39th International Conference on Radar Meteorology TECHNICAL PROGRAM

16-20 September 2019 Nara, Japan 1

Foreword 39th International Conference on Radar Meteorology September 16th – 20th, 2019 Nara, Japan

The American Meteorological Society (AMS) Radar Meteorology Committee is pleased that our Japanese colleagues are hosting the 39th AMS Conference in Radar Meteorology in Nara, Japan. As far as we know this is the very first time for any AMS conference to be hosted in Asia. The AMS Radar committee has always been innovative and inventive being the first group who organized an AMS topical conference dating back 1947 in Cambridge, Massachusetts and we maintain the second-largest attendance among the individual AMS conferences.

At this point we would like to clarify the procedure to host an AMS conference outside of the United States. It is a challenging process and requires a minimum of three years effort when planning. Four years ago, our committee expressed the interest for the upcoming conference to be held outside the United States. Given the fact that the past Radar Meteorology conferences had been hosted several times in Canada and the European Conference on radar meteorology and hydrology is on the calendar since 2000, we invited several East Asian and South American countries for a bid to host the 39th Radar Meteorology conference. These counties are well-attended previous Radar Meteorology conferences and the AMS headquarters made a final decision among three proposals received. Logistics and the cost played an important role in discriminating between the two finalist countries. Once the final site is selected, the memorandum of understanding has been signed by the AMS and hosting organization.

There is no doubt that radar has a wide range of weather and climate applications, including saving countless lives through nowcasting severe weather events and improved hydrological prediction. Many East Asian countries are extremely vulnerable to such casualties and weather-related disasters. We anticipate that the scientists from East Asian countries who typically could not travel to the United States will be at the conference. Indeed, this was one of the many highlights when organizing this particular AMS conference in Japan. The AMS committee was delighted with the response, including a high number of abstract submissions spanning several East Asia counties. We can see the light of a successful conference, and we are thankful to the local organizing committee for hosting this historical event in Japan.

Ali Tokay

On behalf of AMS Radar Meteorology Conference Chair of AMS Committee on Radar Meteorology

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Foreword 39th International Conference on Radar Meteorology September 16th – 20th, 2019 Nara, Japan

On behalf of the Local Organizing Committee, I would like to warmly welcome you to the American Meteorology Society’s (AMS’s) 39th International Conference on Radar Meteorology (IRCM) in Nara, Japan.

Three score and two years ago, our predecessors brought forth a new conference dedicated to radar meteorology. Now we are engaged in the 39th conference, examining how we have made progress in radar meteorology.

The AMS’s conference on radar meteorology has not been held outside the United States for 12 years since the one held in Cairn, Australia in 2007. Considering the recent wide deployment of weather radars in Asian countries, and the fact that space-borne precipitation radars in the US-Japan joint missions of TRMM and GPM have been providing new epoch-making knowledge of global distribution of rain, it is altogether fitting and proper that we hold a radar conference in Asia. I believe that holding this conference in Nara enables many Asian meteorologists, in particular young scientists, who may not be able to attend a similar conference in the US or Europe, to exchange ideas during the conference and to contribute to the future development of radar meteorology in their own countries.

In the 8th century, Nara was the ancient capital of Japan. It was Japan’s first permanent capital and many of the core principles of Japanese culture seem to have their origins during this period. Because of this, Nara holds a unique and special significance to most Japanese people. I hope that you not only communicate actively with other participants of the conference but also tour the city and discover some distinctive aspects of Japanese culture that cannot be seen elsewhere. To this end, it was decided to leave some time open on Wednesday afternoon to allow attendees to explore the parks and shops, to view the many shrines and temples and to relax and refresh yourselves amid a pleasant and peaceful environment.

Our biennial conference is recognized as a premier event in radar meteorology. I hope that this conference will provide an ideal forum to obtain information about the latest developments, to exchange ideas, identify future trends and make contacts with the international radar meteorology community.

Finally, I would like to express my thanks to the members of the AMS’s Committee on Radar Meteorology, in particular Ms. Jennifer Ives and Drs. Scott Collis, Scott Ellis and Ali Tokay, for their suggestions and sharing their experiences of past conferences. Financial support from the National Institute of Information and Communications Technology (NICT), Japan Aerospace Exploration Agency (JAXA) and the National Research Institute for Earth Science and Disaster Resilience (NIED) are acknowledged.

We are delighted to host ICRM this year in Nara, and wish you all an enjoyable and successful week ahead!

Toshio Iguchi

Chair of the Local Organizing Committee

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©NASA

Contents

Sponsors & Exhibitors………………………………………………………………………………………2-3 General Information…………………………………………………………………………………………4-5 Floor Guide…………………………………………………………………………………………………...... 6 Program at a Glance…………………………………………………………………………………………..7 Session Program….………………………………………………………………………………………..8-34 MONDAY……………………………………………………………………………………………..…8-14 TUESDAY……………………………………………………………………………………………...15-22 WEDNESDAY…………………………………………………………………………………………23-24 THURSDAY……………………………………………………………………………………………25-31 FRIDAY………………………………………………………………………………………………...32-34 Radar Meteorology Conference Series…………………………………………………………………….35 Presenter Index……………………………………………………………………………………………36-38

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Local Organizing Committee Program Committee (Email: [email protected])  Chair:  Chair: Takeshi Maesaka, National Research Institute Toshio Iguchi, National Institute of Information for Earth Science and Disaster Resilience and Communications Technology (Current affiliation: ESSIC, University of Maryland) [Topic Chairs] Spaceborne Radar and Its Observation  Co-chairs:  Chair: Tomoo Ushio, Tokyo Metropolitan University Eastwood Im, Jet Propulsion Laboratory Nobuhiro Takahashi, Nagoya University  Co-chairs: Koyuru Iwanami, National Research Institute Nobuhiro Takahashi, Nagoya University for Earth Science and Disaster Resilience Kinji Furukawa, Japan Aerospace Exploration Agency  Secretary: Eiichi Yoshikawa, Japan Aerospace Phased Array Radar Technology and Its Exploration Agency Observation Yoshitaka Nakamura, Kobe City College of  Chair: Technology Robin Tanamachi, Purdue University Hiroshi Kikuchi, The University of Electro-  Co-chairs: Communication Jorge Salazar, The University of Oklahoma

 Member: Wind Profiler, Cloud Radar, and Non- Hiromi Nezu, National Institute of Information Hydrometeorological Radar and Communications Technology  Chair: Kosuke Yamamoto, Japan Aerospace Masayuki Yamamoto, National Institute of Exploration Agency Information and Communications Technology Koichiro Michimoto, OTOWA Electric Co., Ltd.  Co-chairs: Pavlos Kollias, Stony Brook University  Auditor: Takeshi Maesaka, National Research Institute New and Emerging Radar Technology for Earth Science and Disaster Resilience  Chair: Robert Palmer, The University of Oklahoma  Co-chairs: Sebastian Torres, National Oceanic and Atmospheric Administration

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Radar Networks, Quality Control, Processing Organizer and Software  Chair: AMS's Committee on Radar Meteorology Luca Baldini, National Research Council of Italy  Co-chairs: Evan Ruzanski, Vaisala Inc. Elena Saltikoff, Finnish Meteorological Institute Sponsoring institutions Hassan Al Sakka, LEONARDO Germany Gmbh Lindsey Richardson, Radar Operations Center (NWS/NOAA) Shinsuke Satoh, National Institute of Information and Communications Technology Christine Una, Delft University of Technology

Quantitative Precipitation Estimation and Hydrology National Institute of Information and  Chair: Communication Technology V Chandrasekar, Colorado State University  Co-chairs: Renzo Bechini, Arpa Piemonte

Microphysical Studies with Radars  Chair: Matthew Kumjian, Pennsylvania State University  Co-chairs: Marcus van Lier-Walqui, Columbia University Robert Schrom, Goddard Space Flight Center National Research Institute for Earth Science and (NASA) Disaster Resilience Mariko Oue, Stony Brook University

Organized Convection and Severe Phenomena  Chair: Karen Kosiba, Center of Severe Weather Research  Co-chairs: Micheal Bell, Colorado State University

Use of Radar Data for Nowcasting and Numerical Models Japan Aerospace Exploration Agency  Chair: Shingo Shimizu, National Research Institute for Earth Science and Disaster Resilience  Co-chairs: Ryohei Kato, National Research Institute for Earth Science and Disaster Resilience

Advisory Committee Riko Oki, Japan Aerospace Exploration Agency

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Sponsoring companies (Alphabetical order)

Exhibitors (Alphabetical order)

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Conference Venue All meeting sessions for the conference will be  Ice Breaker held at: Sunday, Sep. 15 17:00-18:30 @RH2 IRAKA - The Nara Kasugano International Forum,  Welcome Reception 101 Kasugano-cho, Nara City, Nara Prefecture Monday, Sep. 16 18:00-19:30 @RH2 630-8212, Japan.  Opening Ceremony Monday, Sep. 16, 9:00-9:30, @NH Conference badges and registration All those in attendance of the AMS conference  Excursion must register and wear the name badge We offer several guided excursion tours to associated with their registration package. experience Japan's ancient capital, Nara. All Please wear your badge in a viewable spot at tours include visits to UNESCO World all times during the conference. Those wearing Heritage Sites. The bus tours require a Guest badge are not permitted within any advanced registrations. For walking tours, we technical session taking place. Anyone wishing recommend pre-registration, but on-site to attend technical sessions must register and registration is also possible. pay. ◆ Bus Tour (1) Horyuji Temple The AMS Registration Desk is located at the Wednesday, Sep. 18, 13:00-17:15 entrance lobby. The AMS Registration Desk will ◆ Guided Walking Tours around Historic be open for registration on Sunday 15 Monuments of Ancient Nara September from 13:00-18:30, and Monday- Wednesday, Sep. 18, 13:00- Friday during the hours of the conference. *Three walking courses are planned.

◆ The Calling of the Deer Attendees who have registered for a full week Tuesday, Sep. 17, 7:40-8:20 package may attend all conference sessions, Thursday, Sep. 19, 7:40-8:20 exhibits, coffee breaks, poster viewings, *Participation fee: Free banquet and ceremony.

For more detail and reservation: Attendees who have registered for a one day https://cscenter.co.jp/icrm2019/excursions/ package may attend, for one calendar day,

admission to all conference sessions, exhibits,  Banquet coffee breaks, and poster viewing. Thursday, Sep. 19, 18:00-20:00, @Garden (if rainy @RH2) Conference events  Short Courses  Closing Ceremony All short courses will be held on Sunday, Sep. Friday, Sep. 20, 15:00-16:00, @NH 15. Course enrollment should be done via the registration form when registering. Presentation upload information - Total Presentation Time: 14 minutes. ◆ Spaceborne radar - 11 minutes for presentation + 3 minutes for Dr. Toshio Iguchi (National Institute of questions and answers. Information and Communications Technology) - Both computers with windows and mac are ◆ Fundamentals and New Trends of available. Dual-Polarized Phased Array Antennas for - Aspect ratio of projectors: 4:3 (a Weather Radar Applications presentation file with 16:9 aspect ratio is Dr. Jorge L. Salazar-Cerreño (The University available) of Oklahoma) ◆ Wind profiler < Setup > Dr. Masayuki Yamamoto (National Institute of - Store your presentation file of PDF or PPT Information and Communications Technology) (PPTX) in your USB flash memory. ◆ Open sources - Bring the USB flash memory to a speaker Dr. Scott M. Collis (Argonne National ready desk where both windows and mac Laboratory) computers are available for the upload. ◆ Applications of Dual-pol radar - Upload your presentation file by using the measurements computers. It is strongly recommended to Dr. Matthew R. Kumjian (Pennsylvania State upload one day before your session. University) - Check if your presentation file works 4

properly in the computer. It is desired to with the meeting. All communication should be check it also in a computer of your session appropriate for a professional audience room. including people of many different backgrounds. - Find session chairs in your session room Those who violate the standards of professional sufficiently earlier before your session and respectful conduct may be asked to leave begins, and let them know you show up. the meeting immediately and without refund, may not be considered for service on AMS < Note > Boards and Committees, and may be subject to It is recommended to embed your graphics or additional legal action. video clips on your presentation file. Otherwise, you may upload the graphics or video files with Harassment, intimidation, or discrimination your presentation. includes offensive verbal comments related to gender, sexual orientation, disability, physical appearance, body size, race, religion; sexual Poster presentations images in public spaces; deliberate intimidation, A poster board sizes are as below stalking, or following; harassing photography or recording; sustained disruption of talks or other events; inappropriate physical contact; and unwelcome sexual attention.

This statement is meant to cover all meeting- associated events, including those sponsored by organizations other than AMS but held in relation to AMS events. This includes the scientific program and exhibitions, as well as receptions, town hall meetings, and other informal or formal gatherings associated with AMS.

Any attendee who believes he or she may have witnessed or have been subjected to that - Poster board available: 0830am-0600pm violates professional and respectful behavior - Poster must be displayed: 1100am-0400pm should contact a senior member of the AMS - Presenter must show up: 0130pm-0300pm staff. This may be done by talking with any AMS staff (identified with a staff badge) or by sending < Setup > an e-mail to [email protected] - Bring your posters to your poster room. with the appropriate contact information. A - Find a poster board with an indication of senior AMS staff member will be in contact in a your presentation number. timely manner. (In the unlikely event a reply is - Remaining posters are removed after not received within 12 hours of sending an e- 0600pm. mail or leaving a voice-mail message, follow-up with an AMS staff member at the meeting is < Note > advised to ensure that the original message has Printing services are not available near the been received.) Anyone witnessing or conference venue. experiencing behavior that constitutes an immediate and serious threat, is advised to call 110 (police). Exhibits

All exhibits will be located in the first and The AMS takes any breach of professional second floors of the main building. We conduct at an AMS meeting or related function encourage you to visit the exhibit hall from 9 am very seriously. Attendees are encouraged to on September 16 to 2 pm on September 20. report any unprofessional conduct in the

knowledge that AMS staff members will do their Professional and respectful conduct at best to maintain the confidentiality of all parties AMS meeting etiquette to the extent possible while taking appropriate AMS is committed to safe and productive actions. In situations for which additional action meetings for all attendees. Harassment, is warranted, the AMS will cooperate fully with intimidation, or discrimination of any kind will not the appropriate authorities. be tolerated at any meeting or event associated

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Floor Guide ------◆ Main Building ◆ ------

1stFLOOR

2nd FLOOR 2nd

------◆ Annex Building ◆ ------

1stFLOOR

2nd FLOOR 2nd

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Program at a Glance TIME SUN, SEP. 15 MON, SEP. 16 TUE, SEP. 17 WED, SEP. 18 THU, SEP. 19 FRI, SEP. 20 TIME 7:30-8:00The Calling of the Deer The Calling of the Deer 7:30-8:00 8:00-8:30@Nara Park @Nara Park 8:00-8:30 8:30-9:00 8:30-9:00 9:00-9:30Opening Ceremony @NH 9:00-9:30 Session 5A Session 5B Session 9A Session 9B Session 11A Session 11B Session 15A Session 15B 9:30-10:00 9:30-10:00 Session 1 Topic D @NH Topic H @RH1 Topic E @NH Topic I @RH1 Topic A @NH Topic H @RH1 Topic B @NH Topic H @RH1 10:00-10:30Special Keynote @NH 10:00-10:30 10:30-11:00Coffee Break Coffee Break Coffee Break Coffee Break Coffee Break 10:30-11:00 11:00-11:30Session 2A Session 2B Session 6A Session 6B Session 10A Session 10B Session 12A Session 12B Session 16A Session 16B 11:00-11:30 11:30-12:00Topic B @NH Topic G @RH1 Topic C @NH Topic F @RH1 Topic F @NH Topic H @RH1 Topic B @NH Topic I @RH1 Topic C @NH Topic G @RH1 11:30-12:00 12:00-12:30 12:00-12:30 Lunch 12:30-13:00Lunch Lunch Lunch Lunch 12:30-13:00 13:00-13:30Short Courses 13:00-13:30 @CR5, CR6, CR7, CR8, RC 13:30-14:00Poster1 Poster2 Poster3 13:30-14:00 Session 17A Session 17B 14:00-14:30Topic A, D and I Topic B, G and H Topic C, E and F 14:00-14:30 Topic E @NH Topic I @RH1 @CR1-2 & CR3-4 @CR1-2 & CR3-4 @CR1-2 & CR3-4 14:30-15:00 14:30-15:00 Session 13B 15:00-15:30Session 3A Session 3B Session 7A Session 7B Excursion Session 13A 15:00-15:30 Topic F Closing Ceremony @NH Topic A @NH Topic I @RH1 Topic E @NH Topic I @RH1 Topic C @NH 15:30-16:00@CR5-6 15:30-16:00 16:00-16:30Coffee Break Coffee Break Coffee Break 16:00-16:30 Session 14B 16:30-17:00Session 14A 16:30-17:00 Session 4A Session 4B Session 8A Session 8B Topic G 17:00-17:30Topic D @NH 17:00-17:30 Topic E @NH Topic F @RH1 Topic A @NH Topic G @RH1 @CR5-6 Ice Breaker 17:30-18:00 17:30-18:00 @RH2 18:00-18:30 18:00-18:30 Welcome Reception 18:30-19:00 18:30-19:00 @RH2 Banquet 19:00-19:30 @Garden (if rainy RH1) 19:00-19:30 19:30-20:00 19:30-20:00

TOPICS ORAL POSTER TOTAL ASpaceborne Radar and Its Observation 16 37 53 BPhased Array Radar Technology and Its Observation 14 28 42 CWind Profiler, Cloud Radar, and NonHydrometeorological Radar 12 19 31 DNew and Emerging Radar Technology 10 20 30 ERadar Networks, Quality Control, Processing and Software 22 48 70 FQuantitative Precipitation Estimation and Hydrology 18 42 60 GMicrophysical Studies with Radars 18 36 54 HOrganized Convection and Severe Phenomena 22 44 66 IUse of Radar Data for Nowcasting and Numerical Models 24 51 75 TOTAL 156 325 481 7

*Terry James Schuur1,2,3, Erica Griffin1,2,3, Alexander Ryzhkov1,2,3 1. University of Oklahoma/Cooperative Instituite for Mesoscale MONDAY, SEP 16 Meteorological Studies, 2. NOAA/National Severe Stomrs Laboratory, 3. University of Oklahoma/School of Meteorology

[Session 1] 9:30-10:30 @NH 11:30 [Session 2B-03] Investigating snow aggregation Special Keynotes close to the melting layer using novel ground-based triple- frequency observations *Jose Dias Neto1, Stefan Kneifel1, Davide Ori1 9:30 [Session 1-01] An Early History of Tropical Measuring 1. University of Cologne Mission TRMM ―The First Satellite Borne Precipitation Radar― 11:45 [Session 2B-04] Estimation of Melting Layer Cooling Nobuyoshi Fugono Rate from Dual-Polarization Radar: Spectral Bin Model Former Director General of the Communications Research Simulations 1,2 1,2 Laboratory in Japan *Jacob Carlin , Alexander Ryzhkov 1. Cooperative Institute for Mesoscale Meteorological Studies, 2. University of Oklahoma 10:00 [Session 1-02] Personal Recollections of Radar Meteorology and the AMS Conference Roger M. Wakimoto [Poster1] 13:30-15:00 @CR1-2 & CR3-4 Former President of American Meteorological Society Spaceborne Radar and Its Observation University of California, Los Angeles

