs) have emerged as a promising candidate for a variety of millimeter (mm-wave) range accuracy is expected for a 20 GHz microwave applications using PCB as well as integrated circuit (IC) bandwidth FMCW system. With the advance of digital signal technologies. Conventionally, STLs with slow-wave property are deemed processing and semiconductor processing, other radar topologies as a powerful technique for circuit size miniaturization, while those with right-/left-handed properties are a perfect tool for fulfilling multiband can be implemented at millimeterwave band (60-200GHz). Using designs with non-integer frequency ratio between bands. novel topologies such as OFDM radar a range accuracy of several Over the past ten years, this topic has further been explored in depth micrometer can be achieved at W-band carrier frequency. This by the short course organizer. The results, disclosed in his recent Wiley- course would introduce several non-FMCW radar topologies, IEEE press book, reveal that STLs can function more than one may expect if its phase can be properly controlled. A series of heterogeneous including OFDM radar, DSSS (direct sequence spectrum spread) integrated phased arrays with dramatically different electrical properties radar and exhibit system demonstration of mm-wave radar with in separate frequency bands are fulfilled. micrometer accuracy. Several industry applications will be Recently, the organizer's group further explored the reconfigurability mentioned in the course as well. of STL by introducing varactor diodes as control unit to fully exploit its Taking advantages of microwave photonic, advanced phase response at single/multiple frequency bands, which turned out to result in a breakthrough in developing low-cost phase control unit for distributed antenna system (DAS) can be built which may future phased antenna arrays. It can function as an on-off switch, a n-bit enhance the resolution of radar system. digital phase shifter, or even a continuous (analog) phase tuning element. Lecturers: Zhongxia Simon He (Chalmers University of Technology & When compared with commercial off-the-shelf phase shifters, this new Microwave Electronic Lab, Sweden); Antonella Bogoni sort of phase control unit provides similar power handling capability and (CNIT, Italy); Serafino Giovanni (CNIT, Italy) hence linearity with negligible dc power consumption; yet, its cost is a hundred times less than the commercial ones, indeed an impressive cost Course Syllabus: reduction. [Part I] The recent progress of this sort of phase control unit, namely the Radar accuracy improvement with new radar waveforms phase reconfigurable synthesized transmission line (PRSTL), will be - Basic idea of FMCW radar and the typical performance of introduced in details. Lecturers: Tzyh-Ghuang Ma (National Taiwan Univ. of Science and FMCW systems Technology, Taiwan); Huy Nam Chu (National Taiwan Univ. of - Techniques for improve FMCW range accuracy Science and Technology, Taiwan) - Introduction of OFDM Radar and its performance analysis Course Syllabus: - Demonstration of micrometer accuracy radar system at mm- 1. Basis of periodic and non-periodic synthesized transmission lines wave band a. Design concept b. Formulation and synthesis principles - New industrial applications enabled by high accuracy mm- 2. Multi-operational mode synthesized lines and its applications to wave radars heterogeneous integrated phased arrays [Part II] a. Principle of Multi-functional STLs Distributed antenna systems (DAS) based on microwave b. Application as dual-functional retrodirective array photonics c. Application as beam-switching/phase conjugating array 3. Phase reconfigurable synthesized transmission lines - Improve radar accuracy using distributed antenna system a. Design basis concept. b. Examples Objectives and Outcomes: 4. Applications as low-cost phase control unit to multi-beam beam- - Understanding of FMCW range accuracy limitation and forming networks a. Extended 4 x 4 Butler matrix with 16 beams approach of performance improvement b. Reconfigurable power divider and its applications to multi- - Understanding of operational principle of OFDM radar beam phased array - Understand the expected performance and limitation using 5. Summary and discussion different radar topologies Objectives and Outcomes: - Microwave photonics and advanced DAS radar system [Objectives] - To provide a comprehensive understanding of the evolution of multi-functional synthesized transmission lines - To provide a clear picture of design principles of phase reconfigurable synthesized transmission lines - To provide the techniques to implement this simple yet low-cost solution as a replacement of commercial phase shifters in modern phased arrays [Outcomes] - To impact future 5G antenna array and microwave component designs with this new break-through