[Session 2A] 11:00-12:00 @NH 13:30 [Poster1-01] Global Drop Size Distribution observed by GPM/DPR Phased Array Radar Technology and Its *Moeka Yamaji1,2, Hiroshi G. Takahashi2, Takuji Kubota1, Riko Oki1, Atsushi Hamada3, Yukari N. Takayabu4 Observation 1. Japan Aerospace Exploration Agency, 2. Tokyo Metropolitan University, 3. University of Toyama, 4. University of Tokyo

11:00 [Session 2A-01] Development of Multi-Palameter 13:30 [Poster1-02] A statistical method for reducing Phased-Array Weather Radar (MP-PAWR) sidelobe clutter for the Dual-frequency Precipitation Radar *Masakazu Wada1, Fumihiko Mizutani1, Akiko Yamada1, Tomoo Ushio2, Hiroshi Hanado3, Katsuhiro Nakagawa3, Nobuhiro Takahashi4 onboard the GPM Core Observatory 1 2 3 1 1. Toshiba Infrastructure Systems & Solutions Corporation, 2. Tokyo *Takuji Kubota , Toshio Iguchi , Takeshi Masaki , Riko Oki Metropolitan University, 3. National Institute of Information and 1. Japan Aerospace Exploration Agency, 2. National Institute of Communication Technology (NICT), 4. Nagoya University Information and Communications Technology, 3. Remote Sensing Technology Center of Japan 11:15 [Session 2A-02] The Impact of a Wet Radome on Polarimetric Quality of Phased Array Weather Radars: 13:30 [Poster1-03] Evaluation of Velocity measurement Analysis and Calibration accuracy for Future Geostationary Spaceborne Doppler *Jorge L Salazar-Cerreno1 weather radar 1 1 1 1 1. Advanced Radar Research Center (ARRC), The University of Zhengxia Qin , *Xuehua Li , Jianxin He , Xiaodan Jian , Xianfeng 1 1 1 Oklahoma Zhou , Sihan Wang , Chengjun He 1. Chengdu university of information technology 11:30 [Session 2A-03] Airborne Phased Array Radar (APAR): The Next Generation of Airborne Polarimetric 13:30 [Poster1-04] Estimation of the top of the liquid layer Doppler Weather Radar from GPM/DPR *Nobuhiro Takahashi1 *Wen-Chau Lee1, Louis Lussier1, Vanda Grubišić1 1. Institute for Space-Earth Environmental Research, Nagoya 1. NCAR/EOL University

11:45 [Session 2A-04] Towards an Operational 13:30 [Poster1-05] Research on the method of low Demonstration of the First Full-Scale Polarimetric Phased- sidelobe pulse suppression of Geosynchronous orbital Array Radar 1,2 1,2 1,2 Doppler weather radar *Sebastian Torres , Tom Buckman , Christopher Curtis , Eddie 1 1 1 1 Forren1,2, Stephen Gregg1,2, Igor Ivic1,2, Rafael Mendoza2, David *Shunxian Tang , JianXin He , Rui Li , Hao Wang 1. Chengdu University of Information Technology Schvartzman1,2, Christopher Schwarz1,2, Danny Wasielewski2, Allen

Zahrai1,2 1. Cooperative Institute for Mesoscale Meteorological Studies, The 13:30 [Poster1-06] Current status of the calibration of the University of Oklahoma, 2. National Severe Storms Laboratory, NOAA GPM/DPR *Takeshi Masaki1, Toshio Iguchi2, Kaya Kanemaru2, Kinji Furukawa3, 1 3 3 [Session 2B] 11:00-12:00 @RH1 Naofumi Yoshida , Takuji Kubota , Riko Oki 1. Remote Sensing Technology Center of Japan, 2. National Institute Microphysical Studies with Radars of Information and Communications Technology, 3. Japan Aerospace Exploration Agency

11:00 [Session 2B-01] How are the melting layer properties 13:30 [Poster1-07] Radar-based Snowfall Estimates at associated with snow microphysics? Insights from Marquette, Michigan observations of multi-frequency radars and a dual- *Ali Tokay1,9, Walter Petersen2, David B. Wolff3, Clarie Pettersen5, polarized radar David Beacher7, Mark Kulie6, David Marks4,3, Jason Pippitt4,9, Matthew 8,2 *Haoran Li1, Dmitri Moisseev1,2 Wingo 1. Institute for Atmospheric and Earth System Research / Physics, 1. JCET/UMBC , 2. NASA/MSFC, 3. NASA/GSFC/WFF, 4. SSAI, 5. Faculty of Science, University of Helsinki, Finland., 2. Finnish SSEC/University of Wisconsion, 6. NOAA, 7. NOAA/NWS, 8. UAH, 9. Meteorological Institute, Helsinki, Finland. NASA/GSFC

11:15 [Session 2B-02] Melting Layer Ice Microphysical 13:30 [Poster1-08] Characteristics of ice over stratiform Processes in Winter Storms as Revealed by Quasi-Vertical rain: Global statistics from the Dual-frequency Profiles of Polarimetric WSR-88D Radar Data Precipitation Radar and the proposed retrieval scheme

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*Kamil Mroz1, Alessandro Battaglia1,3, Andrew Heymsfield5, Ann 13:30 [Poster1-19] Comparison of GPM DPR rain Fridlind2, Pavlos Kollias4 microphysics products with retrievals obtained using a 1. National Centre for Earth Observation, 2. NASA Goddard Institute self-consistent method for Space Studies, New York, NY, USA, 3. Earth Observation Science, Eugenio Gorgucci1, *Luca Baldini1, Mario Montopoli1, Elisa Adirosi1 Department of Physics and Astronomy, University of Leicester, 1. CNR - Institute of Atmospheric Sciences and Climate Leicester, United Kingdom, 4. School of Marine and Atmospheric Sciencies, Stony Brook University, Stony Brook, NY, USA, 5. National 13:30 [Poster1-20] Characteristics of Products Associated Center for Atmospheric Research, Boulder, Colorado with Path Attenuation Estimate After the Scan Pattern Change of the DPR Ka-band Radar 13:30 [Poster1-09] Onboard Calibration of Spaceborne 1,2 2 3,2 Radar Parameters Using Sea Surface Echo *Hyokyung Kim , Robert Meneghini , John Kwiatkowski 1. GESTAR/MSU, 2. NASA/GSFC, 3. Geroge Mason University *Kaya Kanemaru1, Toshio Iguchi1, Takeshi Masaki2, Takuji Kubota3

1. NICT, 2. RESTEC, 3. JAXA EORC 13:30 [Poster1-21] Constraining the deconvolution of 13:30 [Poster1-10] Heavy Ice Precipitation Band in an oversampled satellite microwave observations to enhance the spatial resolution of rain estimates Oceanic Extratropical Cyclone Observed by GPM/DPR: A 1 1 1 Case Study *ziad haddad , Sahra Kacimi , Svetla Hristova-Veleva 1. Jet Propulsion Laboratory, California Institute of Technology *Shizuka Akiyama1, Shoichi Shige1, Yamamoto K. Munehisa1, Toshio

Iguchi2 1. Graduate School of Science, Kyoto University, 2. National Institute 13:30 [Poster1-22] Microphysical characteristics of of Information and Communications Technology precipitation over Korean Peninsula based on long-term GPM databases 13:30 [Poster1-11] Overview of the GPM/DPR Wide Swath *Choeng-lyong Lee1, Geunhyeok Ryu2, GyuWon Lee1 Observation Experiment 1. Center for Atmospheric REmote sensing, Kyungpook National *Kosuke Yamamoto1, Kinji Furukawa1, Nobuhiro Takahashi2, Takuji University, 2. National Meteorological Satellite Center, Korea Kubota1, Kaya Kanemaru3 Meteorological Administration 1. Japan Aerospace Exploration Agency, 2. Nagoya University, 3. National Institute of Information and Communications Technology 13:30 [Poster1-23] A New Evaluation Method for Cloud Microphysics Schemes Using GPM Dual-frequency 13:30 [Poster1-12] Precipitation Characteristics in Coastal Precipitation RadarA New Evaluation Method for Cloud Area of Alaska Revealed from Spaceborne Radars Microphysics Schemes Using GPM Dual-frequency *Shunsuke Aoki1, Shoichi Shige1 Precipitation Radar 1. Graduate School of Science, Kyoto University *Shunji Kotsuki1, Kenta Kurosawa1, Kaya Kanemaru2, Koji Terasaki1, Takemasa Miyoshi1 13:30 [Poster1-13] Diurnal Cycle of Coastal Convection in 1. RIKEN Center for Computational Science, 2. National Institute of South China Sea and Modulation by Intraseasonal Information and Communications Technology Oscillation Observed by TRMM and GPM *Weixin Xu1, Steven Rutledge2, Kyle Chudler2 13:30 [Poster1-24] Microphysical Insights from GPM Dual- 1. Sun Yat-sen University, 2. Colorado State University frequency Precipitation Radar Observations *Xiaowen Li1, Liang Liao1, Robert Meneghini2, Takamichi Iguchi3, 13:30 [Poster1-14] Melting layer detection from the GPM Chuntao Liu4, Wei-Kuo Tao2 DPR measurements 1. Morgan State University/NASA GSFC, 2. NASA GSFC, 3. University *Takahisa Kobayashi1,2, Mistuharu Nomura1, Soichiro Sugimoto1, of Maryland, College Park/NASA GSFC, 4. Texas A&M, Corpus Christi Ahoro Adachi2 1. Central Research Institute of Electric Industry, 2. Meteorological 13:30 [Poster1-25] Assessing climatological precipitation Research Institute gradients derived using spaceborne radars in mountainous regions 13:30 [Poster1-15] Assessment of Dual-Frequency Radar *Masafumi Hirose1 for Retrieval of Snow Properties 1. Meijo University *Liang Liao1, Robert Meneghini2, Ali Tokay3, Hyokyung Kim1 1. Morgan State University, 2. NASA/Goddard Space Flight Center, 3. 13:30 [Poster1-26] The Development of the Ground-Based University of Maryland Baltimore County W-band Electronical-Scanning Cloud Profiling Radar with Digital Beam Foaming Technique for calibration and 13:30 [Poster1-16] Simulation of EarthCARE Doppler Validation of EarthCARE/CPR Velocity Measurements with NICAM: Effects of Doppler *Hiroaki Horie1, Hiroshi Hanado1, Yuichi Ohno1 Broadening and Folding 1. NICT *Yuichiro Hagihara1, Yuichi Ohno2, Hiroaki Horie2, Woosub Roh3, Masaki Satoh3, Takuji Kubota1, Riko Oki1 13:30 [Poster1-27] USING DUAL-FREQUENCY 1. JAXA, 2. NICT, 3. The University of Tokyo PRECIPITATION RADAR AND RADIOMETER DATA FOR SEA ICE MAPPING 13:30 [Poster1-17] Overview, Update and Science of the *Zoya Andreeva1, Alexander Shikov2, Maria Panfilova3, Kirill Ponur2, GPM Validation Network Radar Database Ilya Vinogradov 2, Maria Ryabkova 3, Vladimir Karaev3, Roman *Walt Petersen1, Todd Berendes2, Patrick N Gatlin1, David Marks3, Volgutov1 Jason Pippitt3, David Wolff4 1. State Research Center "Planeta" of Roshydromet (SRC Planeta), 2. 1. Earth Science Branch, NASA Marshall Space Flight Center, 2. Lobachevsky State University of Nizhni Novgorod (UNN), 3. Federal ITSC/University of Alabama in Huntsville, 3. Science Systems and Research Center Institute of Applied Physics of the Russian Academy Applications, Inc./NASA GSFC, 4. NASA Wallops Flight Facility/NASA of Sciences (IAP RAS) GSFC 13:30 [Poster1-28] Uncertainties in the estimation of 13:30 [Poster1-18] An improvement of the precipitation precipitation from GPM-DPR satellite over the Andesfrom detection method for the Dual-frequency Precipitation ground based Ka-band profiler perspective Radar onboard the Global Precipitation Measurement core *Jairo Michael Valdivia1, Shailendra Kumar1, Danny Scipión1, Yamina observatory (GPM/DPR) Silva1, Patrick Gatlin2, Walter Petersen2 *Atsushi Hamada1, Kaya Kanemaru2, Toshio Iguchi2 1. Geophysical Institute of Peru, 2. NASA Marshall Space Flight 1. University of Toyama, 2. National Institute of Information and Center Communications Technology 13:30 [Poster1-29] CG lightning activities and GPM/DPR flagHeavyIcePrecip during heavy rainfall events 9

*Kenji Suzuki1, Rimpei Kamamoto1, Yuki Kaneko2, Katsuhiro 1. Cooperative Institute for Mesoscale Meteorological Studies/The Nakagawa3 University of Oklahoma, 2. The National Severe Storms 1. Yamaguchi University, 2. Japan Aerospace Exploration Agency, 3. Laboratory/National Oceanic and Atmospheric Administration National Institute of Information and Communication Technology 13:30 [Poster1-41] Concept and Possible Configuration of 13:30 [Poster1-30] New global precipitation observation Troposphere-Adaptive Phased Array Weather Radar with pioneered by GPM/DPR Comb-Beam Transmission *Riko Oki1, Takuji Kubota1, Kinji Furukawa1, Yuki Kaneko1, Moeka *Eiichi Yoshikawa1,2, Tomoo Ushio2 Yamaji1, Kosuke Yamamoto1, Toshio Iguchi2, Yukari Takayabu3 1. Japan Aerospace Exploration Agency, 2. Tokyo Metropolitan 1. JAXA, 2. NICT, 3. The University of Tokyo University

13:30 [Poster1-31] Investigation of Drop Size Distribution 13:30 [Poster1-42] A Novel Super Resolution Algorithm for (DSD) of Mesoscale Convective System (MCS) with Squall Weather Radar Echo Based on Sparse Representation Line Through Global Precipitation Measurement (GPM) *Qiangyu Zeng1, Xing Zhang1, Jianxin He1, Zhao Shi1 Dual-frequency Precipitation Radar (DPR) Observations 1. CUIT Ziwei Zhu1, *Youcun Qi1 1. Institute of Geographical Sciences and Resources Research, 13:30 [Poster1-43] Signal Processing for Suppressing Chinese Academy of Sciences Mutual Interferences in a Multiple Weather Radar Environment 13:30 [Poster1-32] Cross-validation of CSU-CHIVO with *Taihei Uchida1, Eiichi Yoshikawa2, Hiroshi Kikuchi3, Naoto Takizawa1, GPM-DPR and ARM-CSAPR2 during RELAMPAGO Tomoaki Mega1, Tomoo Ushio1 *Ivan Arias1, V. Chandrasekar1 1. Tokyo Metropolitan University, 2. Japan Aerospace Exploration 1. Colorado State University Agency, 3. The University of Electro-Communications

13:30 [Poster1-33] Precipitation Microphysics of Tropical 13:30 [Poster1-44] A Preliminary Application of SystemVue Cyclones over the Western North Pacific Based on GPM On Weather Radar Simulation DPR Observations *QianYuChen Wang1, JianXin He1,2, Xu Wang1,2 *Hao Huang1, Fengjiao Chen2 1. ChengDu University Of Information Technology,China, 2. Key 1. Nanjing University, 2. Anhui Meteorological Information Centre Laboratory of Atmospheric Sounding,China

13:30 [Poster1-34] EarthCARE L2 cloud/precipitation 13:30 [Poster1-45] EAGLE radar: An extremely low-cost, retrieval algorithms multi-beam, rapid-scan X-band radar for weather radar *Kaori Sato1, Hajime Okamoto1 networks 1. Research Institute for Applied Mechanics, Kyushu University David J Bodine1, Clarice Dyson1,2, *Robert Palmer1,2, Boonleng Cheong1, Charles Nicholls3, Justin Miller3, Michihiro Teshiba4, Ayano 13:30 [Poster1-35] Development status of EarthCARE Ueki4 Cloud Profiling Radar 1. Advanced Radar Research Center, University of Oklahoma, 2. *Yuichi Ohno1, Hiroaki Horie1, Kinji Furukawa2, Hirotaka Nakatsuka2, School of Meteorology, University of Oklahoma, 3. Nanowave Yoshihisa Aida2, Yoshihiro Seki2, Kazuyuki Okada2, Kenta Maruyama2, Technologies, 4. Weathernews, Inc. Nobuhiro Tomiyama2, Satoshi Kusama2, Eiichi Tomita2 1. National Institute of Information and Communications Technology, 2. 13:30 [Poster1-46] The PX-10k: A polarimetric X-band Japanese Aerospace Exploration Agency transportable radar for rapid-scan weather observations *Boonleng Cheong1, David Bodine1, Clarice Dyson1, Robert Palmer1, 13:30 [Poster1-36] Cross validation of TEMPEST-D Charles Nicholls2, Justin Miller2 CubeSat observations using ground polarimetric radar 1. University of Oklahoma, 2. Nanowave Technologies observations and numerical weather model predictions over precipitating storms 13:30 [Poster1-47] THE ADVANCED COSINE NEIGHBOR *CHANDRASEKAR RADHAKRISHNAN1, CHANDRA V1, Steven C. ALGORITHM FOR TRUE WIND RETRIEVAL FROM Reising1 WEATHER RADARS 1. Colorado State University *Ashwin Raju D K1, B Arul Malar Kannan1 1. India Meteorological Department 13:30 [Poster1-37] The Sensitivity of Discrete Dipole Approximation to Hydrometeor Composition 13:30 [Poster1-48] Automatic Ground Clutter Identification Heterogeneity Technique based on Neural Networks 1 1 1 2 *Kwo-Sen Kuo1,2, Robert S Schrom2,3, Adrian M Loftus1,2, Ian S *Tomomi Aoki , Keiichi Yamaguchi , Koichiro Gomi , Takashi Murano , 2 2 2 2 Adams2, William S Olson2,4 Akiko Yamada , Satoshi Kida , Fumihiko Mizutani , Masakazu Wada 1. ESSIC, University of Maryland-College Park, 2. NASA Goddard 1. Toshiba Corporation, 2. Toshiba Infrastructure Systems & Solutions Space Flight Center, 3. Universities Space Research Association, 4. Corporation JCET, University of Maryland-Baltimore County 13:30 [Poster1-49] Development of Monostatic Antenna [Poster1] 13:30-15:00 @CR1-2 & CR3-4 System for W-band FMCW Cloud Radar *Tomohiro ARAI1, Kazuki SEKIYA1, Daichi MORI1, Kohei MORIKAWA1, New and Emerging Radar Technology Yohei KAWAMURA1, Toshiaki TAKANO1 1. Graduate School of Engineering, Chiba University

13:30 [Poster1-38] Obtaining the full scattering matrix with 13:30 [Poster1-50] Water vapor measurement using digital simultaneous H&V transmission radar terrestrial broadcasting waves *Valery V Melnikov1 *Seiji Kawamura1, Hiroshi Hanado1, Hiroki Ohta1, Shingo Shimizu2 1. Oklahoma University 1. National Institute of Information and Communications Technology, 2. National Research Institute for Earth Science and Disaster Resilience 13:30 [Poster1-39] New Textbook: Radar Meteorology, A First Course 13:30 [Poster1-51] Progress in Development of a Laser *Robert M Rauber1, Stephen W Nesbitt1 Radar with Long-Duration Frequency-Modulated Pulse for 1. University of Illinois at Urbana-Champaign Measuring Wind *Hiroshi Yamasuge1, Eiichi Yoshikawa2, Tomoo Ushio1, Shoken Ishii3, 13:30 [Poster1-40] A Novel ZDR Estimator for Improved Makoto Aoki3, Kazuki Hashimoto2 Measurement Accuracy from Weak Signals *Igor R. Ivic1,2 10