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Tuesday, November 6 10:00-17:00 Tuesday, November 6 10:00-17:00 Room K Room 103 SC-K SC-103 Practical Evaluation of MIMO Antenna Bits2Waves - Building a 16 QAM Radio by Hand in One Day Organizer: Ryo Yamaguchi (SOFTBANK Corp., Japan) Organizer: David S. Ricketts (North Carolina State University, Raleigh, NC, USA) MIMO technology has been introduced to various wireless systems due to its capabilities of enhancing the data-rate without Bits2Waves is a 1-day experience on building your own expanding the frequency bandwidth. Since the MIMO has been modern, digital radio. You will learn how modern radios work, mainly studied in a viewpoint of the signal processing, some of from communication theory to fabricating microwave PCBS to the initial works have neglected the realistic characteristics of the measurements with our mini-VNA. You will design, construct, antenna and microwave circuits that are essential for the wireless measure, and demonstrate a 16 QAM wireless transmitter at 950 systems. In contrast, understanding MIMO theory is somewhat MHz. The participants will design a Wilkinson combiner, a difficult for the antenna / microwave engineers, and this results branchline coupler, a double balanced mixer, a power amplifier misuse of the equation of the correlation coefficient for example. and an antenna in the morning by forming teams of 5 people (one This short course aims to provide knowledge and know-how of circuit element each). During the afternoon, participants will MIMO antenna evaluation, i.e. a) impact of antenna performance fabricate their designs and test each component, and then their on MIMO system, b) MIMO simulation considering antenna complete radio. A 16QAM baseband I and Q signal will be characteristics, and c) MIMO experiment using realistic antennas. provided as well as a 10 dBm 950 MHz LO. Using a receiver Furthermore, the state-of-the-art studies on the MIMO antenna is provided by the organizers, the participants will test their full presented for understanding how this knowledge is actually used. radio, including optimizing eye diagrams and error-vector- This course will give an opportunity for antenna / microwave magnitude (EVM) of their radio. For more information please engineers to start or extend the research and development related visit http://rickettslab.org/bits2waves/apmc2018/. All materials to MIMO antenna systems. are provided, including design software. Participants must bring Lecturer: Naoki Honma (Iwate University, Japan) their own 64 bit laptop. Course Syllabus: Lecturer: David S. Ricketts (North Carolina State University, 1. Introduction to MIMO antennas and its evaluation Raleigh, NC, USA) 2. MIMO signal model and capacity Course Syllabus: 3. Impact of antenna characteristics on MIMO system 1. Introductory lecture 4. Numerical evaluation of MIMO antennas 2. Design of radio 5. Experimental evaluation of MIMO antennas 3. Fabrication and test of radio components 6. Practical technique and implementation of MIMO antenna 4. Testing of radios [Lunch break will be taken sometime between 11:30 and 14:00] [Lunch break will be taken sometime between 11:30 and 14:00]

Objectives and Outcomes: [Attention] The attendees can understand three important things, i.e. a) Pre-registration is required for this short cource. Please see the impact of antenna performance on MIMO system, b) MIMO detail information: simulation considering antenna characteristics, and c) MIMO http://rickettslab.org/bits2waves/apmc2018/ experiment using realistic antennas. Contact address: Also, this course will give an opportunity for antenna / [email protected] microwave engineers to start or extend the research and development related to MIMO antenna system.

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15:30 - 17:10 Friday, November 9 Room D In the closing session, we will introduce the efforts being done X-band Compact Weather Radars, in Kansai area as an attempt to explore new application fields of - Observation Examples Using Multiple Weather Radars - microwave technology. As applications of microwave for other ･Medical Applications than communication and broadcasting, very unique efforts are 01 Prof. Tohru Tani (Shiga University of Medical Science, being made in Kansai area. They are advanced radar technology Shiga, Japan) for remote sensing, application of microwave technology to Microwave Application to the Medical Field, medical surgery, and application to microwave chemical reaction. - Surgery Assisting Devices and Magnetic Resonance This time, we will introduce our approaches to these three fields. Compatible Energy Devices - In radar technology, the MU-radar that observes wind in the 02 Dr. Shigeyuki Naka (Department of Surgery, Shiga middle and upper atmosphere using a phased array installed in University of Medical Science, Shiga, Japan & Department Shigaraki, and technology to observe rainfall three-dimensionally of Surgery, Hino Memorial Hospital,Shiga, Japan) by connecting a plurality of X-band small radars in a network, First Clinical Application of Microwave Surgical Device, will be explained. - Cutting-Edge Technology from Japan - In medical application, development of microwave forceps, ･Chemical Applications and experiments of incision while performing hemostasis and 01 Prof. Yuji Wada (Tokyo Institute of Technology, Tokyo, practical examples of surgery, will be introduced. Japan) In chemical application, the effects of microwave heating in Effects of Microwaves on Chemical Reactions Realized in chemical reaction and examples of nonthermal effect by Industrial Processes microwave, and a chemical plant for mass-production using 02 Dr. Masahiro Kanno (Microwave Chemical Co., Ltd., microwave heating actually built in Osaka, will be explained. Osaka, Japan) Following the closing session, award ceremony will be held Standardization of Microwave-Based Manufacturing and closing remarks will be given. Factories