1. Tokyo Metropolitan University, 2. Japan Aerospace Exploration 1. National Central University, Taiwan, 2. Pacific Northwest National Agency, 3. National Institute of Information and Communications Laboratory, USA, 3. National Center for Atmospheric Research, USA Technology 13:30 [Poster1-63] Validation of microphysics 13:30 [Poster1-52] Radar refractivity estimation using parameterization of numerical model in winter season solid-state weather radar using radar measurements *Eiichi Sato1, Hiromu Seko1, Nobuhiro Nagumo2, Hiroshi Yamauchi2 *Sujeong Cho1, Kwang Deuk Ahn1 1. Meteorological Research Institute, 2. Japan Meteorological Agency 1. Korea meteorological administration, Numerical modeling center, Numerical data application division 13:30 [Poster1-53] The NRC W- and X-band Airborne Radar Systems: Calibration and Signal Processing 13:30 [Poster1-64] Precipitation type analysis using a Cuong Nguyen1, *Mengistu Wolde1, Andrew Pazmany2 hydrometeor classification of high-resolution radar data - 1. Flight Research Laboratory, National Research Council Canada, evaluation results of winter season 2018/2019 at Ottawa, Canada, 2. ProSensing Inc., Amherst, Massachusetts, USA Deutscher Wetterdienst *Tim Boehme1, Joerg Steinert1 13:30 [Poster1-54] Development of road meteorological 1. Deutscher Wetterdienst observation system using integrated vehicle sensor *Hong Ki Sung1, Kyu Soo Chong1, Sang Hun Lim1 13:30 [Poster1-65] Nowcasting of stratiform rain exploiting 1. Korea Institute of Civil Engineering and Building Technology signatures in the dendritic growth layer, microphysical retrievals and spectral bin modelling 13:30 [Poster1-55] Optimized Waveform for High- *Silke Troemel1, Jacob Carlin2,3, Alexander Ryzhkov2,3, Clemens Sensitivity Weather Radars via Coordinate Descent Simmer1 1 2 Mohammad Alaee-Kerahroodi , *Kumar Vijay Mishra , Bhavani 1. IGM, University of Bonn, 2. CIMMS, University of Oklahoma, 3. 1 2 2 1 Shankar M.R. , Anton Kruger , Witold F Krajewski , Bjorn Ottersten NOAA/NSSL 1. SnT, University of Luxembourg, 2. The University of Iowa, Iowa City, IA 52246, USA 13:30 [Poster1-66] An Innovative Method of Using GPM Observation to Quantitatively Evaluate Cloud and 13:30 [Poster1-56] Rigorous spectral observation theory Precipitation Properties Simulated by the DOE Climate and its applications to Spaced Antenna measurement Model over the Continental U.S. *Koji Nishimura1,2, Taishi Hashimoto1, Masaki Tsutsumi1, Toru Sato3 *jingyu wang1, Jiwen Fan1, Robert Houze2, Stacy Brodzik2, Kai Zhang1, 1. National Institute of Polar Research, 2. Research Organization of Po-lun Ma1 Information and Systems, 3. Kyoto University 1. Pacific Northwest National Laboratory, 2. University of Washington

13:30 [Poster1-57] ROTTERDAM – development of an 13:30 [Poster1-67] Sizing and Nowcasting Severe Hail operational X-band radar observation framework Exploiting a Polarimetric C-band Radar Network dedicated to urban weather research and smart-city *Mari L Schmidt1, Silke Trömel1, Alexander V Ryzhkov2, Clemens applications Simmer1 1 1 1 1 *Yann Dufournet , Albert Oude Nijhuis , Igor Stepanov , Tobias Otto 1. University of Bonn, Bonn, Germany, 2. CIMMS/University of 1. SkyEcho Oklahoma, Norman, Oklahoma, USA

[Poster1] 13:30-15:00 @CR1-2 & CR3-4 13:30 [Poster1-68] The Clouds and Precipitation Use of Radar Data for Nowcasting and Exploration Laboratory in Germany (CPEX-Lab) *Silke Troemel1, Susanne Crewell2, Ulrich Loehnert2, Peter Knott3, Numerical Models Clemens Simmer1 1. Institute for Geosciences and Meteorology, University of Bonn, 2. Institute for Geophysics and Meteorology, University of Cologne, 3. 13:30 [Poster1-58] Convective Storm Nowcasting Using a RWTH Aachen/ FHR Wachtberg Deep Learning Approach *Lei Han1, Wei Zhang1, Juanzhen Sun2 13:30 [Poster1-69] Analysis of the May 19, 2013 Edmond- 1. Ocean University of China, 2. NCAR Carney TornadicSupercell by EnKF Assimilation of S-band Radar Data 13:30 [Poster1-59] Evaluation of the ConvGRU Deep *Milind Sharma1, Robin Tanamachi1, Daniel T Dawson II1, Youngsun Learning Method for Convective Weather Nowcasting Jung2, Kevin Thomas2 Hanyang Guo1, Mingxuan Chen2, *Lei Han1 1. Purdue University, West Lafayette, Indiana, USA, 2. Center for 1. Ocean University of China, 2. Institute of Urban Meteorology, CMA, Analysis and Prediction of Storms, Norman, Oklahoma, USA China 13:30 [Poster1-70] Nowcasting with the Rijnmond X-band 13:30 [Poster1-60] BiLateral Operational Storm-Scale radar: challenges and validation of algorithms Observation and Modeling (BLOSSOM) *Albert Oude Nijhuis1, Yann Dufournet1, Tobias Otto1, Igor Stepanov1 *Toshihisa Matsui1, David B Wolff2, Stephen Lang3, Karen Mohr4 1. SkyEcho 1. NASA GSFC & ESSIC UMD, 2. NASA Wallops Flight Facility, 3. NASA GSFC & SSAI, 4. NASA GSFC 13:30 [Poster1-71] The Use of Dual Phased Array Weather Radar Observations to Short-range Convective Forecasts 13:30 [Poster1-61] Research of Multi-Resolution *James Taylor1, Guo-Yuan Lien1, Shinsuke Satoh2, Takemasa Miyoshi1 Incremental Four Dimensional Variational Radar Data 1. RIKEN RCC-S, 2. NICT National Institute of Information and Assimilation Communications Technology *ChungYi Lin1, Zhiquan Liu2, Jing-Shan Hong3, Chin-Hsiao Chiang3, Ya-Ting Tsai3 13:30 [Poster1-72] Thunderstorm Identification Algorithm 1. National Science and Technology Center for Disaster Reduction, 2. Research Based on Simulated Airborne Weather Radar National Center for Atmospheric Research, 3. Central Weather Bureau Reflectivity Volume Scan Data Xu Wang1,2, *Rui Liao1, Jianxin He1,2, Wanting Chen1 13:30 [Poster1-62] The development of a terrain-resolving 1. CUIT University, 2. Key Laboratory of Atmospheric Sounding of 4DVar data assimilation system (IBM_VDRAS) and its China Meteorological Administration applications in analyzing heavy rainfall processes in Taiwan 13:30 [Poster1-73] Utilize polarimetric radar to assess the Ying-Jhang Wu1, *Yu-Chieng Liou1, Sheng-Lun Tai2,1, Juanzhen Sun3 performance of WRF-SBM Simulations of Deep Convective Systems

11

*Wei-Kuo Tao1, Takamichi Iguchi1, Toshihisa Matsui1 *Jeong-Ho Bae1, Ki-Hong Min1, Hee-Dong Lee1 1. NASA Goddard Space Flight Center 1. Department of Astronomy and Atmospheric Sciences, Kyungpook National University 13:30 [Poster1-74] Improving radar echo Lagrandian extrapolation by blending numerical model wind 13:30 [Poster1-85] Assimilating every 30-second phased information: statistical performance of typhoon cases array weather radar data in a torrential rainfall event on *kao-shen chung1, I-An Yao1, Hsin-Hung Lin2 July 6, 2018 around Kobe city 1. National Central University, 2. National Science and Technology *Yasumitsu Maejima1, Shigenori Otsuka1, Takemasa Miyoshi1,2,3 Center for Disaster Reduction 1. RIKEN, Center for Computational Science, 2. University of Maryland, College Park, 3. Japan Agency for Marine-Earth Science 13:30 [Poster1-75] Using GPM radar data to understand and Technology the causes of abrupt change in the direction of Cyclone Fani 13:30 [Poster1-86] Testing a new Winter hydrometeor *Harish Baki1, C Balaji1, Balaji Srinivasan1 classification algorithm for distinction between ice pellets 1. Indian Institute of Technology Madras and freezing rain Brandon Hickman1, *Raquel M Evaristo1, Silke Trömel1, Clemen 13:30 [Poster1-76] The Multi-Year Reanalysis of Remotely Simmer1 Sensed Storms update and research progress 1. Institute for Geoscience and Meteorology, University of Bonn *Anthony E Reinhart1,2, Kiel L Ortega1,2, Skylar Williams1,2, Travis M Smith1,2 13:30 [Poster1-87] A deep-learning approach to three- 1. OU/CIMMS, 2. NOAA/OAR/NSSL dimensional precipitation nowcasting *Shigenori Otsuka1, Marimo Ohhigashi1, Viet Phi Huynh2, Pierre 13:30 [Poster1-77] Application of Lightning Location and Tandeo3, Takemasa Miyoshi1 Radar Data in Cloud Analysis System and Numerical 1. RIKEN, 2. Eurecom, 3. IMT Atlantique Experiments *GUOQIANG XU1, CHAN SUN2 13:30 [Poster1-88] Quantitative Precipitation Forecast 1. National Meteorological Center of CMA, Beijing 100081, 2. Chinese System using Dual Polarization Radar Data in Korea Academy Meteorological Sciences of CMA, Beijing 100081 *Kyung-Yeub NAM1, Myoung-Jae SON1, Young-A OH1, Ji-Won KIM1, Kun-Il JANG1, Jung-Whan LEE1 13:30 [Poster1-78] Comparison of Model Results of 1. Korea Meteorological Administration Hurricane Earl (2010) and the APR-2 Dual-frequency, Dual- polarization RadarData Collected During the NASA GRIP 13:30 [Poster1-89] The Australian Wind Profiler Network and its role in Numerical Weather Prediction Investigation 1,2 1,2 3 *Jainn Jong Shi1, Scott A Braun2, Zhining Tao3 *Bronwyn Dolman , Iain Reid , Chris Tingwell 1. NASA/GSFC GESTAR/Morgan State University, 2. NASA/GSFC, 3. 1. ATRAD Pty Ltd, 2. University of Adelaide, 3. Australian Government NASA/GSFC GESTAR Bureau of Meteorology

13:30 [Poster1-79] Radar-Based Rainfall Nowcasting 13:30 [Poster1-90] Withdrawn: From observation to based on Deep Learning over Southern China climatology: preparing 17-year radar- and NWP-based hail *zhenqing liang1, Junjun Hu2, Sheng Chen3,4, Chaoying Huang1, Asi data series for climatological studies 1 2 1 Zhang3,4, Liusi Xiao3,4 *Simona Trefalt , Katharina Schroeer , Urs Germann , Alessandro 1 2 2 1. Key Laboratory of Environment Change and Resources Use in Hering , Luca Nisi , Cornelia Schwierz Beibu Gulf (Nanning Normal University), Ministry of Education, 1. MeteoSwiss, Division for Radar, Satellite and Nowcasting, 2. Guangxi, China, 2. Cooperative Institute for Mesoscale Meteorological MeteoSwiss, Division for Analysis and Forecasting Studies, The University of Oklahoma, Norman, Oklahoma, USA, 3. School of Atmospheric Sciences, and Guangdong Province Key 13:30 [Poster1-91] Towards the assimilation of Laboratory for Climate Change and Natural Disaster Studies, polarimetry-derived hydrometeor mixing ratios in Guangzhou 510275, China, Guangzhou 510275, China, 4. Southern Germany Laboratory of Ocean Science and Engineering (Guangdong, Zhuhai) *Lucas Reimann1, Clemens Simmer1, Silke Troemel1 1. Meteorological Institute University of Bonn 13:30 [Poster1-80] Location error of optical flow techniques on nowcasting 13:30 [Poster1-92] Assimilation of Dual Polarization Radar *Arthur Costa Tomaz de Souza1, Georgy Ayzel1, Maik Heistermann1 Using GSI Cloud Analysis: A Case Study 1. Institute for Environmental Sciences and Geography, University of *Zhicheng Ding1, Kun Zhao1 Potsdam 1. Nanjing University

13:30 [Poster1-81] Improving Radar-Based Hail Impact 13:30 [Poster1-93] Performance Evaluation of Spectral Bin Estimates by Modelling Hail Trajectories Classifier (SBC) using ICE-POP 2018 cases *Jordan Palmer Brook1, Alain Protat2, Joshua Soderholm2, Hamish *Wonbae Bang1, Jacob Carlin2, Alexander Ryzhkov2, Kwonil Kim3, McGowan1 GyuWon Lee1,3 1. University of Queensland, 2. Australian Bureau of Meteorology 1. Center for Atmospheric REmote sensing (CARE), Kyungpook National University, Daegu, South Korea, 2. Cooperative Institute for 13:30 [Poster1-82] A study on radar data assimilation Mesoscale Meteorological Studies, The University of Oklahoma, and methods to improve precipitation forecast NOAA/OAR National Severe Storms Laboratory, Norman, Oklahoma, *JIWON LEE1, Ki-Hong Min1 USA, 3. Dept. of Astronomy and Atmospheric Sciences, Kyungpook 1. Department of Astronomy and Atmospheric Sciences, Kyungpook National University, Daegu, South Korea National University, Daegu, South Korea 13:30 [Poster1-94] Nowcasting of Precipitation Type using 13:30 [Poster1-83] A Dual Polarized Radar Data Weather Radar Data Assimilation for a Meso-scale Numerical Model *Joerg Steinert1 *JAE-GEUN LEE1, KI-HONG MIN1 1. Deutscher Wetterdienst, Germany 1. Department of Astronomy and Atmospheric Sciences, Kyungpook National University, Daegu, South Korea 13:30 [Poster1-95] Towards an efficient polarimetric radar forward operator for NWP frameworks 13:30 [Poster1-84] Improvement of Quantitative *Jana Mendrok1, Jeffrey Snyder2, Silke Troemel3, Ulrich Blahak1 precipitation forecast using radar data assimilation in a 1. Deutscher Wetterdienst, Offenbach, Germany, 2. NOAA/OAR weather prediction model National Severe Storms Laboratory, Norman, Oklahoma, USA, 3.

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Institute for Geosciences and Meteorology, University Bonn, Bonn, 1. Consorzio Lamma, 2. CNR-IBIMET Germany 13:30 [Poster1-107] Data assimilation of Ka-band radar 13:30 [Poster1-96] Assimilating radar data with retrieved and X-band radar for rainfall prediction thermodynamic fields: A case study of frontal system on *kosei yamaguchi1, eiichi nakakita1, kazuki ueshima2, yosuke horiike3 June 11 2012 1. DPRI, Kyoto University, 2. NTT DOCOMO, INC., 3. Osaka Metro *Ching-Yin Ke1, Kao-Shen Chung1, Yu-Chieng Liou1, Shu-Chih Yang1 Co., Ltd. 1. National Central University, Taoyuan City, Taiwan 13:30 [Poster1-108] Comparison Between Assimilation of 13:30 [Poster1-97] Refractivity distributions over the Radial Velocity and Radar Atmospheric Motion Vectors in Kanto and Osaka plains and their impacts on the rainfall a 3DVAR System to Forecast Precipitation forecasts *Eder Paulo Vendrasco1, Renato Galante Negri1, Dirceu Luis Herdies1 *Hiromu Seko1,3, Eiichi Sato1, Hiroshi Yamauchi2, Yoshinori Shoji1, 1. National Institute for Space Research Shinsuke Satoh4 1. Meteorological Research Institute, 2. Japan Meteorological Agency, [Session 3A] 15:00-16:00 @NH 3. Japan Agency for Marine-Earth Science and Technology, 4. National Institute of Information and Communications Technology Spaceborne Radar and Its Observation

13:30 [Poster1-98] A smart multi-sensor approach for 15:00 [Session 3A-01] Gaps in Cloud and Precipitation dynamically guiding a solid-state X-band radar during Observations from Space: Opportunities and intense weather systems approaching urban areas Requirements for Future Spaceborne Radar Missions *Samantha Melani1, Alessandro Mazza1, Francesca Caparrini2, Andrea *Pavlos Kollias1,2,3, Alessandro Battaglia4,5, Simone Tanelli6 Antonini2, Alberto Ortolani1 1. Stony Brook University, 2. Brookhaven National Laboratory, 3. 1. CNR-IBIMET | Consorzio LaMMA, 2. Consorzio LaMMA University of Cologne, 4. University of Leicester, 5. UK National Centre for Earth Observations, 6. Jet Propulsion Laboratory 13:30 [Poster1-99] Comparison of VIL Nowcast Social Experiment Results Using XRAIN and MP-PAWR Data 15:15 [Session 3A-02] The EarthCARE/CPR Development Conducted in the Tokyo Metropolitan Area in 2015 and Status 2018 *Kazuyuki Okada1, Eiichi Tomita1, Kinji Furukawa1, Yoshihisa Aida1, *Koyuru Iwanami1, Kohin Hirano1, Hisashi Nakagaki2, Ryohei Misumi1, Hirotaka Nakatsuka1, Yoshihiro Seki1, Satoshi Kusama1, Nobuhiro Takeshi Maesaka1, Shingo Shimizu1 Tomiyama1, Kenta Maruyama1 1. National Research Institute for Earth Science and Disaster 1. JAXA Resilience, 2. Japan Weather Association 15:30 [Session 3A-03] Next precipitation measuring 13:30 [Poster1-100] Implementing Aircraft Mode-S Data in mission after GPM/DPR the Austrian Hydrometeor Classification System *Kinji Furukawa1, Kosuke Yamamoto1, Yuki Kaneko1, Takuji Kubota1, *Rudolf Kaltenboeck1, Vera Meyer2, Lukas Tüchler2 Riko Oki1, Nobuhiro Takahashi2 1. Austro Control, Austria, 2. ZAMG, Austria 1. JAXA, 2. Nagoya University