Special talks Award Ceremony Current Status and Future Vision of Microwave Applications The winners of APMC 2018 Prize and APMC 2018 Student in Kansai Area Prize will be announced and commended for their excellent ･Radar Sensing Technologies achievements. 01 Prof. Mamoru Yamamoto (RISH, Kyoto Univ., Kyoto, Japan) Closing Remarks Explore the Earth's Atmosphere by MU Radar and APMC 2018 Steering Committee Chair, Prof. Toshio Ishizaki Equatorial Atmosphere Radar will wrap up the four days of commemorable 30th APMC. 02 Dr. Takuo Kashiwa (Furuno Electric Co., Ltd., Hyogo, Japan)

STUDENT AND YOUNG ENGINEER DESIGN COMPETITIONS

9:00 - 17:00 Thursday, November 8 Room A APMC Student and Young Engineer Design Competitions based on the measurement results. Please visit “http://www. (SDC) will be held during APMC 2018. All the students and apmc2018.org/competition.html” for the detailed information. young engineers in the microwave engineering are solicited to The competitions will be held on November 8, 2018 at Room A. challenge the following competitions. (* Competitions of Track A and D may start in the afternoon. Track A: Active (high efficiency amplifier design) Detailed time schedule will be announced at the venue.) Track B: Passive (bandpass filter design) The winners will be awarded prizes. Track C: Wireless Power Transfer (WPT mini 4WD 400-cm Award ceremony will be held after the competition in the same drag race world championship) room on the same day in the evening. Track D: Transmission Line (artificial transmission line with APMC 2018 SDC are supported by Anritsu, Keysight large delay, low loss and small size) Technologies, Kikusui Electronics, and Rohde & Schwartz with Track A, B, and D are for students only, while Track C is for their measurement instruments. both students and young engineers. The winners will be selected EXHIBITION

The APMC 2018 Exhibition will take place in Room A on exhibition booths. In addition, the APMC 2018 University Poster November 7-9, where the APMC 2018 financial sponsors Exhibition will be provided in front of Room A for university ("Package Sponsors" and "Sole Sponsors"), as well as IEEE laboratories to present their latest research outcomes. MTT-S, EuMA, APMC 2019, and IEICE, will have their (Please refer to the APMC 2018 website for for further details.)

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ORGANIZING COMMITTEE STEERING COMMITTEE Chair: Chair: Ikuo Awai Emeritus Professor of Yamaguchi University and Toshio Ishizaki Ryukoku University CEO of Ryutech Vice Chairs: Vice Chairs: Takuo Kashiwa Furuno Electric Co., Ltd. Yohei Ishikawa Kyoto University Kenjiro Nishikawa Kagoshima University Noriharu Suematsu Tohoku University Naoki Shinohara Kyoto University Toshio Ishizaki Ryukoku University Members: Members: Nobuyuki Adachi Japan Radio Co., Ltd. Chun-Ping Chen Kanagawa University Jun Chie Keysight Technologies Kazuhiro Fujita Fujitsu Laboratories Ltd. Eiji Fujii Panasonic Corp. Takanobu Fujiwara Mitsubishi Electric Corp. Kiyoshi Hamaguchi NICT Masatake Hangai Mitsubishi Electric Corp. Yuichi Hasegawa Sumitomo Electric Device Innovations, Inc. Masato Haruta Advantest Corp. Akimasa Hirata Nagoya Institute of Technology Akimichi Hirota Mitsubishi Electric Corp. Jiro Hirokawa Tokyo Institute of Technology Yasushi Horii Kansai University Hiroshi Iwatsubo Murata Manufacturing Co., Ltd. Ryo Ishikawa The University of Electro-Communications Nobuyasu Kanekawa Hitachi, Ltd. Hirokazu Kamoda NHK Takuo Kashiwa Furuno Electric Co., Ltd. Takatoshi Kato Murata Manufacturing Co., Ltd. Yasuhisa Kawamoto Nippon Pillar Packing Co., Ltd. Tamio Kawaguchi Toshiba Corp. Shigeo Kawasaki JAXA Kunihiro Kawai NTT DOCOMO, INC. Masayuki Kimishima Advantest Laboratories Ltd. Masayuki Kimishima Advantest Laboratories Ltd. Yasuyuki Maekawa Osaka Electro-Communication University Takayuki Matsumuro Ryukoku University Kenichi Maruhashi NEC Corp. Tomohiko Mitani Kyoto University Kohji Mitani NHK Masataka Ohira Saitama University Masahiro Morikura Kyoto University Hiroshi Okazaki NTT DOCOMO, INC. Masahiro Muraguchi Tokyo University of Science Kensuke Okubo Okayama Prefectural University Tadao Nagatsuma Osaka University Satoshi Ono The University of Electro-Communications Tetsuo Nakakawaji Mitsubishi Electric Corp. Takao Segawa Anritsu Corp. Hiroshi Nakamura NTT DOCOMO, INC. Kouji Shibata Hachinohe Institute of Technology Yuichi Nakamura NEC Corp. Takashi Shimizu Utsunomiya Univeresity Masashi Nakatsugawa NTT Advanced Technology Corp. Ryosuke Suga Aoyama Gakuin University Shoichi Narahashi Setsunan University Masaya Tamura Toyohashi Institute of Technology Yasushi Nishimori Furuno Electric Co., Ltd. Osamu Tsujii Keysight Technologies Hanako Noda Anritsu Corp. Tetsuya Ueda Kyoto Institute of Technology Toshikazu Sekine Gifu University Xiaolong Wang Jilin University Toshimasa Sekino Rohde & Schwarz Japan Yangjun Zhang Ryukoku University Tetsuomi Sogawa NTT Corp. Yoshinori Suzuki ATR TECHNICAL PROGRAM COMMITTEE Masaharu Takahashi Chiba University Kazuyoshi Yahagi Toshiba Infrastructure Systems & Solutions Corp. Chair: Ei Yano Fujitsu Laboratories Ltd. Atsushi Sanada Osaka University Secretaries: Vice Chairs: Masataka Ohira Saitama University Atsushi Fukuda NTT DOCOMO, INC. Takayuki Matsumuro Ryukoku University Eisuke Nishiyama Saga University

ADVISORS Members: Masayoshi Aikawa Takuji Arima Tokyo University of Agriculture and Technology Masami Akaike Seizi Hidaka Murata Manufacturing Co., Ltd. Ikuo Awai Takuichi Hirano Tokyo City University Yasutake Hirachi Shintaro Hisatake Gifu University Shigekazu Hori Shotaro Ishino Furuno Electric Co., Ltd. Jui-Pang Hsu Suguru Kameda Tohoku University Osami Ishida Tamio Kawaguchi Toshiba Corp. Yohei Ishikawa Shigekazu Kimura Fujitsu Laboratories Ltd. Masanobu Itoh Ryuji Kuse Kumamoto University Susumu Kitazume Tzyh-Ghuang Ma National Taiwan University of Science and Yoshio Kobayashi Technology Tohlu Matsushima Kyushu Institute of Technology Moriji Kuwabara Yohei Morishita Panasonic Corp. Iwao Matsumoto Keiichi Motoi NEC Corp. Kazuhiro Miyauchi Mizuki Motoyoshi Tohoku University Koji Mizuno Takahiro Nakamura Hitachi, Ltd. Shizuo Mizushina Junji Satoh Panasonic Corp. Norihiko Morinaga Hidehisa Shiomi Osaka University Makoto Nagao Yasunori Suzuki NTT DOCOMO, INC. Shigebumi Saito Yuki Tanaka Panasonic Corp. Keiji Tachikawa Zuo-Min Tsai National Chung Cheng University Tadashi Takagi Qiaowei Yuan National Institute of Technology, Sendai College Yoichiro Takayama Tsukasa Yoneyama PRIZE AWARD COMMITTEE AUDITORS Chair: Takao Kuki Kokushikan University Takashi Ohira Toyohashi University of Technology Iwao Matsumoto M-RF Co., LTD. INTERNATIONAL STEERING COMMITTEE Chair: Atsushi Sanada Osaka University

Vice Chairs: Kenji Itoh Kanazawa Institute of Technology Hiroshi Okazaki NTT DOCOMO, INC.