13:30 [Poster1-101] A Simulating Method of Polarimetric 15:45 [Session 3A-04] RainCube’s first year in space : Weather Radar Data for Typhoon Detection product calibration, validation and considerations on *Zewei Zhao1, Xichao Dong1, Jiaqi Hu1 spatial resolution and sampling 1. Beijing Institute of Technology *Simone Tanelli1, Ousmane O Sy1, Gian Franco Sacco1, Robert M Beauchamp1, Ziad S Haddad1 13:30 [Poster1-102] Is It Possible to Predict Typhoon Track 1. Jet Propulsion Laboratory Using Wind Field Observation by Wind Profiler and Dual Doppler Radars? [Session 3B] 15:00-16:00 @RH1 *Dong-In Lee1, Jisun Lee1, Sung-Ho Suh1 1. Pukyong National University Use of Radar Data for Nowcasting and Numerical Models 13:30 [Poster1-103] Development of a new seamless integrated forecasting system (SINFONY) at DWD 15:00 [Session 3B-01] Why is radar data so difficult to *Markus Schultze1, Ulrich Blahak1, Kathrin Wapler1, Marcus Paulat1, 1 1 1 1 assimilate properly? Roland Potthast , Axel Seifert , Manuel Werner , Liselotte Bach , 1 1 Elisabeth Bauernschubert1, Robert Feger1, Kathrin Feige1, Michael *Frederic Fabry , Veronique Meunier Hoff1, Markus Junk1, Alberto de Lozar1, Lisa Neef1, Rafael Posada1, 1. McGill University Martin Rempel1, Sven Ulbrich1, Christian Welzbacher1 1. Deutscher Wetterdienst 15:15 [Session 3B-02] Assimilation of OPERA radars data in AROME-France NWP model: a challenge 13:30 [Poster1-104] Development of a probabilistic *Maud Martet1 precipitation-nowcasting approach at DWD 1. Meteo France, DR/GMAP/OBS *Markus Schultze1, Martin Rempel1, Manuel Werner1, Kathrin Wapler1 1. Deutscher Wetterdienst 15:30 [Session 3B-03] Development of Dual-Pol Radar Forward Operator in Simulation of a Supercell Storm and 13:30 [Poster1-105] Tornado Occurrence Forecasting possible Use in the Variational Data Assimilation Schemes Method Based on a Simplified 4DVAR Radar Data *Jidong Gao1, Guifu Zhang2, Muyun Du3,4 Assimilation and Traditional Radar Echo Identification and 1. NOAA/National Severe Storms Laboratory, 2. School of Nowcasting Technique: Preliminary Results. Meteorology, University of Oklahoma, 3. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma, 4. Hubei *Soichiro Sugimoto1, Zhuming Yin2, Juanzhen Sun2 Key Laboratory for Heavy Rain Monitoring and Warning Research, 1. Central Research Institute of Electric Power Industry, 2. National Institute of Heavy Rain, Chinese Meteorological Adminstration Center for Atmospheric Research

15:45 [Session 3B-04] Assimilating radar observed and 13:30 [Poster1-106] Dynamic assignment of RADAR reflectivity uncertainty forcing data assimilation in WRF retrieved variables to improve the model convective scale rainfall forecast : OSSE and real case studies numerical model *Yu-Ting Cheng1, Yu-Chieng Liou1 *Alberto Ortolani1,2, Luca Rovai1,2, Riccardo Benedetti1, Andrea 1. Dept. of Atmosphere Sciences, National Central University, Taoyuan Antonini1, Luca Fibbi1,2 City 320, Taiwan 13

17:30 [Session 4B-05] Advantages and challenges of a [Session 4A] 16:30-18:00 @NH specific attenuation based radar QPE for operations *Jian Zhang1, Lin Tang2, Steve Cocks2, Pengfei Zhang2, Alexander Radar Networks, Quality Control, Ryzhkov2, Carrie Langston2, Brian Kaney2, Ken Howard1 Processing and Software 1. National Severe Storms Lab, 2. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma

16:30 [Session 4A-01] Rethinking Ground Clutter Filtering: 17:45 [Session 4B-06] Application of the self-consistency Regression Filtering to Improve Radar Signal Statistics among the polarimetric variables to improve the 1 1 1 1 *John C Hubbert , Greg Meymaris , Ulrike Romatschke , Mike Dixon precipitation estimation 1. NCAR *Nan YU1, Qingtong GU2, Nicolas GAUSSIAT1

1. Centre de Météorologie Radar, Météo France, 2. Meteorological 16:45 [Session 4A-02] Evaluation of wind turbine clutter Observation Centre of China Meteorological Administration detection and suppression in dual-pol weather radar observations Amit Dutta2, *Evan Ruzanski1, V. Chandrasekar2 1. Vaisala, 2. Colorado State University

17:00 [Session 4A-03] Radio Frequency Interference Characterization and Mitigation for Polarimetric Weather Radar Jiapeng Yin1, Peter Hoogeboom1, *Christine Unal1, Herman Russchenberg1 1. Delft University of Technology

17:15 [Session 4A-04] How Do Reflectivity Gradients Affect the Performance of Range Oversampling Processing? *Christopher Curtis1, Sebastian Torres1 1. CIMMS/NSSL

17:30 [Session 4A-05] Assessing the antenna characteristics and pointing accuracy of a polarimetric weather radar *Michael Frech1, Theodor Mammen1, Bertram Lange1 1. Deutscher Wetterdienst

17:45 [Session 4A-06] Rejuvenating refractivity processing: A radar meteorology story (an intertwined tale of hardware, propagation, processing, and weather) *Frederic Fabry1, Daniel Hogg1, Ya-Chien Feng2 1. McGill University, 2. NCAR

[Session 4B] 16:30-18:00 @RH1 Quantitative Precipitation Estimation and Hydrology

16:30 [Session 4B-01] Polarimetric VPR - a new methodology for mitigation of the bright band contamination in QPE *Alexander Ryzhkov1, Pengfei Zhang1 1. University of Oklahoma

16:45 [Session 4B-02] Upscaling microwave link rainfall estimation: pilot studies from cellular communication networks in Africa, Asia and South America Tommy van Leth2, *Aart Overeem1,2, Jenny Prosser3, Daniele Tricarico3, Hidde Leijnse1, Remko Uijlenhoet2 1. Royal Netherlands Meteorological Institute, 2. Wageningen University & Research, 3. GSM Association

17:00 [Session 4B-03] RadAlp: Potential of radar remote sensing for the estimation of liquid and solid precipitation in the French Alps *Guy Delrieu1, Anil Kumar Khanal1, Frédéric Cazenave1, Brice Boudevillain1, Dominique Faure2, Nan Yu2, Nicolas Gaussiat2 1. Institut des Géosciences de l'Environnement, Grenoble, France, 2. Météo-France, Toulouse, France

17:15 [Session 4B-04] Capturing the variability of the DSD actually improves the estimate of the ground rainfall from weather radar *Jacques Victor Testud1, Emmanuel Moreau1, Erwan Le Bouar1 1. NOVIMET

14

1. School of Meteorology, University of Oklahoma, 2. Advanced Radar Research Center, 3. Cooperative Insitute for Mesoscale Meteorological TUESDAY, SEP 17 Studies, 4. NOAA National Weather Service Storm Prediction Center

[Session 5A] 9:00-10:30 @NH 9:45 [Session 5B-04] A Polarimetric Radar Climatology of Supercell Thunderstorms in the United States New and Emerging Radar Technology *Michael M. French1, Darrel M. Kingfield2, Kristofer S. Tuftedal1, Jacob H. Segall1, Jeffrey C. Snyder3 9:00 [Session 5A-01] The Colorado State University ship- 1. Stony Brook University, 2. Cooperative Institute for Research in based C-band dual-polarized radar: Deployments and Environmental Sciences (CIRES), University of Colorado & early science results NOAA/OAR/ESRL/Global Systems Division, 3. NOAA/OAR/National Severe Storms Laboratory *Steven A Rutledge1, V. Chandrasekar1, Brenda Dolan1, Kyle Chudler1,

Jim George1, Francesc Junyent1 1. Colorado State University 10:00 [Session 5B-05] Rapid-scan, polarimetric observations of supercells using a mobile phased array 9:15 [Session 5A-02] An S-band Frequency-Modulated radar Continuous-Wave Radar: Observations During the 2017 *Robin L Tanamachi1, Stephen J Frasier2, William Heberling2, Carl 2 1 1 California Oroville Dam Crisis Wolsieffer , Allison T LaFleur , Milind Sharma 1. Purdue University, 2. University of Massachusetts Amherst *Allen B. White1, Paul E. Johnston2,1, Daniel J. Gottas1, Benjamin J.

Moore1 1. NOAA/ESRL Physical Sciences Division, 2. Cooperative Institute for 10:15 [Session 5B-06] Multi-sensor observation of Research in Environmental Sciences evolution from cumulus to cumulonimbus in Tokyo metropolitan area 9:30 [Session 5A-03] Multistatic Passive Weather Radar: *Takeshi Maesaka1, Tadayasu Ohigashi1, Koyuru Iwanami1, Shin-ichi Development, Validation, and Latest Results Suzuki1, Yukari Shusse1, Namiko Sakurai1, Kaori Kieda1, Shingo 1 1 2 3 *Andrew Byrd1, Robert Palmer1, Caleb Fulton1 Shimizu , Yasushi Uji , Nobuhiro Takahashi , Hiroshi Hanado , 3 4 1. Univ. of Oklahoma/ARRC Katsuhiro Nakagawa , Tomoo Ushio 1. National Research Institute for Earth Science and Disaster 9:45 [Session 5A-04] The Vapor In-cloud Profiling Radar Resilience, 2. Nagoya University, 3. National Institute of Information and Communications Technology, 4. Tokyo Metropolitan University (VIPR): Field deployment and validation of in-cloud humidity profiles retrieved using a 170 GHz differential absorption cloud radar [Session 6A] 11:00-12:00 @NH *Richard Roy1, Matthew Lebsock1, Ken Cooper1, Luis Millan1, Raquel Wind Profiler, Cloud Radar, and Rodriguez Monje1, Jose Siles1 1. Jet Propulsion Laboratory, California Institute of Technology NonHydrometeorological Radar

10:00 [Session 5A-05] Calibration for Weather Radars 11:00 [Session 6A-01] Modeling and measurements of using UAV Hosted Targets cloud radar dual-wavelength ratio of ice hydrometeors *Sergio Daniel Graniello1, V Chandrasekar1, Shashank Joshil1, Jim *Sergey Y Matrosov1, Maximilian Maahn1, Gijs de Boer1 George1, Patrick Kennedy1 1. CIRES, Universty of Colorado and NOAA ESRL 1. Colorado State University 11:15 [Session 6A-02] Phase Characterization of Southern 10:15 [Session 5A-06] The C-band On Wheels (COW) Ocean Clouds using HIAPER Cloud Radar (HCR) and High quickly deployable radar Spectral Resolution Lidar (HSRL) Observations: results 1 1 1 *Joshua Wurman , Karen Ann Kosiba , Brian Pereira from SOCRATES 1. The Center for Severe Weather Research *Troy J Zaremba1, Robert M. Rauber1, Joseph A. Finlon1, Greg M. McFarquhar2, Sonia Lasher-Trapp1, Daniel M. Stechman2 [Session 5B] 9:00-10:30 @RH1 1. University of Illinois at Urbana-Champaign , 2. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma Organized Convection and Severe Phenomena 11:30 [Session 6A-03] G-band radars and their potential in cloud microphysical studies 1 2 9:00 [Session 5B-01] SimRadar – A U.S.-Japan *Alessandro Battaglia , Pavlos Kollias 1. University of Leicester, Leicester, UK, 2. University of Stonybrook, collaborative effort to develop a polarimetric radar NY, US simulator for tornado studies 1 1 2 David J Bodine , *Boonleng Cheong , Takashi Maruyama , Caleb 11:45 [Session 6A-04] Clear-Air Echoes Observed by Ka- Fulton1,3, Sebastian Torres1,3,4, Robert Palmer1,5, Howard Bluestein5, Band Scanning Polarimetric Cloud Radars Arturo Umeyama1,3, Javier Lujan1,3, Zach Wienhoff5, Casey Griffin1,5 *Tadayasu Ohigashi1, Takeshi Maesaka1, Shin-ichi Suzuki1, Yukari 1. Advanced Radar Research Center, University of Oklahoma, 2. Shusse1, Namiko Sakurai1 Disaster Prevention Research Institute, Kyoto University, 3. School of Electrical and Computer Engineering, University of Oklahoma, 4. 1. National Research Institute for Earth Science and Disaster Resilience National Severe Storms Laboratory, NOAA, 5. School of Meteorology, University of Oklahoma [Session 6B] 11:00-12:00 @RH1 9:15 [Session 5B-02] Mobile Radar Observations of the Quantitative Precipitation Estimation Evolving Debris Field Compared with a Damage Survey of the Shawnee, Oklahoma Tornado and Hydrology *Roger M Wakimoto1, Zachary Wienhoff2, Howard B Bluestein2 1. UCLA, 2. University of Oklahoma 11:00 [Session 6B-01] The influences of large scale forcing on the diurnal cycle of rainfall over Darwin 9:30 [Session 5B-03] An investigation of tornadic debris *Robert Clyde Jackson1, Scott Collis1, Yan Feng1, Valentin Louf2, Alain signatures in damaging tornadoes using observations and Protat4, Rob Warren2, Brenda Dolan5, Elizabeth Thompson6, Scott simulations of Doppler spectra Powell7, Scott Giangrande3, Die Wang3 *Zachary Wienhoff1, Howard Bluestein1, David Bodine2, Boon Leng 1. Argonne National Laboratory, 2. Monash University, 3. Brookhaven Cheong2, Dylan Reif1, Nathan Dahl3,4, Trey Greenwood1 National Laboratory, 4. Bureau of Meteorology Australia, 5. Colorado State University, 6. University of Washington, 7. Naval Postgraduate School 15

13:30 [Poster2-08] Assessing the Benefits of a Rapid- 11:15 [Session 6B-02] Dual-polarization radar signatures Scanning Phased Array Weather Radar of the convectively driven Lausanne flash-flood event on *Andrew Mahre1,2, Kyle Pittman3,4, Tian-You Yu1,2,5, David Bodine1,2 June 11, 2018 1. Advanced Radar Research Center, University of Oklahoma, 2. *Marco Gabella1, Daniel Wolfensberger1, Marco Boscacci1, Jacopo School of Meteorology, University of Oklahoma, 3. Northern Illinois Grazioli1, Urs Germann1 University, 4. Research Experiences for Undergraduates (REU) 1. MeteoSwiss Program, 5. School of Electrical and Computer Engineering, University of Oklahoma 11:30 [Session 6B-03] Advancing flash flood early warnings using a proxy of polarimetric PAR observations 13:30 [Poster2-09] Spatial-Temporal Evolutions of *Yixin Wen1, Terry Schuur1,2, Humberto Arrieta Vergara1,2, Charles Precipitation Cores and Lightning Activity Observed by Kuster1,2, James Kurdzo3 Phased Array Weather Radars and BOLT 1. Cooperative Institute for Mesoscale Meteorological Studies, *Yukie Moroda1, Kazuhisa Tsuboki2, Shinsuke Satoh3, Katsuhiro University of Oklahoma, 2. NOAA/NSSL, 3. Lincoln Laboratory, Nakagawa3, Tomoo Ushio4, Hiroshi Kikuchi5 Massachusetts Institute of Technology, Lexington, Massachusetts 1. National Institute for Information and Communications Technology, Tokyo, Japan / Institute for Space-Earth Environment Research, 11:45 [Session 6B-04] Application of the weather radar- Nagoya University, Nagoya, Japan, 2. Institute for Space-Earth based quantitative precipitation estimations for flood Environment Research, Nagoya University, Nagoya, Japan, 3. runoff simulation in a dam watershed National Institute for Information and Communications Technology, *Younghyun Cho1, Joon-Woo Noh1, Eul-Rae Lee1 Tokyo, Japan, 4. Department of Aerospace Engineering, Tokyo 1. K-water Research Institute, K-water (Korea Water Resources Metropolitan University, Hino, Japan, 5. University of Electro- Corporation) Communications, Tokyo, Japan

13:30 [Poster2-10] Preliminary result of MIMO observation [Poster2] 13:30-15:00 @CR1-2 & CR3-4 with the MU radar Phased Array Radar Technology and Its *Tomoya Matsuda1, Hiroyuki Hashiguchi1 1. Research Institute for Sustainable Humanosphere,Kyoto University Observation 13:30 [Poster2-11] Development of a dual-polarized slotted 13:30 [Poster2-01] High-Temporal Resolution waveguide array antenna made of injection-molded resin Observations of Weak-Echo Reflectivity Bands in the 16 *Tomoya Matsuda1, Ikuya Kakimoto1, Yoshihiko Konishi2, Narihiro May 2017 Wheeler, Texas, Tornado Nakamoto1, Takashi Uesaka1, Takashi Uno1, Tomoyuki Koyanagi1, *Casey Griffin1,2, David Bodine1,2, Javier Lujan1,2, Robert Palmer1,2 Takeshi Yamamoto1 1. University of Oklahoma, 2. Advanced Radar Research Center 1. Mitsubishi Electric Corporation, 2. Hiroshima Institute of Technology

13:30 [Poster2-02] An evaluation of the Multi Parameter 13:30 [Poster2-12] X-band Phased Array Weather Radar Phased Array Weather Radar Observations of a Mesocyclone in the Tokyo Urban Area *Taku Suezawa1, Hiroshi Kikuchi2, Tomoaki Mega1, Eiichi Yoshikawa3, *Shigeharu Shimamura1,3, Kazuomi Morotomi1,3, Saori Kurihara1, Hiroshi Hanado4, Syugo Hayashi1,5, Tomoo Ushio1 Fumiaki Kobayashi2, Toshiaki Takano3, Atsushi Higuchi3, Hisato 1. Tokyo Metropolitan University, 2. The University of Electro- Iwashita4 Communications, 3. Japan Aerospace Exploration Agency, 4. National 1. Japan Radio Company, Ltd., 2. National Defense Academy of Institute of Information and Communications Technology, 5. Japan, 3. Chiba University, 4. Meisei Electric Co., Ltd. Meteorological Research Institute 13:30 [Poster2-13] Analyses of a Severe Convective Storm 13:30 [Poster2-03] Research to Operations Strategy for Using an X-band Polarimetric Phased Array Radar in Meteorological Phased Array Radar Southern China *Mark E. Weber1,2, Kurt Hondl2 *Asi Zhang1,2, Sheng Chen1,2 1. Cooperative Institute for Mesoscale Meteorological Studies, 1. Sun Yat-sen University, 2. Southern Laboratory of Ocean Science University of Oklahoma, 2. NOAA OAR National Severe Storms and Engineering Laboratory 13:30 [Poster2-14] Analysis of Equatorial Atmosphere 13:30 [Poster2-04] Preliminary analysis to design C-band Radar (EAR) Spaced-Antenna Performance from Multiple polarimetric phased array weather radar Orientation of the Receiving Antennas *Kento Nakamura1, Hiroshi Kikuchi2, Tomoaki Mega1, Tomoo Ushio1 *Nor Azlan bin Mohd Aris1,2, Hiroyuki Hashiguchi1, Mamoru Yamamoto1 1. Tokyo Metropolitan University, 2. The University of Electro- 1. RISH, Kyoto University, 2. FKEKK, UTeM Communications 13:30 [Poster2-15] Meteorological observations and 13:30 [Poster2-05] Bias of the polarimetric variables on system performance from a C-band phased array weather the Ten Panel Demonstrator (TPD) of a phased array radar in Beijing, China weather radar *Sheng Chen1, Asi Zhang1, Chaoying Huang3, Yanqiang Wei2, Zhirui *Djordje Mirkovic1,2, Dusan S Zrnic2 Wang2 1. CIMMS (OU), 2. NSSL (NOAA) 1. School of Atmospheric Sciences, and Guangdong Province Key Laboratory for Climate Change and Natural Disaster Studies, Sun Yat- 13:30 [Poster2-06] A First Look at the ATD Data sen University, Guangzhou 510275, China, 2. Beijing Institute of Radio Corrections Measurement, Beijing, 100854, China, 3. Key Laboratory of *Igor R. Ivic1,2, David Schvartzman1,2 Environment Change and Resources Use in Beibu Gulf (Guangxi 1. Cooperative Institute for Mesoscale Meteorological Teachers Education University), Ministry of Education, Guangxi, Studies/University of Oklahoma, 2. The National Severe Storms 530001 China Laboratory/National Oceanic and Atmospheric Administration 13:30 [Poster2-16] Application of MMSE Doppler spectrum 13:30 [Poster2-07] Development of a Shared Mobile C- estimator to an X-band Phased Array Weather Radar band Polarimetric Atmospheric Imaging Radar (PAIR) *Naoya Takizawa1, Eiichi Yoshikawa2, Hiroshi Kikuchi3, Tomoaki *Tian-You Yu1,2,3, Matthew S. McCord3, Jorge L. Salazar1,3, Caleb Mega1, Tomoo Ushio1 Fulton1,3, Robert D. Palmer1,2,3, Howard B. Bluestein2 1. Tokyo Metropolitan University, 2. Japan Aerospace Exploration 1. School of Electrical and Computer, University of Oklahoma, 2. Agency, 3. The University of Electro-Communications School of Meteorology, University of Oklahoma, 3. Advanced Radar Research Center, University of Oklahoma 13:30 [Poster2-17] Initial observations with X-band multi- parameter phased array radar in Japan 16

*Hiroshi Kikuchi1, Taku Suezawa2, Tomoo Ushio2, Yasuhide Hobara1 13:30 [Poster2-28] Analysis of misocyclones structures of 1. The University of Electro-Communications, 2. Tokyo Metropolitan a storm on 15 May 2017 in Okinawa using a phased array University weather radar *Ryusho Imai1, Nobuhiro Takahashi1 13:30 [Poster2-18] Observation of summer thunderclouds 1. Nagoya University on 13 August 2018 over Kanto-Plain using Multi-Parameter Phased Array weather radar [Poster2] 13:30-15:00 @CR1-2 & CR3-4 *Takeharu Kouketsu1, Nobuhiro Takahashi1, Katsuhiro Nakagawa2 1. Nagoya University, Nagoya, Aichi, 2. NICT, Koganei, Tokyo Microphysical Studies with Radars

13:30 [Poster2-19] Eye Wall Structure of Typhoon, ‘Jebi’ 13:30 [Poster2-29] Simultaneous observations from Observed by Kobe Phased Array Weather Radar scanning radars and a vertically pointing micro rain radar 1 1 2 *Koji Sassa , Akira Nishii , Shinsuke Satoh and quantitative evaluation of polarimetric estimates 1. Kochi University, 2. National Institute of Information and *Ricardo Reinoso-Rondinel1,2, Marc Schleiss2 Communications Technology 1. University of Bonn, 2. Delft University of Technology

13:30 [Poster2-20] Analysis of isolated convective 13:30 [Poster2-30] Bulk Microphysical Properties of systems by using multi-parameter phased array weather Orographic Rainfall Deduced by Vertically Pointing Radars radar 1 2 in the Western United States *Nobuhiro Takahashi , Hiroshi Hanado 1 1 1 2,1 1. Institute for Space-Earth Environmental Research, Nagoya *Allen B. White , Daniel J. Gottas , Robert Cifelli , Haonan Chen University, 2. National Institute of Information and Communications 1. NOAA/ESRL Physical Sciences Division, 2. Cooperative Institute for Research in the Atmosphere Technology

13:30 [Poster2-21] Application of adaptive beamforming to 13:30 [Poster2-31] Dual-Wavelength Polarimetric Radars Dual Polarization Phased Array Weather Radar Observation of Snow Development Process 1 1 1 1 *Shuhei Uchida1, Hiroshi Kikuchi3, Eiichi Yoshikawa2, Tomoaki Mega1, *Jingya Wu , Qiang Sun , Daren LÜ , Yongheng Bi Tomoo Ushio1 1. IAP, CAS 1. Tokyo Metropolitan University, 2. Japan Aerospace Exploration Agency, 3. The University of Electro-Communications 13:30 [Poster2-32] The IMPACTS Airborne Field Campaign to Investigate U.S. East Coast Snowstorms 13:30 [Poster2-22] Weather Measurements Using a *Gerald M Heymsfield1, Lynn McMurdie2, Scott A Braun1, John E Cylindrical Polarimetric Phased Array Radar Yorks1 *Zhe Li1,2, Guifu Zhang1,3 1. Goddard Space Flight Center, 2. University of Washington 1. Advanced Radar Research Center, University of Oklahoma, 2. School of Electrical and Computer Engineering, University of 13:30 [Poster2-33] The triple-frequency retrieval of the Oklahoma, 3. School of Meteorology, University of Oklahoma characteristic size and width of rain drop size distribution *Kamil Mroz1, Alessandro Battaglia1,2, Stefan Kneifel3, Leo Pio 13:30 [Poster2-23] Validation of VIL Nowcast for 30-minute D'Adderio4 Forecast using Multi-Parameter Phased Array Weather 1. National Centre for Earth Observation, 2. Earth Observation Radar Science, Department of Physics and Astronomy, University of *Kohin Hirano1, Koyuru Iwanami1, Takeshi Maesaka1 Leicester, Leicester, United Kingdom, 3. Institute for Geophysics and 1. National Research Institute for Earth Science and Disaster Meteorology, University of Cologne, Cologne, Germany, 4. Italian Resilience National Research Council, Institute of Atmospheric Sciences and Climate ISAC-CNR, Roma, Italy 13:30 [Poster2-24] Withdrawn: Interference mitigation for the phased array radars using a novel null steering 13:30 [Poster2-34] X-band Radar Observations of the technique Angular Dependence of Specific Differential Phase Above *Mohammad-Hossein Golbon-Haghighi1,2, Guifu Zhang1,3,2 the Bright Band 1. Advanced Radar Research Center, University of OKlahoma, 2. *Joshua Hampton1, Lindsay Bennett2,1, Ryan Neely III2,1 School of Electrical and Computer Engineering, University of 1. University of Leeds, 2. National Centre for Atmospheric Science Oklahoma, 3. School of Meteorology, University of Oklahoma 13:30 [Poster2-35] Statistical Characteristics of Raindrop 13:30 [Poster2-25] Development of the early detection Size Distribution and Associated Polarimetric Radar system of the localized torrential rainfall using vortex Signatures in Complex Terrain Over the San Francisco tubes observed by the phased array weather rada Bay Area *Katsuhiro Nakagawa1, Masayuki Katayama2, Aritoshi Masuda2, Robert Cifelli1, *Haonan Chen2, Allen White1 Hiroshi Hanado1, Koji Zettsu1, Eiichi Nakakita3 1. NOAA ESRL Physical Sciences Division, 2. Cooperative Institute for 1. National Institute of Information and Communications Technology Research in the Atmosphere (NICT) , 2. Japan Weather Association (JWA), 3. Disaster Prevention Research Institute, Kyoto University 13:30 [Poster2-36] The microphysical properties of

stratiform cloud cluster during Indian Summer Monsoon: 13:30 [Poster2-26] Development and Preliminary Results A case study using dual polarimetric C-Band radar and of the Airborne Phased Array Radar (APAR) Observation aircraft observations. Simulator (AOS) *SOUMYA SAMANTA1,2, P. Murugavel1, Dinesh Gurnule1, Thara *Scott Mabry Ellis1, Wen-Chau Lee1, George Bryan, Kevin Manning, Prabhakaran1 Ting-Yu Cha, Michael Bell, Louis Lussier1 1. Indian Institute of Tropical Meteorology, Dr. Homi Bhabha Road, 1. NCAR/EOL Pashan, Pune-411008, India., 2. Department of Meteorology and

Oceanography, College of Science and Technology, Andhra University, 13:30 [Poster2-27] NCAR's Phased Array Line Visakhapatnam-530003, India. Replacement Unit Demonstrator: calibration, beamforming and observations 13:30 [Poster2-37] Microphysical Insights from Coincident 1 2 2 1 *Peisang Tsai , Rodrigo Lebron , Jorge Salazar , Jonathan Emmett , Multi-Frequency and Polarimetric Radar Observations Eric Loew1, James Ranson1, Adam Karboski1, Christopher Burghart1 During OLYMPEX 1. NCAR, 2. OU *Stephen J Munchak1, Ian S Adams1, Robert S Schrom1,2

1. NASA Goddard Space Flight Center, 2. NASA Postdoctoral Program

17

13:30 [Poster2-38] Evolution of precipitation microphysics 13:30 [Poster2-47] Characteristics of particle size characteristics of a Typhoon Ewiniar (2018) landfall over distribution of falling ash particles from Sakurajima southern China based on S-band polarimetric radar and obtained from laser-optical particle size velocity 2DVD distrometer observations disdrometer observation data *Xiantong Liu1, Qilin Wan1, Hui Xiao1, Huiqi Li1, Tengfei Zheng1 *Ren Takaoka1, Masayuki Maki2, Seiji Fukushima1, Masato Iguchi3, 1. Institute of Tropical and Marine Meteorology of China Meteorological Daisuke Miki3, Tomofumi Kozono4, Takahiro Miwa5, Takeshi Maesaka5 Administration, Guangzhou 1. Graduate School of Science and Engineering, Kagoshima University, Japan, 2. Research and Education Center for Natural 13:30 [Poster2-39] Microphysical Characteristics and Hazards, Japan, 3. Disaster Prevention Research Institute, Kyoto Types of Precipitation for Different Seasons over North University, Japan, 4. Graduate School, Tohoku University, Japan, 5. Taiwan National Resarch Institute for Earth Science and Disaster Prevention, Japan *Pay-Liam Lin1, Meng-Tze Lee1, Wei-Yu Chang1, Balaji Kumar Seela1, Jayalakshmi Janapati1 1. Department of Atmospheric Sciences, National Central University 13:30 [Poster2-48] Classification of precipitation and volcanic clouds using operational X-band polarimetric 13:30 [Poster2-40] Variability of cloud microphysical radar parameters 1,3 1 2 3 properties in context of thermodynamic and radar-derived *Yura Kim , Masayuki Maki , Masato Iguchi , Dong-In Lee structure of mesoscale convective systems: results from 1. Research and Education Center for Natural Hazards, Kagoshima University, Japan, 2. Sakurajima Volcano Research Center/DPRI, PECAN 1 2 3 3 Kyoto University, Sakurajima, Kagoshima, Japan, 3. Department of *Greg McFarquhar , Dan Stechman , Robert Rauber , Brian Jewett Environmental Atmospheric Sciences, Pukyong National University, 1. Cooperative Institute for Mesoscale Meteorological Studies and Namgu, Busan, Republic of Korea School of Meteorology, University of Oklahoma, 2. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma, 3. Dept. of Atmospheric Sciences, University of Illinois 13:30 [Poster2-49] What does a positive KDP-peak region above the melting level indicate? ~ Statistics of KDP profiles obtained by a Ka-band polarimetric radar ~ 13:30 [Poster2-41] Conversion of the Vertical Profile of 1 2 3 Reflectivity from Ku band to C band based on the Drop *Taro Shinoda , Tadayasu Ohigashi , Hiroyuki Yamada , Yukiya Minami4, Kazuhisa Tsuboki1 Size Distribution from the Global Precipitation 1. Institute for Space-Earth Environmental Research, Nagoya Measurement mission (GPM) Dual-frequency Precipitation University, 2. National Research Institute for Earth Science and Radar (DPR) Disaster Resilience (NIED), 3. University of the Ryukyus, 4. Ishikawa *Ziwei Zhu1, Youcun Qi1 Prefectural University 1. Institute of Geographical Sciences and Resources Research, Chinese Academy of Sciences 13:30 [Poster2-50] Overview of JAXA A-train Products Towards EarthCARE Synergistic Research 13:30 [Poster2-42] Characteristic Analysis of the *Yuichiro Hagihara1, Maki Kikuchi1,2, Hajime Okamoto3, Tomoaki Downburst in Greely,Colorado on 30 July 2017 Using Nishizawa4, Takashi Y. Nakajima5, Takuji Kubota1, Riko Oki1 WPEA Method and X-Band Radar Observations 1. JAXA, 2. The University of Newcastle, 3. Kyushu University, 4. *Hao Wang1, Venkatachalam Chandrasekar2, Jianxin He1, Zhao Shi1, National Institute for Environmental Studies, 5. Tokai University Lijuan Wang1 1. Chengdu University of Information Technology, 2. Colorado State 13:30 [Poster2-51] Vertical Structure and Dynamical University Properties during Snow Events in Middle Latitudes of China from VPR-CFMCW Observations 13:30 [Poster2-43] Development of modular ice *Ye Cui1,2, Zheng Ruan2, Ming Wei1, Feng Li2, Runsheng Ge2 microphysics retrieval for AWARE and other ARM sites 1. NUIST, 2. CAMS Frederic Tridon1, Petros Kalogeras2,3, *Alessandro Battaglia2,3, Stefan 1 4 Kneifel , Ann Fridlind 13:30 [Poster2-52] The analysis of lightning 1. Institute for Geophysics and Meteorology, University of Cologne, characteristics using LINET and S-band Polarimetric radar Cologne, Germany, 2. Department of Physics and Astronomy, in Korea. University of Leicester, Leicester, UK, 3. National Center for Earth 1 1 1 1 Observation, University of Leicester, Leicester, UK, 4. NASA Goddard *Mi-Young Kang , Cheol-Hwan You , Dong-In Lee , Hyeon-Joon Kim Institute for Space Studies, NY, USA 1. Pkyoung National University

13:30 [Poster2-44] Large-Eddy Simulations of Cumulus 13:30 [Poster2-53] The evolution and structure of a long- Congestus Cloud Using Super Droplet Method lived triple-hailfall storm using polarimetric radar in *Toshiki Matsushima1, Seiya Nishizawa1, Shin-ichiro Shima1,2 southeast China 1 1 1 1. Riken Center for Computational Science, 2. Graduated School of *Ang Zhou , Kun Zhao , Hao Huang Simulation Studies, University of Hyogo 1. Key Laboratory of Mesoscale Severe Weather/MOE and School of Atmospheric Sciences, Nanjing University, 163 Xianlin Road, Nanjing, 13:30 [Poster2-45] Generation of Rain Drops at Cloud China

Bottom Observed with W-band Cloud Radar FALCON-I *Keisuke HIKAWA1, Taichi IURA1, Hyuga MORITA1, Ryo FUEDA1, 13:30 [Poster2-54] Snow Microphysical Characteristics Yohei KAWAMURA1, Toshiaki TAKANO1, Atsushi HIGUCHI2, Tamio and Snowfall Estimation by Z-SR Relations Derived from TAKAMURA2, Fumiaki KOBAYASHI3, Kazuomi MOROTOMI4, 2D Video Disdrometers in East China Shigeharu SHIMAMURA4, Hisato IWASHITA5 *Ranting Tao1, Kun Zhao1 1. Graduate School of Engineering, Chiba University, 2. Center for 1. Nanjing University Environmental Remote Sensing, Chiba University , 3. National Defense Academy of Japan, 4. Japan Radio Co., Ltd, 5. Meisei 13:30 [Poster2-55] A new generalized approach for Electric co., Ltd distribution normalization and implications for radar retrieval of raindrop size distributions 13:30 [Poster2-46] Advances in Chinese Dual-polarization *Hugh Morrison1, Matthew R. Kumjian2, Olivier P. Prat3, Marcus van and Phased-array Weather Radars: Observational Lier-Walqui4 Analysis of a Supercell in Southern China 1. National Center for Atmospheric Research, 2. Pennsylvania State *Chong Wu1, Liping Liu1, Xi Liu1 University, 3. North Carolina Institute for Climate Studies, North 1. Chinese Academy of Meteorological Sciences Carolina State University, 4. NASA Goddard Institute for Space Studies and Columbia University

18

13:30 [Poster2-56] A Hydrometeor Classification Method and Its Applications for X-band Dual-polarization Radar 13:30 [Poster2-65] Downburst observations using a high Measurements density ground surface meteorological observation *Hui Xiao1,2, Liang Feng1, Yue Sun1,2 network 1. Key Laboratory of Cloud Precipitation Physics and Severe Storms *Hisato Iwashita1, Toshiaki Morita1, Koji Shibata1, Fumiaki Kobayashi2 (LACS), & Center of Disaster Reduction, Institute of Atmospheric 1. Meisei Electric Co.,ltd., 2. National Defense Academy Physics, Chinese Academy of Sciences, 2. University of Chinese Academy of Sciences (UCAS) 13:30 [Poster2-66] Characteristics and Precipitation of Three Types of Convective Storms During the Beijing 13:30 [Poster2-57] DERIVING MICROPHYSICAL Extreme Rainfall of 15-17 July 2018 CHARACTERISTICS OF SNOW AND ICE PARTICLES *CHA YAN CAO1 FROM A DUAL POL WEATHER RADAR 1. National Meteorological Centre *Erwan LE BOUAR1, Jacques TESTUD1, Emmanuel MOREAU1 1. NOVIMET 13:30 [Poster2-67] The first detection of a significant tornado in China with Doppler weather radar 13:30 [Poster2-58] Performance evaluation of a radar- *Xiaoding Yu1 based super-cooled water detection algorithm during the 1. Training Center, China Meteorological Administration SNOWIE Field Campaign *David Serke1, Sarah Tessendorf1, Alexei Korolev2, Ivan Heckman2, 13:30 [Poster2-68] Analysis of Mesoscale Character on Jeff French3, Allyson Rugg1, Julie Haggerty1, David Albo1 Bohai Ocean–effect Snowstorm by Doppler Radar Data 1. NCAR, 2. ECCC, 3. University of Wyoming *CHENG FANG YANG1 1. Shandong Meteorological Observatory 13:30 [Poster2-59] Dynanmical and Microphysical Properties of Precipitating Clouds in the South of China 13:30 [Poster2-69] Energetics and Rotational Dynamics of Based on VPR-CFMCW and Disdrometer Observations Hurricane Clusters *Zheng Ruan1, Yang Zhao Huo2, Feng Li1, Run Sheng Ge1 *Bryan Kerman1 1. Chinese Academy of Meteorological Sciences, 2. Collaborative 1. none Innovation Center on Forecast and Evaluation of Meteorological Disasters 13:30 [Poster2-70] Evolution and Development Mechanisms of an Intense Arc-Shaped Squall Line 13:30 [Poster2-60] Drop Size Distribution Characteristics Occurring along the South Side of a Cold Vortex of Seven Typhoons from 2D-Video Disdrometer and C- Yanduo GONG2,1,3, *Yongguang ZHENG1,2, Qi LUO2,1 band Polarimetric Radar in China 1. National Meteorological Centre, CMA, 2. Chinese Academy of *Kun Zhao1, Long Wen1 Meteorological Sciences, CMA, 3. Heilongjiang Meteorological Office 1. Nanjing University 13:30 [Poster2-71] A New Machine Learning-Based 13:30 [Poster2-61] Analyzing supercells and their Tornado Detection Algorithm for the WSR-88D Network attendant hazards using raw and bias-corrected S-Band *Thea Sandmael1,2, Kimberly Elmore1,2, Brandon Smith1,2 differential reflectivity 1. OU CIMMS, 2. NOAA NSSL *Darrel Kingfield1, Michael M French2, Jeffrey C Snyder3, Kristopher Tuftedal2, Jacob Segall2 13:30 [Poster2-72] Automated identification of ZDR arcs in 1. Cooperative Institute for Research in Environmental Sciences, simulated radar data: A comparative study University of Colorado, and NOAA/OAR/ESRL/Global Systems *Allison Theresa LaFleur1, Robin Tanamachi1, Daniel Dawson1, Division, Boulder, Colorado, 2. School of Marine and Atmospheric Raychel Nelson1, Brice Coffer2 Sciences, Stony Brook University, Stony Brook, New York, 3. 1. Purdue University, 2. North Carolina State University NOAA/OAR/National Severe Storms Laboratory, Norman, Oklahoma

13:30 [Poster2-73] The evolution of a tornadic supercell 13:30 [Poster2-62] Hailstorm observations with X-band based on data from a mobile, rapid-scan, X-band, polarimetric radars in Tokyo metropolitan area, Japan. polarimetric Doppler radar and a WSR-88D radar, *Yukari Shusse1, Shin-ichi Suzuki1, Takeshi Maesaka1, Kaori Kieda1, Hitoshi Yokoyama1, Koyuru Iwanami1, Kohin Hirano1 integrated with cloud-top features viewed by a rapid- 1. National Research Institute for Earth Science and Disaster update, geosynchronous satellite 1 1 1 2 Resilience *Howard Bluestein , Dylan Reif , Zachary Wienhoff , Daniel Lindsey , 3 Daniel Bikos 13:30 [Poster2-63] Development of a Practical 1. School of Meteorology, University of Oklahoma, 2. NOAA/NESDIS, 3. Cooperative Institute for Research in the Atmosphere (CIRA) Hydrometeor Classification Algorithm via a Bayesian

Approach Using C-band Dual Polarization Radar 13:30 [Poster2-74] The Nature of Winter Thunderstorms in *Akihito Umehara1, Tetsuji Koike2, Kentaro Yamamoto3, Nobuhiro 3 3 Japan Nagumo , Hiroshi Yamauchi 1 1. Meteorological Research Institute, JMA, 2. Osaka Regional *Koichiro Michimoto Headquarters, JMA, 3. Observation Department, JMA 1. Otowa Electric Co. Ltd.