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APMC 2018 REVIEWERS Badrul Hisham Ahmad Yuki Fukumoto Akhilesh Jain Kwai-Man Luk Shilong Pan Hiroyuki Toda Seungyoung Ahn Takeshi Fukusako Reynold Kagiwada Tzyh-Ghuang Ma George Papaioannou Takeshi Toda Tahsin Akalin Jun Fukushima Sungtek Kahng Zhewang Ma Luca Perregrini Maniwa Toru M Jaleel Akhtar Shunichi Futatsumori Takana Kaho Mohammad Madihian Ajay Kumar Poddar Yoshitaka Toyota Arokiaswami Alphones Amir Galehdar Hirokazu Kamoda Yasuyuki Maekawa Ramesh K. Pokharel Shuntaro Tsubaki Shuhei Amakawa Alessandro Galli Haruichi Kanaya Ferran Martin Maria Pour Mikio Tsuji Giandomenico Amendola Alessandro Garufo Atsushi Kanno Kenichi Maruhashi Rüdiger Quay Yasuhide Tsuji Michitaka Ameya Apostolos Georgiadis Nikolaos V. Kantartzis Tamami Maruyama Zbynek Raida Yasuhiro Tsunemitsu Iltcho Angelov Roberto Gómez-García Takuo Kashiwa João Matos Karun Rawat Tetsuya Ueda Daisuke Anzai Xun Gong Tatsuya Kashiwa Tohlu Matsushima Kamala Prasan Ray Toru Uno Takahiro Aoyagi Sotirios Goudos Yuto Kato Shin-ichiro Matsuzawa Nick Ridler Thomas Ussmueller Masahiro Asada Jasmin Grosinger Tamio Kawaguchi Giuseppe Mazzarella Jae-Sung Rieh Abhaikumar Varadhan Paolo Baccarelli Hiroshi Hamada Kunihiro Kawai Francisco Medina Luca Roselli Deepa Venkitesh Masuduzzaman Bakaul Haewook Han Tadashi Kawai Adam Mehr Amr Safwat Guoan Wang Basari Basari Liang Han Yuki Kawakami Chinchun Meng Chinmoy Saha Julian L Webber Santanu Kumar Behera Masatake Hangai Shigeo Kawasaki Wolfgang Menzel Kamlesh Sainath Withawat Sujoy Biswas Katsushige Harima Yoshiki Kayano Naobumi Michishita Kazuyuki Saito Withayachumnankul Pierre Blondy Raheel Maqsood Hashmi Eric Kerherve Tetsuyuki Michiyama Kunio Sakakibara Peng Wen Wong Vicente Boria Yuichi Hayashi Dmitry Kholodnyak Tomohiko Mitani Kamal Samanta Denchai Worasawate Maurizio Bozzi Wolfgang Heinrich Kazunari Kihira Moriyasu Miyazaki Atsushi Sanada Chung-Tse Michael Wu Guillaume Callet Su Hieng Tiong Nobuyoshi Kikuma Maya Mizuno Saikat Sarkar Ke Wu Madhumita Chakravarti Makoto Higaki Bumman Kim Akhilesh Mohan Ai-ichiro Sasaki Hiroyoshi Yamada Suramate Chalermwisutkul Takashi Hikage Choul-Young Kim Priyanka Mondal Junji Sato Wataru Yamada Matthieu Chatras Takuichi Hirano Ihn Seok Kim Yasuo Morimoto Masaru Sato Ryo Yamaguchi Chi-Feng Chen Toshiro Hiratsuka Jaeyoung Kim Hisashi Morishita Michael Schlechtweg Satoshi Yamaguchi Chun-Ping Chen Jiro Hirokawa Jeong-Hwan Kim Isao Morohashi Norhudah Seman Kazuya Yamamoto Qiang Chen Akira Hirose Hideaki Kimura Mizuki Motoyoshi Mohammad S. Sharawi Manabu Yamamoto Wenhua Chen Takashi Hisakado Yuichi Kimura Manisha Mujumdar Mahendra Mohan Sharma Shinichiro Yamamoto Jin Cheng Shintaro Hisatake Takaaki Kishigami Sho Muroga Jun Shibayama Tsunayuki Yamamoto Kwok-keung (Michael) Soncheol Hong Mitsuyoshi Kishihara Osamu Muta Tetsu Shijo Koji Yamanaka Cheng Songcheol Hong Naoki Kita Tomoaki Nagaoka Hitoshi Shimasaki Shingo Yamanouchi Hsien-Chin Chiu Wei Hong Yoshinori Kogami Deepak Nagarkoti Takashi Shimizu Takashi Yanagi Keizo Cho Naoki Honma Yoshihiko Konishi Tadao Nagatsuma Shintaro Shinjo Tao Yang Jun H. Choi Satoshi Hori Keisuke Konno Toshifumi Nakatani Keisuke Shinohara Kenichiro Yashiro Qing-Xin Chu Masahiro Horibe Ashwini Kotrashetti Sangwook Nam Hidehisa Shiomi Traianos Yioultsis Aanandan Ck Yasushi Horii Monai Krairiksh Shoichi Narahashi Hideyuki Sotobayashi Naruto Yonemoto Paolo Colantonio Tzyy-Sheng Jason Horng Deepti Das Krishna Kenjiro Nishikawa Rick Sturdivant Satoshi Yoshida Alessandra Costanzo Yafei Hou Hiroshi Kubo Kengo Nishimoto Noriharu Suematsu Takeshi Yoshida Paolo S. Crovetti Shuohung Hsu Nobuhiro Kuga Toshihiko Nishimura Ryosuke Suga Hiromichi Yoshikawa Hiroyuki Deguchi Zhirun Hu Karsten Kuhlmann Masateru Nishioka Toshihide Suzuki Toshihiko Yoshimasu Sebastian Diebold Naohiko Iai Pavan Kumar Eisuke Nishiyama Yasunori Suzuki Qiaowei Yuan Koushik Dutta Kazutaka Inoue Futoshi Kuroki Keisuke Noguchi Alex Takacs Hidenori Yukawa Kimberley W. Eccleston Takao Inoue Ryuji Kuse Hideyuki Nosaka Kazuaki Takahashi Sang-Won Yun Akira Enokihara Masataka Irie Hai-Young Lee Masataka Ohira Satoshi Takahashi Miao Zhang Satoshi Fujii Ryo Ishikawa Jae Seung Lee Shinichiro Ohnuki Toru Takahashi Lei Zhu Mitoshi Fujimoto Shotaro Ishino Tim Lee Minoru Okada Shigeki Takeda Herbert Zirath Takafumi Fujimoto Toshio Ishizaki Changzhi Li Yoshinobu Okano Nobuyasu Takemura Fitri Yuli Zulkifli Yoshiyuki Fujino Nobuyuki Itoh Long Li Hiroshi Okazaki Takayuki Tanaka Theodoros T. Zygiridis Masayuki Fujita Tatsuo Itoh Wei-Yu Li Kensuke Okubo Yuki Tanaka Toru Fukasawa Yasushi Itoh Jenshan Lin Michael Ong Makoto Taromaru Atsushi Fukuda Arne F Jacob Changjun Liu Ichiro Oshima Smail Tedjini