13:30 [Poster2-64] Triple-Frequency Airborne Radar 13:30 [Poster2-75] Radar analysis of linear rain bands Observations of Mid and High Latitude Clouds occurred Kochi Prefecture during the Heavy Rain Event of *Cuong Nguyen1, Mengistu Wolde1, Samuel Haimov2, Alexei Korolev3, July 2018 1 1 Leonid Nichman1, Matthew Bastian1, Natalia Bliankinshtein1, Ivan *Akira Nishii , Koji Sassa Heckman3 1. Kochi University 1. Flight Research Laboratory, National Research Council Canada, Ottawa, Canada, 2. Department of Atmospheric Sciences, University 13:30 [Poster2-76] A Comparison of the Polarimetric Radar of Wyoming, Wyoming, USA, 3. Environment and Climate Change Characteristics of Hurricanes Harvey (2017) and Florence Canada, Toronto, Canada (2018) *Jennifer DeHart1, Michael Bell1 [Poster2] 13:30-15:00 @CR1-2 & CR3-4 1. Colorado State University

Organized Convection and Severe 13:30 [Poster2-77] Classification of Heavy Ocean–effect Phenomena Snow by Doppler Radar Observations 19

*chang liu1 *Huiling Yang1, Xiao Hui1,2,3, Yue Sun1,2,3 1. Meteorological Observatory in Shandong Province 1. Key Laboratory of Cloud Precipitation Physics and Severe Storms (LACS), & Center of Disaster Reduction, 2. Institute of atmospheric 13:30 [Poster2-78] THE Effect of wind shear on physics, Chinese academy of sciences, 3. University of Chinese thunderstorms lightning ACTIVITY: a CASE STUDY IN THE Academy of Sciences (UCAS) AMAZON BASIN *Pedro Augusto Sampaio Messias Ribeiro1, Carlos Augusto Morales 13:30 [Poster2-88] An Observational Study of Jumping Rodriguez1 Cirrus with Ground-based Visible Cameras and X-band 1. Universidade de Sao Paulo Radar *Takafumi Seguchi1, Suginori Iwasaki1, Masashi Kamogawa2, Tomoki 13:30 [Poster2-79] Investigation of the Local Torrential Ushiyama3, Hajime Okamoto4 Rains in Ordos on July 7-10, 2016 1. NDA of Japan, 2. GCARR, University of Shizuoka , 3. ICHARM, *xuefeng meng1, jingbo yun1 PWRI, 4. RIAM, Kyushu University 1. Inner Mongolian Meteorological Observatory 13:30 [Poster2-89] Cause Analysis of an Extreme Gale 13:30 [Poster2-80] Preliminary Analysis of the Causes of Event in Lingui 1 "811" Strong Tornado weather *Mengsong Nong *jingbo yun1, xuefeng meng1 1. Guangxi Meteorological Observatory 1. Inner Mongolia Autonomous Region Meteorological Observatory 13:30 [Poster2-90] Influence of Synoptic Pattern and Low- 13:30 [Poster2-81] A study on the physical process Level Wind Speed on Intensity and Diurnal Variations of involved in the genesis of a severe tropical tornado Orographic Convection in Summer over Pearl River Delta, *xiuming wang1, Xiaoding Yu1 South China 1. China meteorological Administration Training center *Xiaona Rao1, Kun Zhao1 1. Key Laboratory of Mesoscale Severe Weather/MOE and School of 13:30 [Poster2-82] Microphysical Characteristics of a Atmospheric Sciences, Nanjing University, Nanjing, China Great Rainstorm in Northern China Observed by 2DVD and Micro Rain Radar 13:30 [Poster2-91] Multi-scale structure of meso-gamma *Li Luo1,2, Hui Xiao1,2, Huiling Yang1, Haonan Chen3,4, Jia Guo5, Yue scale vortex observed by X-band Doppler radars 1 1 1 1 Sun1,2 *Hanako Inoue , Kenichi Kusunoki , Naoki Ishitsu , Kenichiro Arai , 2 1 2 1. Institute of Atmospheric Physics, Chinese Academy of Sciences, 2. Chusei Fujiwara , Toru Adachi , Hiroto Suzuki University of Chinese Academy of Sciences (UCAS), 3. Cooperative 1. Meteorological Research Institute, Japan Meteorological Agency, 2. Institute for Research in the Atmosphere, Colorado State University, East Japan Railway Company Fort Collins, 4. NOAA/Earth System Research Laboratory, Boulder, 5. Beijing Metstar Radar CO., LTD 13:30 [Poster2-92] Preliminary results from the Tiny TWIRL 2019 tornado low-level wind study 13:30 [Poster2-83] Patterns of Thunderstorm Evolution *Karen Ann Kosiba1, Joshua Wurman1 Over Lake Victoria Basin Based on Meso- and Local-Scale 1. The Center for Severe Weather Research Environmental Factors *Rita Roberts1, James Wilson1, Daniel Megenhardt1, Pascal Waniha2, 13:30 [Poster2-93] Preliminary results from the CSWR Benedicto Katole2 2019 hurricane low-level wind campaign 1. NCAR, 2. TMA *Joshua Wurman1, Karen Ann Kosiba1 1. The Center for Severe Weather Research 13:30 [Poster2-84] Radar-based “Diurnal-Cycle Indices” for hydrometeorology over Indonesian maritime continent 13:30 [Poster2-94] Characteristics of QLCS Downdrafts *Manabu D. Yamanaka1,2,3, Shuichi Mori3, Hiroyuki Hashiguchi4, and Environments Observed during the VORTEX- Albertus Sulaiman5, Reni Sulistyowati5, Mariko Ogawa4, Osamu Southeast Project Kozan1,4 James Marquis1, *Karen Ann Kosiba1, Joshua Wurman1 1. Research Institute for Humanity and Nature (RIHN), 2. Kobe 1. The Center for Severe Weather Research University, 3. Japan Agency for Marine-Earth Science and Technology (JAMSTEC), 4. Kyoto University, 5. Agency of Assessment and 13:30 [Poster2-95] A dual-polarization radar observation of Application of Technology (BBPT) the thunderstorm dominated by positive cloud to ground

lightning flash 13:30 [Poster2-85] An updated and extended radar-based *Syugo Hayashi1,2, Akihito Umehara2, Nobuhiro Nagumo3 hail climatology for Switzerland 1. Tokyo Metropolitan University, 2. Meteorological Research Institute, 1 2 1 *Simona Trefalt , Katharina Schroeer , Urs Germann , Alessandro M JMA, 3. Observation Department, JMA 1 2 2 Hering , Luca Nisi , Cornelia Schwierz 1. MeteoSwiss, Division for Radar, Satellite and Nowcasting, 2. 13:30 [Poster2-96] Tornado Recognition Algorithm Based MeteoSwiss, Division for Analysis and Forecasting on Fuzzy Logic

*jia xu1, Qiangyu Zeng1, Jianxin He1, Yi Zhu2 13:30 [Poster2-86] Multifractal analysis on rainfall rate 1. CUIT , 2. Jiangsu Atmospheric Detection Center obtained by radars and the numerical model CReSS during 3 Typhoon cases in 2012 in S. Korea 1,2 2 2 13:30 [Poster2-97] Development process and lightning *Jisun Lee , Ioulia Tchiguirinskaia , Daniel Schertzer , Yu-Chieng characteristics of a supercell thunderstorm observed by Liou3, Dong-In Lee1 1. Department of Environmental Atmospheric Science, Pukyong Tokyo LMA, an X-band phased array weather radar, and X- National University, Busan, Republic of Korea, 2. HM&Co, École des band polarimetric radars in Tokyo, Japan 1 2 2 Ponts, UPE, Champs-sur-Marne, France, 3. Department of *Namiko Sakurai , Paul R. Krehbiel , William Rison , Rohald J. 2 2 1 1 Atmospheric Sciences, National Central University, Jhongli City, Thomas , Daniel Rodeheffer , Shingo Shimizu , Koyuru Iwanami , 1 1 1 Taiwan Takeshi Maesaka , Kaori Kieda , Yasushi Uji 1. National Research Institute for Earth Science and Disaster 13:30 [Poster2-87] Comparison of Cloud Microphysical Resilience (NIED), 2. New Mexico Tech., NM, USA

Characteristic Simulations of Atmospheric Models with 13:30 [Poster2-98] Observations of convective storm and Hydrometeor Classification Based on X-band Dual- tornado-like vortex using X- and Ka-band radars and Polarization Radar Measurements for a Strong Convective Doppler lidars in Tokyo, Japan Cloud Precipitation

20

*Shin-ichi Suzuki1, Takeshi Maesaka1, Koyuru Iwanami1, Kaori Kieda1, Yasushi Uji1 13:30 [Poster3-99] Extended Validation of Composite- 1. National Research Institute for Earth Science and Disaster Weighted Rain Rate Algorithm using Iowa XPOL-5 Radar Resilience Scans over a Twin-Bucket Rain Gauge Network Merhala Thurai1, V. N. Bringi1, *Kumar Vijay Mishra2, Witold Krajewski2 13:30 [Poster2-99] A Comparison of MRMS Echo Top 1. Colorado State University, 2. University of Iowa Altitudes and Cloud-Top Heights from Satellite *Skylar S Williams1, Kristin M Calhoun2 [Session 7A] 15:00-16:00 @NH 1. OU/CIMMS NOAA/OAR/NSSL, 2. NOAA/OAR/NSSL Radar Networks, Quality Control, 13:30 [Poster2-100] Interactions between the atmospheric Processing and Software large-scale and the small-scale tropical convection properties 15:00 [Session 7A-01] Artificial Intelligence and weather *Valentin Louf1, Christian Jakob1, Alain Protat2 1. Monash University, 2. Bureau of Meteorology radars 1 1 2 *Chandra V Chandrasekar , Ryan Gooch , Joseph Hardin , Haonan Chen3 13:30 [Poster2-101] Developing and Assessing the 1. Colorado State University, 2. PNNL, 3. NOAA, ESRL Performance of an Object-Based Tornado Debris Signature Detection Algorithm 15:15 [Session 7A-02] Classification of Rain Echoes by *Jeffrey Snyder1, John Krause2,1, Arthur Witt1 Deep Learning Using Phased Array Weather Radar Data 1. NOAA/OAR National Severe Storms Laboratory, 2. Cooperative *Shinsuke Satoh1, Hiroshi Hanado1, Seiji Kawamura1, Tomohiko Institute for Mesoscale Meteorological Studies, University of Oklahoma Konno1, Michiaki Iwazume1, Shigenori Otsuka2, Takemasa Miyoshi2

1. National Institute of Information and Communications Technology, 2. 13:30 [Poster2-102] Polarimetric Radar Characteristics of RIKEN Center for Computational Science Large Hail and Its Growth *Jeffrey Snyder1, John Krause2,1, Kiel Ortega2,1 1. NOAA/OAR National Severe Storms Laboratory, 2. Cooperative 15:30 [Session 7A-03] Correction of Polarimetric Institute for Mesoscale Meteorological Studies, University of Oklahoma Observations from SSPA X-band Weather Radar *Jeong-Eun Lee1, Sung-Hwa Jung1 13:30 [Poster2-103] Two Distinct Modes of Precipitation 1. Weather Radar Center, Korea Meteorological Administration, South Korea Systems around the Southwestern Coast of Sumatra

During the Passage of an MJO Event 15:45 [Session 7A-04] Research to operations: *Biao Geng1, Masaki Katsumata1 Establishing a next generation hail size estimation 1. Japan Agency for Marine-Earth Science and Technology algorithm *Nick Guy1, Scott M Ganson1 13:30 [Poster2-104] Different Precipitation Systems 1. Verisk Weather Solutions between Hiroshima and Hyogo during the Extreme Rainfall Event in July 2018 Revealed by the Radar [Session 7B] 15:00-16:00 @RH1 Observation *Kenta Sueki1,2, Yoshiyuki Kajikawa1,3 Use of Radar Data for Nowcasting and 1. RIKEN Center for Computational Science, 2. RIKEN Cluster for Pioneering Research, 3. Research Center for Urban Safety and Numerical Models Security, Kobe University 15:00 [Session 7B-01] Big Data Assimilation: Past 6 Years 13:30 [Poster2-105] Characteristics of three-dimensional and Future Plans wind field of Line-Shaped Rain Bands around Sapporo. *Takemasa Miyoshi1, Shigenori Otsuka1, Takumi Honda1, Guo-Yuan *Yuta Ohya1, Tomohito Yamada1 Lien2, Yasumitsu Maejima1, Marimo Ohhigashi1, Yoshito Yoshizaki3, 1. Hokkaido university Hiromu Seko4, Hirofumi Tomita1, Shinsuke Satoh5, Tomoo Ushio6, Balazs Gerofi1, Yutaka Ishikawa1, Naonori Ueda1, Kana Koike7, 8 13:30 [Poster2-106] Withdrawn: Low level wind Yasuhiko Nakada characteristics over Cochin, India during the 2018 1. RIKEN, 2. Central Weather Bureau, Taiwan, 3. Meteorological Satellite Center, 4. Meteorological Research Institute, 5. National Monsoon Flood as observed with a 205 MHz wind Profiling Institute of Information and Communications Technology, 6. Tokyo Radar Metropolitan University, 7. MTI, Inc., 8. Tokyo Electric Power Company *Manoj Manguttathil Gopalakrishnan1, Mohanakumar K1, Rakesh V1, 1 1 Rejoy Rebello , Titu Samson 15:15 [Session 7B-02] Impact of Phased Array Radar on 1. Cochin University of Science and Technology Convective-scale Data Assimilation and Forecasting: An

OSSE Study 13:30 [Poster2-107] Field observation of rainfall *Juanzhen Sun1, Zhuming Ying1, Robert Jeff Keeler1 distributed in vertical cross section with Xband radar 1. NCAR under severe windy conditions in 2018 *Hiroki OKACHI1, Yasushi Fujiyoshi2, Tomohito Yamada3 1. Graduate School of Engineering, Hokkaido University, 2. Professor 15:30 [Session 7B-03] Assimilation impact of high- emeritus, Hokkaido University, 3. Faculty of Engineering, Hokkaido temporal-resolution volume scans on quantitative University precipitation forecasts in a severe storm; Evidence from nudging data assimilation experiments with a 13:30 [Poster2-108] Dual-Radar Observation study of thermodynamical retrieval method. Squall lines in China *Shingo Shimizu1, Koyuru Iwanami1, Ryohei Kato1, Namiko Sakurai1, *HaiGuang Zhou1 Takeshi Maesaka1, Kaori Kieda1, Yukari Shusse1, Shin-ichi Suzuki1 1. Chinese Academy of Meteorolgical Science 1. National Research Institute for Earth Science and Disaster Resilience [Poster2] 13:30-15:00 @CR1-2 & CR3-4 15:45 [Session 7B-04] Assimilation impact of cloud radar Quantitative Precipitation Estimation on quantitative precipitation forecast for localized heavy and Hydrology rainfall: Evidence from water vapor nudging data assimilation experiments

21

*RYOHEI KATO1, Shingo Shimizu1, Tadayasu Ohigashi1, Takeshi 17:15 [Session 8B-04] Retrieval of Ice Microphysics using Maesaka1, Koyuru Iwanami1 Simultaneous Measurements at C- and Ka-Band 1. National Research Institute for Earth Science and Disaster *Martin Hagen1, Florian Ewald1, Silke Groß1, Christoph Knote2, Qiang Resilience (NIED) Li1, Bernhard Mayer2, Gregor Möller2, Eleni Tetoni1, Tobias Zinner2 1. DLR Institut fuer Physik der Atmosphaere, 2. LMU Meteorologisches [Session 8A] 16:30-18:00 @NH Institut

Spaceborne Radar and Its Observation 17:30 [Session 8B-05] Microphysics and polarimetric features of snowfall associated with a warm conveyor belt 16:30 [Session 8A-01] History and future plan about the during the ICE-POP 2018 campaign solver module of the DPR standard algorithm *Josue Gehring1, Alfonso Ferrone1, Nikola Besic2, Etienne Vignon1, *Shinta Seto1 Annika Oertel3, Alexis Berne1 1. Nagasaki University 1. EPF Lausanne, 2. Meteo France, 3. ETH Zurich

16:45 [Session 8A-02] GROUPEL AND HAIL 17:45 [Session 8B-06] Microphysical processes identified IDENTIFICATION ALGORITHM FOR GPM by QVP-based hierarchical clustering of polarised X-band minda Le1, *V. Chandrasekar1 Doppler radar observations 1. colorado state university *Maryna Lukach1,2, Ryan R. III Neely1,2, David Dufton1,2, Joshua Hampton1, Lindsay Bennett1,2 17:00 [Session 8A-03] GPM Satellite Radar Observations 1. National Centre for Atmospheric Sciences, LEEDS, United Kingdom , 2. School of Earth and Environment, University of Leeds, of Precipitation Mechanisms in Atmospheric Rivers LEEDS, United Kingdom *Forest Cannon1, Jason M Cordeira2, Marty Ralph1

1. Scripps Institution of Oceanography, University of California San Diego, 2. Plymouth State University

17:15 [Session 8A-04] Global Detection of Mesoscale Convective Systems and Surprise Findings over High- latitudes from the GPM Ku-band Spaceborne Radar *jingyu wang1, Robert Houze2, Jiwen Fan1, Stacy Brodzik2, Zhe Feng1, Joseph Hardin1 1. Pacific Northwest National Laboratory, 2. University of Washington

17:30 [Session 8A-05] The Latitudinal Variability of Raindrop Size Distribution Properties And the Implication for GPM Rainfall Algorithms *Alain Protat1, Christian Klepp2, Valentin Louf3, Walter Petersen4, Simon Alexander5, Ana Barros6, Jussi Leinonen7, Gerald Mace8 1. Australian Bureau of Meteorology, 2. Max Planck Institute for Meteorology, 3. Monash University, 4. NASA Marshall Space Flight Center, 5. Duke University, 6. Australian Antarctic Division, 7. École Polytechnique Fédérale de Lausanne, 8. University of Utah

17:45 [Session 8A-06] A radar-only combined radar- radiometer precipitation algorithm by the spaceborne precipitation radar *Kaya Kanemaru1, Toshio Iguchi1, Atsushi Hamada2 1. NICT, 2. University of Toyama

[Session 8B] 16:30-18:00 @RH1 Microphysical Studies with Radars

16:30 [Session 8B-01] Fully Polarimetric Ka-Band Radar Observations of Ice Pellet Formation *Matthew R Kumjian1, Dana M Tobin1, Mariko Oue2, Pavlos Kollias2,3 1. Department of Meteorology and Atmospheric Science, The Pennsylvania State University, 2. School of Marine and Atmospheric Sciences, Stony Brook University, 3. Brookhaven National Laboratory

16:45 [Session 8B-02] Ka-band Radar Polarimetric and Doppler Spectrum Measurements for Snowbands Along the U.S. Northeast Coast *Mariko Oue1, Pavlos Kollias1,2, Brian A. Colle1, Alexander Ryzhkov3, James Mead4 1. Stony Brook University, Stony Brook, NY, USA, 2. Brookhaven National Laboratory, Upton, NY, USA, 3. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma and National Severe Storms Laboratory, Norman, OK, USA, 4. ProSensing, Amherst, MA, USA

17:00 [Session 8B-03] Polarimetric radar signatures of oriented aggregates *Robert Schrom1, S Joseph Munchak2, Ian S Adams2 1. NASA GSFC/USRA, 2. NASA GSFC

22

9:45 [Session 9B-04] Statistical comparison of convection permitting model simulations with radar observations WEDNESDAY, SEP 18 over the Western Ghats of India *Sachin Deshpande1, Utsav Bhowmik1, Medha Deshpande1, Subrata [Session 9A] 9:00-10:30 @NH Das1, Govindan Pandithurai1 1. Indian Institute of Tropical Meteorology Radar Networks, Quality Control, Processing and Software 10:00 [Session 9B-05] Using Polarimetric Doppler Radar Observations to Probabilistically Inform a New Class of 9:00 [Session 9A-01] A comparison of KDP retrieval Particle-Property Predicting Bulk Ice Microphysics algorithms in an idealized known-truth environment Schemes *Karly Jackson Reimel1, Matthew R Kumjian1 *Matthew R Kumjian1, Marcus van Lier-Walqui2,3, Jerry Y. Harrington1, 1. Pennsylvania State University Robert S. Schrom5, Anders A. Jensen4, Edwin L. Dunnavan1 1. Department of Meteorology and Atmospheric Science, The 9:15 [Session 9A-02] Should interpolation of reflectivity Pennsylvania State University, 2. Center for Climate Systems data be performed in Z or dBZ? Research, Columbia University, 3. NASA Goddard Institute for Space Studies, 4. National Center for Atmospheric Research, 5. NASA Robert A Warren1, *Valentin Louf1, Joshua S Soderholm2, Alain Protat2, Scott M Collis3, Robert C Jackon3, Zachary S Sherman3 Goddard Space Flight Center

1. Monash University, 2. Bureau of Meteorology, 3. Argonne National Laboratory 10:15 [Session 9B-06] Using EnKF radar data assimilation to analyze the impact of microphysical processes on the evolution of the 31 March 2016 Southeast-U.S. tornado 9:30 [Session 9A-03] Application of Geodesy for outbreak during VORTEX-SE Meteorological Multi-Instrument Campaigns 1 1 2,3 1 1 5 *Daniel T Dawson II , Robin Lynn Tanamachi , Youngsun Jung , *Freya Ione Addison , Ryan Reynolds Neely , Jonathan Crosier , Chris 2,3 2,3 2,3 6 8 8 4,3 Jonathan Labriola , Bryan J Putnam , Ming Xue , Pamela Westbrook , Stephanie Evan , Jérome Briode , Chris Walden , Axel 4 5 4 4 2 2 3,4 5 Heinselman , Kent Knopfmeier , Edward R Mansell , Louis J Wicker Wellpott , Graeme Nott , Darcy Ladd , James Dorsey , Mark 1. Purdue University, 2. Center for Analysis and Prediction of Storms, Fortescue3, Steven Abel7, Steven Best7, Sebastian O'Shea5, Chris 2 3. University of Oklahoma, 4. NOAA/National Severe Storms Reed Laboratory, 5. Cooperative Institute for Mesoscale Meteorological 1. University of Leeds, 2. FAAM, 3. Chilbolton Observatory, 4. STFC, Studies 5. University of Manchester, 6. University of Reading, 7. Met Office, 8.

University of Réunion [Session 10A] 11:00-12:00 @NH 9:45 [Session 9A-04] 1-year evaluation of non- Quantitative Precipitation Estimation meteorological echo removal for two C-band radars using dual-pol fuzzy logic and Hydrology *Aart Overeem1,2, Hidde Leijnse1, Remko Uijlenhoet2 1. Royal Netherlands Meteorological Institute, 2. Wageningen 11:00 [Session 10A-01] Enhancing Specific Attenuation University & Research Rainfall Estimates in Stratiform and Convective Rain Regimes 10:00 [Session 9A-05] Withdrawn: Quality Control of Sea *Stephen Cocks1, Lin Tang1, Jian Zhang2, Alexander Ryzhkov1, Clutter and Constant Power Function Artifacts for Pengfei Zhang1, Kenneth Howard2 Operational U.S. Navy Shipboard Radar Data Assimilation 1. CIMMS/NSSL, 2. NSSL *Paul Robert Harasti1 1. U.S. Naval Research Laboratory, Marine Meteorology Division 11:15 [Session 10A-02] How high the resolution can we prefer for the X-band radar precipitation measurement in 10:15 [Session 9A-06] Monitoring the impacts of weather urban regions? radar data quality control at the continental scale *Yaoyao Zheng1, Jan Handwerker1, Norbert Kalthoff1 1 1 1 *Daniel Michelson , Bjarne Hansen , Dominik Jacques , François 1. Karlsruhe Institute of Technology 1 Lemay 1. Environment and Climate Change Canada 11:30 [Session 10A-03] Improved small scale QPE in Seoul metropolitan area by combining X-band and S-band dual- [Session 9B] 9:00-10:30 @RH1 polarimetric radar networks *GyuWon Lee1,4, DaeHyung Lee1, GwangSeob Kim2, Alexander Use of Radar Data for Nowcasting and Ryzhkov3, GeunSu Lyu4, Wonbae Bang4, Hong-Mok Park4 Numerical Models 1. Department of Astronomy and Atmospheric Sciences, Kyungpook National University, Daegu, South Korea, 2. Department of

Architectural, Civil, Environmental, and Energy Engineering, 9:00 [Session 9B-01] Time and Space Observation Error Kyungpook National University, Daegu, South Korea, 3. University of Correlation of Doppler Radar Radial Winds Oklahoma, and NOAA/OAR/National Severe Storms Laboratory, *Tadashi Fujita1, Hiromu Seko1, Takuya Kawabata1, Daisuke Hotta1, Norman, Oklahoma, USA, 4. Center for Atmospheric REmote Sensing, Ken Sawada1, Yasutaka Ikuta2, Masaru Kunii2, Toru Tsukamoto2, Ginga Kyungpook National University, Daegu, South Korea Akimoto2 1. Meteorological Research Institute, Japan Meteorological Agency, 2. 11:45 [Session 10A-04] OPERATIONAL QPE APPLICATION Numerical Prediction Division, Japan Meteorological Agency DEVELOPMENT FOR CANADA S-BAND DUAL-

POLARIZATION RADAR NETWORK. 9:15 [Session 9B-02] Effect of Vertical Error Correlation on *Sudesh Boodoo1, David Hudak1, Norman Donaldson1, Daniel the Assimilation of GPM/DPR Spectral Latent Heating Michelson1, Janti Reid1 1 *Yasutaka Ikuta 1. Environment and Climate Change Canada 1. Japan Meteorological Agency

9:30 [Session 9B-03] A Non-Gaussian approach for [Session 10B] 11:00-12:00 @RH1 assimilating North-American reflectivity measurements Organized Convection and Severe *Dominik Jacques1, Mark Buehner1 1. Environment Canada Phenomena

11:00 [Session 10B-01] Overview of RELAMPAGO mobile radar observations 23

*Karen Ann Kosiba1, Joshua Wurman1, Robert Jeffrey Trapp2, Matthew Kumjian 3, Steve Nesbitt2 1. The Center for Severe Weather Research, 2. University of Illinois at Urbana-Champaign, 3. The Pennsylvania State University

11:15 [Session 10B-02] Radar Observations of the Discrete Propagation of a Mesoscale Convective System During RELAMPAGO-CACTI *Kelly Lombardo1, Matthew R Kumjian2 1. University of Connecticut, 2. The Pennsylvania State Univerisity

11:30 [Session 10B-03] Characteristics of deep convection observed near the Sierras de Cordoba in Argentina *Angela Rowe1, Clayton Sasaki1, Lynn McMurdie1, Stacy Brodzik1, Kristen Rasmussen2 1. University of Washington, 2. Colorado State University

11:45 [Session 10B-04] Prediction of Rainfall Extremes Campaign In the Pacific: PRECIP 2020 *Michael M. Bell1, Kristen Rasmussen1 1. Colorado State University

24

9:30 [Session 11B-03] Asymmetric aspects of secondary eyewalls and their formation in tropical cyclones THURSDAY, SEP 19 *Anthony Didlake, Jr.1, Matthew Kumjian1, Robert Rogers2, Paul Reasor2 [Session 11A] 9:00-10:30 @NH 1. Penn State University, 2. NOAA/AOML/HRD

Spaceborne Radar and Its Observation 9:45 [Session 11B-04] Polarimetric Radar Observations of Size Sorting in the Asymmetric Eyewall of Hurricane 9:00 [Session 11A-01] EarthCARE products and Matthew (2016) challenges for climate change studies *Chelsey N. Laurencin1, Anthony C. Didlake, Jr.1 1 2 2 *Hajime Okamoto , Kentaroh Suzuki , Masaki Satoh , Tomoaki 1. The Pennsylvania State University 3 4 1 1 Nishizawa , Takashi Nakajima , Kaori Sato , Eiji Oikawa , Hiroshi Ishimoto5, Maki Kikuchi6, Takuji Kubota6, Riko Oki6, Toshio Iguchi7, 10:00 [Session 11B-05] Damaging wind fields associated Yuichi Ohno7, Hiroaki Horie7, Shoken Ishii7 1. Research Institute for Applied Mechanics, Kyushu University, 2. with Typhoon Jebi in the Kansai region in Japan on the AORI, University of Tokyo, 3. National Institute for Environmental 4th September 2018 derived from multiple-Doppler wind Studies, 4. Tokai University, 5. Meteorological Research Institute, synthesis over complex terrain Japan Meteorological Agency, 6. Japan Aerospace Exploration *Yoshinori Yamada1 Agency, 7. National Institute of Information and Communications 1. Meteorological Research Institute, Japan Meteorological Agnecy Technology 10:15 [Session 11B-06] Are outer tropical cyclone 9:15 [Session 11A-02] Intercomparisons of CloudSat and rainbands similar to squall lines? *Cheng-Ku Yu1, Che-Yu Lin1, Jhang-Shuo Luo1, Lin-Wen Cheng1 ground-based radar measurements during satellite 1. Department of Atmospheric Sciences, National Taiwan University overpasses *Sergey Y Matrosov1, Alexander Ryzhkov2, Joseph Hardin3, Matthew Shupe1, Maximilian Maahn1, Gijs de Boer1, Taneil Uttal4 [Session 12A] 11:00-12:00 @NH 1. CIRES, Universty of Colorado and NOAA ESRL, 2. CIMMS, University of Oklahoma and NOAA NSSL, 3. PNNL, 4. NOAA ESRL Phased Array Radar Technology and Its Observation 9:30 [Session 11A-03] Probabilistic Quantitative

Precipitation Estimates with Space-based Radars 11:00 [Session 12A-01] Shanghai Urban Array Weather *Pierre-Emmanuel Kirstetter1 1. University of Oklahoma - NOAA National Severe Storms Laboratory Radar Network Experiment *Haojun Chen1, Haizhen Mu1, Qindian Wang1, Xiaoping Xu2, 1 1 1 1 2 9:45 [Session 11A-04] A triple-frequency radar for cloud Chunguang Yin , Jie Zheng , Hao Xue , Chao Liu , Yunshi Li 1. Shanghai Meteorological Information and Technology Support and precipitation microphysical profiling 1 2 3 Center, Shanghai City, China, 2. Hunan Eastone Washon Science and *Alessandro Battaglia , Pavlos Kollias , Frederic Tridon Technology Ltd., Changsha City, China 1. University of Leicester, Leicester, UK, 2. University of Stonybrook, NY, US, 3. University of Cologne, Cologne, Germany 11:15 [Session 12A-02] High-Temporal Resolution 10:00 [Session 11A-05] Impact Assessment of Next Observations of Tornadogenesis Using the Atmospheric Imaging Radar Generation Rainfall Measuring Satellite on NWP: An 1 1,2 1,2 2 Observing System Simulation Experiment for a Typhoon *Casey Griffin , David Bodine , Andrew Mahre , James Kurdzo , Robert Palmer1,2 Case 1,2 1 1 1 1. University of Oklahoma, 2. Advanced Radar Research Center *Atsushi Okazaki , Takumi Honda , Shunji Kotsuki , James Taylor , Takemasa Miyoshi1 1. RIKEN Center for Computational Science, 2. Pennsylvania State 11:30 [Session 12A-03] Development of Convective Cells University Embedded in Widespread Rainfall Observed by Kobe PAWR in July 2018 10:15 [Session 11A-06] The Melting Layer Observation *Shinsuke Satoh1, Hiroshi Hanado1, Yasumitsu Maejima2, Shigenori 2 2 using a Dual Ka-band Radar System Otsuka , Takemasa Miyoshi *Kenji Nakamura1, Yuki Kaneko2, Katsuhiro Nakagawa3, Hiroshi 1. National Institute of Information and Communications Technology, 2. Hanado3, Masanori Nishikawa RIKEN Center for Computational Science 1. Dokkyo University, 2. JAXA/EORC, Japan, 3. NICT, Japan 11:45 [Session 12A-04] An Update on the “Horus” All- Digital Polarimetric Phased Array Weather Radar [Session 11B] 9:00-10:30 @RH1 *Robert Palmer1, Caleb Fulton1, Jorge Salazar1, Hjalti Sigmarsson1, Organized Convection and Severe Mark Yeary1 1. Univ. of Oklahoma/ARRC Phenomena [Session 12B] 11:00-12:00 @RH1 9:00 [Session 11B-01] High-order azimuthal wavenumber asymmetries in rapidly intensifying Hurricane Michael Use of Radar Data for Nowcasting and (2018) Numerical Models 1 1 2 *Ting-Yu Cha , Michael M. Bell , Wen-Chau Lee 1. Colorado State University, 2. National Center for Atmospheric 11:00 [Session 12B-01] Comprehensive Evaluation of Research Mesoscale Convective Systems Simulated in Convection-

permitting WRF Models during the MC3E Field Experiment 9:15 [Session 11B-02] Dramatic changes in the inner-core *Zhe Feng1, Jingjing Tian2, Jiwen Fan1, William I Gustafson1, Die structure of Typhoon Jebi (2018) at landfall and Wang3, Scott Giangrande3, Joseph Hardin1, Nitin Bharadwaj1, Laura relationship between a mesovortex, heavy rainfall, and Riihimaki1 strong wind gusts 1. Pacific Northwest National Laboratory, 2. University of Arizona, 3. *Udai Shimada1, Ryo Oyama1, Akihito Umehara1, Shingo Shimizu2 Brookhaven National Laboratory 1. Meteorological Research Institute, 2. National Research Institute for Earth Science and Disaster Prevention 11:15 [Session 12B-02] Utilizing the Multi-Radar Multi- Sensor Rotation Track product as a verification data set for convection allowing models 25

*Anthony E Reinhart1,2, Patrick S Skinner1,2, Skylar Williams1,2, Travis 1. Meteorological Observation center of CMA M Smith1,2 1. OU/CIMMS , 2. NOAA/OAR/NSSL 13:30 [Poster3-10] The Influence of Large Scale Weather Systems to Atmospheric Refractive Index and Turbulence 11:30 [Session 12B-03] An optimized radar-derived cloud Intensity in Clear Air ice mass model for nowcasting lightning *Ruiyi Li1, Lei Wu1 *Evan Ruzanski1, V. Chandrasekar2 1. China Meteorological Administration Meteorological Observation 1. Vaisala, 2. Colorado State University Center

11:45 [Session 12B-04] Introduction for Radar Nowcasting 13:30 [Poster3-11] Nonlinear Three-dimensional Wind of Severe weather events over Lake Victoria Basin in East Field Retrieval of Typhoon Based on Modified VAD Africa Analysis *Pascal Felix Waniha1, Rita Roberts2, James Wilson2, Agnes Kijazi1, *Jiaqi Hu1, Zewei Zhao1, Cheng Hu1,2 Benedicto Katole1 1. Beijing Institute of Technology, 2. The Key Laboratory of Electronic 1. Tanzania Meteorological Agency, 2. National Center for Atmospheric and Information Technology in Satellite Navigation Research 13:30 [Poster3-12] Cloud Radar and Thermodynamic [Poster3] 13:30-15:00 @CR1-2 & CR3-4 Profiling to Investigate Bulk Entrainment for Tropical Deep Convective Clouds Wind Profiler, Cloud Radar, and *Scott Giangrande1, Die Wang1, Michael P Jensen1, Jennifer D’Iorio2, NonHydrometeorological Radar Gina Jozef3, Karen L Johnson1, Johnny Luo4, Mariusz Starzec5, Gretchen Mullendore5 1. Brookhaven National Laboratory, 2. The Pennsylvania State 13:30 [Poster3-01] Cloud macro physical characteristics in University, 3. Colorado College, 4. City College of New York, 5. Beijing based on Ka-radar data during 2014-2017 University of North Dakota *Juan HUO1 1. Institute of Atmospheric Physics, Chinese Academy of Sciences 13:30 [Poster3-13] Two simple methods to monitor the calibration of a 35 GHz cloud radar 13:30 [Poster3-02] Development of next-generation 1.3 *Ulrich Goersdorf1, Volker Lehmann1 GHz wind profiler radar 1. Deutscher Wetterdienst, Meteorologisches Observatorium *Masayuki Yamamoto1, Seiji Kawamura1, Koji Nishimura2, Makoto Lindenberg Aoki1, Hironori Iwai1, Kosei Yamaguchi3, Eiichi Nakakita3 1. National Institute of Information and Communications Technology 13:30 [Poster3-14] Weather radar detection of tropical (NICT), 2. National Institute of Polar Research, 3. Disaster Prevention mixed-layer top capping forest-fire smog over maritime- Research Institute (DPRI), Kyoto Univeristy continent peatland *Muhammad Arif Rahman1, Manabu D. Yamanaka2,3,4, Masahiro 13:30 [Poster3-03] Special application of polarimetric Kawasaki2,5, Devis Styo Nugroho1, Yutaka Matsumi6, Masafumi phased array weather surveillance radar Ohashi7, Hiroyuki Hashiguchi5, Shuichi Mori4, Osamu Kozan2,5 *Dusan Zrnic1, S. Koch1, V. Melnikov2, R. Rabin1, P. Zhang2 1. Indonesian Meteorological, Climatological, and Geophysical Agency 1. NOAA/NSSL, 2. CIMMS/OU (BMKG), 2. Research Institute for Humanity and Nature (RHIN), 3. Kobe University, 4. Japan Agency for Marine-Earth Science and 13:30 [Poster3-04] Study on adaptive clutter rejection Technology (JAMSTEC), 5. Kyoto University, 6. Nagoya University, 7. system using external receiving antennas for the MU radar Kagoshima University *Hiroyuki Hashiguchi1, Mamoru Yamamoto1 1. RISH, Kyoto University 13:30 [Poster3-15] A 35-GHz FMCW Radar for Long-Term Observations of Cloud Parameters in Tibet Plateau 13:30 [Poster3-05] Application of Parametric Speakers to *Yongheng BI1, Shu Duan1, Congzheng HAN1, Daren LYU1 RASS 1. Institute of Atmospheric Physics,Chinese Academy of Sciences