APMC 2018 Secretariat c/o Real Communications Corp. 3F Shimmatsudo S Bldg., 1-409 Shimmatsudo, Matsudo 270-0034, Japan E-mail: [email protected] http://www.apmc2018.org/

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APMC2018 54 MEMO_1k.indd 38 2018/10/26 11:18:55 CONFERENCE AT A GLANCE

11/6 (Tue) Room B1 Room B2 Room C1 Room C2 Room D 10:00 WS-B1 WS1-B2 WS1-C1 WS-C2 WS-D RF Front End Modules for 4G/5G mm-Wave GaN for 5G Applications Advances in RF Wireless Power Transfer Wireless Power Transfer in Asia Proof of Concepts of 5G Radio Access Applications and Energy Harvesting Techniques Technologies and 5G System Trials 13:00 Lunch 14:00 WS2-B2 WS2-C1 Recent Progress of Terahertz Sources for Industrial Wireless Applications, 17:00 Advanced Aapplications Standardizations and Technologies Room J Room 104 Room E Room K Room 103 10:00 WS-J SC1-E SC-K SC-103 Trends of State-of-the-Art Measurement Reconfigurable Synthesized Practical Evaluation of MIMO Antenna Bits2Waves – Building a 16 QAM Radio Technology Transmission Line – Ultra-Low-Cost Phase by Hand in One Day Control Unit for Phased Arrays 13:00 Lunch 14:00 WS2-104 SC2-E An Example of Bilateral Ultra High Resolution Collaborative Workshop Millimeterwave and from Grassroots Activity (Thailand-Japan Microwave Photonics Radars 17:00 Microwave, TJMW) Welcome Reception (Banquet Hall Sakura) (17:30-19:30)

11/7 (Wed) Room A Room B1 Room B2 Room C1 Room C2 Room D Room K Room 103 8:30 WE1-B1 WE1-B2 WE1-C1 WE1-C2 WE1-D WE1-K WE1-103 Printed Antennas and Innovative Filter Banks, Special Session: Transmitting and Advances in Power Special Session: Special Session: Arrays Multiplexers, and Micromachined Terahertz Receiving Elements for Amplifier Design Research and Trends of 5G Multiband Filters Systems - A New WPT and RFID systems Techniques Development of Space Technologies in Heterogeneous Integration and Satellite Communi- Asia-Pacific Region Platform enabling the cation System commercialization of the THz frequency spectrum (M3TERA) 10:10 WE1-IF Break 10:30 Interactive Forum I (10:00-11:30) WE2-B1 WE2-B2 WE2-C1 WE2-C2 WE2-D WE2-K WE2-103 Antennas for Wireless Advances in Theory and Metastructures and Rectifiers and Rectennas Power Amplifiers and Adaptive Techniques for Special Panel Session: Application Design for Filters and Microstructures for Signal Generator Improved Spectrum Women’s Excellent Group Delay Circuits Terahertz and Microwave Efficiency Talent in Engineering Applications 12:10 Lunch 13:30 APMC 2018 Opening - Special Talk & Keynote Address (Annex Hall) 15:30 Break 15:50 WE4-B1 WE4-B2 WE4-C1 WE4-C2 WE4-D WE4-K WE4-103 5G/Millimeter Wave Special Session: Metamaterials, EMBGs WPT and RFID Low Noise Amplifiers Terahertz, Millimeter- Special Session: Antenna Technologies Connected Vehicles for and FSSs I Applications wave and Microwave EuMA Special Session Advanced Safety and Photonics Applications Comfort Mobility 17:30 in 4G/5G and Beyond Young Professionals and Women in Engineering/Microwaves Reception (Banquet Hall Swan) (18:00-19:30)

11/8 (Thu) Room A Room B1 Room B2 Room C1 Room C2 Room D Room K Room 103 8:30 TH1-B1 TH1-B2 TH1-C1 TH1-C2 TH1-D TH1-K TH1-103 Antennas for Sensing Advanced Design of Special Session: Special Session: Advances in Power Special Session: Microwave Frequency/ Applications Filtering Power Dividers Terahertz Technologies Solar Power Satellite and Amplifiers I New Developments and Signal Control Circuits and Balanced Filters for Beyond 5G Mobile Related Microwave Technologies for Communications Technologies Space Applications 10:10 TH1-IF Break 10:30 Interactive Forum II (10:00-11:30) TH2-B1 TH2-B2 TH2-C1 TH2-C2 TH2-D TH2-K TH2-103 Antenna Arrays and Novel Filter Design Terahertz Active Devices Design and Characteri- Advances in Power Microwave Biomedical JSPS 188 Committee/ Beam-forming I Techniques Based on zation of Microwave Amplifiers II Applications JEMEA Special Session: Coupling Matrix Components Innovative Microwave Heating and Chemistry 12:10 Lunch 13:30 TH3-B1 TH3-B2 TH3-C1 TH3-C2 TH3-D TH3-K TH3-103 Antenna Arrays and Novel Tunable Millimeter-wave Devices EM Analysis and mmW Low Noise Beam Controlled Electromagnetic Beam-forming II Technologies and and Circuits Scattering Problems Amplifiers Communication Compatibility (EMC) I TH3-IF Structures Techniques and Radar/ Interactive Forum III Communication Systems 15:10 (14:00-15:30) Break 15:30 TH4-B1 TH4-B2 TH4-C1 TH4-C2 TH4-D TH4-K TH4-103 Applications of Novel Active Structures High-speed and Novel Wireless Systems Monolithic Receivers and System Techniques - Material, Electromagnetic Metasurfaces and Components Broadband Millimeter and Propagation Transmitters Component, Circuit, Compatibility (EMC) II and THz Wave Systems and Evaluation Aspects 17:10 APMC 2018 Banquet (The SODOH Higashiyama Kyoto) (18:40-21:00)

11/9 (Fri) Room A Room B1 Room B2 Room D Room J Room K Room 103 8:30 FR1-B1 FR1-B2 FR1-D FR1-J FR1-K FR1-103 Millimeter-wave Antenna Couplers and Dividers I Special Session: Special Session: High Frequency Oscillators Microwave Heating and Technologies Recent Advances in Silicon-Based mmW/THz Chemistry Metamaterial and Metasurfaces Technologies for Antenna Applications 10:10 FR1-IF Break 10:30 Interactive Forum IV (10:00-11:30) FR2-B1 FR2-B2 FR2-D FR2-J FR2-K FR2-103 Broadband and Multi-band Couplers and Dividers II Metamaterials, EMBGs and Radar Architectures, Signal Emerging III-V Devices/ Material Characterization Antennas FSSs II Processing, and Systems Circuits Techniques at Microwave and Millimeter-wave Frequencies 12:10 Lunch 13:30 FR3-B1 FR3-B2 FR3-D FR3-J FR3-K FR3-103 Smart and Reconfigurable Novel Technologies for Metamaterials, EMBGs and Radar Applications and Special Session: Microwave Measurement and Antennas Wireless Communication FSSs III Remote Sensing Advance in Numerical Simulation Sensing FR3-IF Systems Technology Does Not Stop ! - Interactive Forum V Technological Collaboration 15:10 (14:00-15:30) Brings a New World 15:30 Break APMC 2018 Closing and Award Ceremony (Room D) (15:30-17:10)

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APMC 2018 Nov. 6-9 Kyoto Japan NovemberAPMC 6-9, 2018, Kyoto International Conference2018 Center, Kyoto, Japan http://www.apmc2018.org/ PROGRAM BOOK

MAP OF Kyoto International Conference Center

Harmonious World Connected by Microwaves LOCATION OF KYOTO

Tokyo International Organizer and Sponsor Airpor（t Haneda） The Institute of Electronics Information and Communication Engineers (IEICE) of Japan 40 min. Bus 13 min. Supporter Osaka Train SAPPORO International 20 min. Ministry of Internal Affairs and Communications Airport（ Itami） 55 min. Subway Bus 30 min. Train Technical Sponsors KYOTO IEEE MTT-S, IEEE AP-S, European Microwave Association (EuMA), URSI, IEEE MTT-S Japan/Kansai/Nagoya Chapters, IEEE AP-S Kansai Joint 38 min. 2hr 10 min. 2hr 20 min. Chapter, IEICE Technical Committee on Microwaves, IEICE Technical Committee on Electronics Simulation Technology, IEICE Technical FUKUOKA (Kyoto-Nagoya) (Kyoto-Shinagawa) (Kyoto-Tokyo) 75 min. Bullet Train Bullet Train Bullet Train Train“Haruka” Committee on Microwave Photonics, IEICE Technical Committee on Integrated Circuits and Devices, IEICE Technical Committee on

28 min. 60 min. Electron Devices, IEICE Technical Committee on Antennas and Propagation, IEICE Technical Committee on Wireless Power Transfer, IEICE 75 min. Meitetsu Narita Bus 80 min. OSAKA TOKYO Express Train Express Train Bus Technical Committee on Short Range Wireless Communications, IEICE Technical Committee on Intelligent Transport Systems Technology, NAGOYA IEICE Technical Group on Terahertz Application Systems, Japan Institute of Electronics Packaging, Japan Society of Electromagnetic OKINAWA Kansai International Centrair International New Tokyo International Airport（Osaka） Airpor（t Nagoya） Airpor（t Narita） Wave Energy Applications, The Radiation Science Society of Japan, IEEJ Investigating R&D Committee on Advanced Technology for Progress the Electromagnetic Wave Application, IEEJ Investigating R&D Committee on Highly Secure-Reliable Wireless Networks, Japan Society for the Promotion of Science, 188th Committee on Electromagnetic-Field-Excited Reaction Fields