*Ahoro ADACHI1, Hiroyuki Hashiguchi2 1. MRI, 2. RISH 13:30 [Poster3-16] Research and development for practical use of next-generation wind profiler radar 1 1 1 13:30 [Poster3-06] Comparison of Vertical Velocities in Ice *HIROSHI YAMAGUCHI , KOJI SAITO , TAKAYUKI HAMADA , MASAYUKI YAMAMOTO2, SEIJI KAWAMURA2, KATSUYUKI IMAI1 Clouds from Millimeter-Wavelength Radar Measurements 1. SUMITOMO DENSETSU CO., LTD., 2. National Institute of *Bo-Young Ye1, Eunsil Jung2, Sun-yeong Moon3, GyuWon Lee1,3 Information and Communications Technology 1. Center for Atmospheric REsmote sensing, Kyungpook National University, 2. School of Disaster Prevention and Environmental 13:30 [Poster3-17] Cloud Type Identification Based on Engineering, Kyungpook National University, 3. Department of Astronomy and Atmospheric Sciences, Research and Training Team Millimeter-Wave Radar RHI Data 1 1 for Future Creative Astrophysicists and Cosmologists, Kyungpook *Zhoujie Cheng , Xiangneng Zeng National University 1. Beijing Institute of Aviation meteorology

13:30 [Poster3-18] Planning for LOTOS: A New LOwer 13:30 [Poster3-07] Exploring the Spatial Variability of Tropospheric Observing System Cloud Structures from the ARM CACTI Campaign Terry Hock1, Steve Oncley1, Tammy Weckwerth1, Britton Stephens1, 1 1 1 *Bradley Isom , Nitin Bharadwaj , Adam Varble William Brown1, Alison Rockwell1, *Wen-Chau Lee1, Vanda Grubišić1 1. Pacific Northwest National Laboratory 1. NCAR/EOL

13:30 [Poster3-08] Updraft and Downdraft Core 13:30 [Poster3-19] Interaction between Cloud Particles Kinematics of Mesoscale Convective Systems as and Winds observed with W-band Cloud Profiling Doppler Revealed by Radar Wind Profilers Radar FALCON-I and Wind Profiler 1 1 2 2 *Die Wang , Scott Giangrande , Zhe Feng , Joseph Hardin , Andreas *Toshiaki TAKANO1, Ryo FUEDA1, Hyuga MORITA1, Keisuke 3 Prein HIKAWA1, Tomohiro ARAI1, Yohei KAWAMURA1, Hiroyo OHYA1, 1. Brookhaven National Lab, 2. Pacific Northwest National Laboratory, Hiroyuki NAKATA1, Masayuki YAMAMOTO2, Seiji KAWAMURA2 3. National Center for Atmospheric Research 1. Chiba University, 2. National Institute of Information and Communications Tecnology 13:30 [Poster3-09] Some Discoveries of Cloud Processes by Ground-Air Joint Detection *Chen Daren1 26

[Poster3] 13:30-15:00 @CR1-2 & CR3-4 1. OU/CIMMS & NOAA/OAR/NSSL

Radar Networks, Quality Control, 13:30 [Poster3-32] A study of the Partial Beam Blockage Processing and Software Effect Using a Dual-Pol Radar in the Complex Terrain of Southern Taiwan *Hsin-Hao Liao1, Chih-Chien Tsai1, Chi-Huei Tseng2 13:30 [Poster3-20] A Less-Tapered Signal Processing 1. National Science and Technology Center for Disaster Reduction, 2. Window for Polarimetric Variables Taiwan Ocean Research Institute, National Applied Research *Lindsey Richardson1, Igor Ivić2 Laboratories 1. NEXRAD Radar Operations Center, Norman, Oklahoma, 2. Cooperative Institute for Mesoscale Meteorological Studies, University 13:30 [Poster3-33] Computing Vorticity from Airborne of Oklahoma, and NOAA/OAR/National Severe Storms Laboratory, Doppler Radar VAD Profiles Norman, Oklahoma *Charles N Helms1,2 1. NASA Goddard Space Flight Center, 2. Universities Space 13:30 [Poster3-21] An Improved Technique for Estimating Research Association ZDR Bias from Light Rain on Radars that Cannot Vertically Point 13:30 [Poster3-34] Networking observations with rapid- *Lindsey Richardson1, Robert Lee1 scanning radars and dual-pol radars for the applications 1. NEXRAD Radar Operations Center of snow retrieval and cloud development *Ayano Ueki1, Michihiro S. Teshiba1, David J. Bodine2, Tian-You Yu2, 13:30 [Poster3-22] The X-band Teaching and Research Boon Leng Cheong2, Robert D. Palmer2 RAdar (XTRRA) at Purdue University, U.S.A.: Updates and 1. Weathernews Inc., 2. University of Oklahoma new initiatives *Robin L Tanamachi1, Lauren Warner1, Milind Sharma1, Allison T 13:30 [Poster3-35] Beyond weather data … key figures for LaFleur1, Daniel T Dawson1 radar monitoring and calibrations! 1. Purdue University *Hassan AL SAKKA1, André Weipert1 1. Leonardo Germany GmbH 13:30 [Poster3-23] A reliable and flexible real time base data distribution framework for weather radar network 13:30 [Poster3-36] Analysis of Radar Visibility for *zhaoping sun1, jian sun1, chi'an zhang1 Proposed Canadian Weather Radars 1. Bejing Metstar Radar Commany CO LTD *Norman R Donaldson1, Ingrid Wong2, Qian Li2, Peter Leibiuk2, Steven Brady2 13:30 [Poster3-24] A standard operating procedure (SOP) 1. Environment and Climate Change Canada, OBRS/MRD/STB, 2. for Weather Radars operation, monitoring, maintenance Environment and Climate Change Canada, CWRRP/MSC and calibration. 13:30 [Poster3-37] Verification of the retrieval of *Ljubov Joanna Liman1, Mikko Kurri1, Timo Posio1 1. Finnish Meteorological Institute calibration bias estimates from spaceborne radars using ground radar overlaps 1,2 2 13:30 [Poster3-25] Improving Doppler Velocity Coverage *Irene Crisologo , Maik Heistermann 1. Northwestern University, 2. University of Potsdam on the WSR-88D By Using Low PRFs with 2DVDA

*Autumn Losey-Bailor1, Walter David Zittel1, Zhongqi Jing2,1 13:30 [Poster3-38] X-band Doppler Weather Radar Velocity 1. Radar Operations Center, 2. Centuria Corporation Unfolding Using Convolutional Neural Network Hyeri Kim1,2, *Boon-Leng Cheong1,2, Tian-You Yu1,2,3 13:30 [Poster3-26] The impact of the radar differential 1. Advanced Radar Research Center, University of Oklahoma, 2. phase upon transmission on the polarimetric variables School of Electrical and Computer Engineering, University of *Valery V Melnikov1 Oklahoma, 3. School of Meteorology, University of Oklahoma 1. Oklahoma University 13:30 [Poster3-39] Testing a new scan pattern for the 13:30 [Poster3-27] GPU acceleration for operational German weather radar network to provide a better consumer-facing radar mosaics and nowcasting surveillance of rapid cell development at a one minute *Sarvesh Garimella1 resolution 1. MyRadar Jörg Seltmann1, Thomas Hohmann1, *Michael Frech1 1. Deutscher Wetterdienst 13:30 [Poster3-28] Sensitivity Analysis of Polarimetric Observations by Two Different Pulse Lengths of Dual- 13:30 [Poster3-40] China Weather Radar Network Polarization Weather Radar *Yuchun Gao1 *Jeong-Eun Lee1, Sung-Hwa Jung1, Jong-Seong Kim1, KunIl Jang1 1. Meteorological Observation Center, CMA,China 1. Weather Radar Center, Korea Meteorological Administration, South Korea 13:30 [Poster3-41] A Novel Feature Matching Technique Based on Multiple Textures for Cloud Images 13:30 [Poster3-29] Partial Beam Blockage Area *Hong Jiang1, Boon Leng Cheong1, Tian-You Yu1 Identification and Estimation in an X-band Networked 1. The University of Oklahoma Radar Environment *Rui Li1, JianXin He1, Shunxian Tang1 13:30 [Poster3-42] pysteps - an open-source Python 1. Chengdu University of Information Technology library for radar-based precipitation nowcasting *Seppo Pulkkinen1,2, Daniele Nerini3,4, Andrés Pérez Hortal5, Carlos 13:30 [Poster3-30] Current Status of the Lidar Radar Open Velasco-Forero6, Alan Seed6, Urs Germann3, Loris Foresti3, V. Software Environment (LROSE) Chandrasekar1,2, Ari-Matti Harri2 *Michael M. Bell1, Michael Dixon2, Wen-Chau Lee2, Ting-Yu Cha1, 1. Colorado State University, Fort Collins, Colorado, United States, 2. Jennifer DeHart1, Ya-Chien Feng1,2, Brenda Javornik2, Bruno Melli1 Finnish Meteorological Institute, Helsinki, Finland, 3. Federal Office of 1. Colorado State University, 2. National Center for Atmospheric Meteorology and Climatology MeteoSwiss, Locarno, Switzerland, 4. Research Institute for Atmospheric and Climate Science, ETH Zurich, Switzerland, 5. Department of Atmospheric and Oceanic Sciences, 13:30 [Poster3-31] Radar-based Hail Size Prediction using McGill University, Montreal, Canada, 6. Bureau of Meteorology, Machine Learning Melbourne, Australia *Skylar S Williams1, Kiel L Ortega 1

27

13:30 [Poster3-43] Identifying Non-meteorological Radar 1. Meteorological Observation Centre Of China Meteorological Signal Using Modified Fuzzy-logic Algorithm with Administration, 2. State Key Laboratory of Severe Weather, Chinese Objectively Derived Weighting Matrix Academy of Meteorological Sciences *Wei-Yu Chang1, Ju-Yu Chen2 1. National Central University, 2. University of Bonn 13:30 [Poster3-55] Rain Attenuation Correction of Reflectivity for X-Band Dual-Polarization Radar 13:30 [Poster3-44] Sea clutter characteristic and rejection *Liang Feng1,2,3, Hui Xiao1,2,3 of CINRAD weather radar 1. Key Laboratory of Cloud Precipitation Physics and Severe Storms *zhao shi1, Jianxin He1 (LACS), & Center of Disaster Reduction, 2. Institute of atmospheric 1. Chengdu University of Information Technology physics, Chinese academy of sciences, 3. University of Chinese Academy of Sciences (UCAS) 13:30 [Poster3-45] Use of Space-borne Radar 13:30 [Poster3-56] DOW radar and adaptive ground Observations in Evaluating Ground Radar Non- observation network precipitation Echo Identification Algorithm *Joshua Wurman1, Karen Ann Kosiba1 *shuai Zhang1 1. The Center for Severe Weather Research 1. Shanghai typhoon institute, CMA

13:30 [Poster3-57] Toward Improved Meteorological 13:30 [Poster3-46] Establishment of the SSPA X-band Estimates for Polarimetric Weather Radars Dual-polarization Radar Network over the Seoul *David A Warde1,2, Christopher Curtis1,2, David Schvartzman1,2, Metropolitan Area Sebastian Torres1,2 *Ji-Young Gu1, Sunjin Mo1, Jinwoo Park1, Sung-Hwa Jung1, Kyung- 1 1 1. CIMMS/University of Oklahoma, 2. NOAA/OAR/NSSL Yeub Nam , Kunil Jang 1. Weather Radar Center of the Korea Meteorological Administration 13:30 [Poster3-58] Statistical analyses of strong X-band

weather radar returns from wind turbines 13:30 [Poster3-47] Case Studies on the Benefit of the X- *Martin Lainer1, Jacopo Grazioli1, Jordi Figueras i Ventura1, Zaira band Radar Network in Korea: Waterspout Phenomenon Schauwecker1, Marco Gabella1 and Snow 1. Radar, Satellite and Nowcasting Department, MeteoSwiss, Locarno, 1 1 1 1 *sunjin mo , JinWoo Park , Ji-Young Gu , Sung-Hwa Jung Switzerland 1. Weather Radar Center, Korea Meteorological Administration, South Korea 13:30 [Poster3-59] Towards a new Canadian weather radar network and the roll-out of modern operational radar 13:30 [Poster3-48] Taranis: Advanced Precipitation and products for end-users Cloud Radar Products 1 1 1 1 1 2 1 *Ahmed Mahidjiba , Corinne Simard , Yacine Bouzid , Rabah *Nitin Bharadwaj , Joseph Hardin , Scott Giangrande , Adam Varble Hachelaf1, Ilyass Hajji1 1. Pacific Northwest National Laboratory, 2. Brookhaven National 1. Meteorological Service of Canada - Environment and Climate Laboratory Change Canada / Government of Canada

13:30 [Poster3-49] A first glance at a radar processing 13:30 [Poster3-60] New Techniques for Segmentation of pipeline leveraging cloud computing, non-uniform grid Radar into Independent Storm Objects techniques and massive parallelization *Patrick Adrian Campbell1,2, Kiel L. Ortega1,2, Travis M. Smith1,2 1 1 *Scott M Ganson , Nick Guy 1. CIMMS/Univ. of Oklahoma, 2. NOAA/OAR/NSSL 1. Verisk Weather Solutions 13:30 [Poster3-61] De-aliasing with Self-Organizing Maps 13:30 [Poster3-50] Standing on the shoulders of giants: *Brenda Javornik1, Wen-Chau Lee1, Michael Dixon1 Bridging the divide of weather radar processing through 1. UCAR/NCAR open-source software, academic research and pragmatic application of private sector development 13:30 [Poster3-62] A statistical method for estimation of *Nick Guy1, Scott M Ganson1 wind farm influence on radar data and its mitigation 1. Verisk Weather Solutions *Zlatko R Vukovic1, Norman Donaldson1 1. Environment and Climate Change Canada 13:30 [Poster3-51] Impact of Rapid-Scan Radar Data on Vertical Velocity Retrievals from Dual-Doppler Analysis 13:30 [Poster3-63] Differential reflectivity calibration from *Joshua G Gebauer1, Alan Shapiro1,2, Corey Potvin4,5, Nathan Dahl4, vertically pointing radar observations of hydrometeors in David Bodine3, Andrew Mahre1, Michael Biggerstaff1, Addison Alford1 the solid phase 1. School of Meteorology, University of Oklahoma, 2. Center for Alfonso Ferrone1, *Josué Gehring1, Etienne Vignon1, Alexis Berne1 Analysis and Prediction of Storms, 3. Advanced Radar Research 1. Remote Sensing Laboratory (LTE), EPFL, Lausanne, Switzerland Center, 4. Cooperative Institute for Mesoscale Meteorological Studies, 5. National Severe Storms Laboratory 13:30 [Poster3-64] Open-source code for correction of dual-PRF velocity dealiasing errors 13:30 [Poster3-52] Three-Dimensional Spatially Variable *Patricia Altube1, Tomeu Rigo1, Joan Bech2 Advection Correction: Concept and Potential Uses 1. Meteorological Service of Catalonia, Barcelona, 2. Universitat de 1 1,2 3,4 3 *Joshua G Gebauer , Alan Shapiro , Corey Potvin , Nathan Dahl Barcelona 1. School of Meteorology, University of Oklahoma, 2. Center for Analysis and Prediction of Storms, 3. Cooperative Institue for 13:30 [Poster3-65] The quality assurance challenge of a Mesoscale Meteorological Studies, 4. National Severe Storms modest weather radar network in a complex territory Laboratory *Patricia Altube1, Tomeu Rigo1, Nicolau Pineda1, Helen San Segundo1

1. Meteorological Service of Catalonia, Barcelona 13:30 [Poster3-53] Multi-source fusion precipitation technique based on machine learning 1 13:30 [Poster3-66] Examples of frequency sharing with *lejian zhang other systems in X band weather radars, in Japan 1. Meteorological Observation Centre of China Meteorological *Hiroshi HANADO1, Katsuhiro NAKAGAWA1, Shoichiro KOJIMA1 Administration 1. NICT

13:30 [Poster3-54] Radial Interference Echo Identification 13:30 [Poster3-67] Quality control of the Doppler on Algorithm Based on Fuzzy Logic for Chinese Single- Wheels (DOW) mobile radar data Polarization Weather Radar 1 1 1 1 1 2 *Karen Ann Kosiba , Josh Wurman *Hao Wen , Lejian Zhang , Haihe Liang , Yang Zhang 1. The Center for Severe Weather Research 28

[Poster3] 13:30-15:00 @CR1-2 & CR3-4 13:30 [Poster3-79] Validation of polarimetric relations for snow estimation on radar data Quantitative Precipitation Estimation Petar Bukovcic1, *Alexander Ryzhkov2, Dusan Zrnic3 and Hydrology 1. CIMMS/NSSL, The University of Oklahoma, 2. CIMMS, The University of Oklahoma, 3. NSSL, Norman, Oklahoma

13:30 [Poster3-68] Improving Estimates of Flood 13:30 [Poster3-80] Fractal analysis of space-time rainfall Magnitude using better Information on Spatial and variability: limitations of rain gauge networks and Temporal Variability of Rainfall applicability of dual-polarized weather radars 1 1 1 *Giulia Giani , Miguel Angel Rico-Ramirez , Ross Woods *IGOR PAZ1,2, IOULIA TCHIGUIRINSKAIA2, DANIEL SCHERTZER2 1. University of Bristol 1. Instituto Militar de Engenharia, IME, Rio de Janeiro, Brazil, 2. HMCO, Ecole des Ponts ParisTech, University of Paris-Est, Champs- 13:30 [Poster3-69] Bright Band Delineation and Radial- sur-Marne, France Dependent AVPR Corrections for QPE Improvements in MRMS 13:30 [Poster3-81] The urban effect on precipitation *Wolfgang Hanft1, Jian Zhang2 investigated by a 20-year C-band radar dataset 1. CIMMS/Univ. of Oklahoma and NOAA/OAR/NSSL, 2. *Yaoyao Zheng1, Jan Handwerker1, Norbert Kalthoff1 NOAA/OAR/NSSL 1. Karlsruhe Institute of Technology

13:30 [Poster3-70] Dual-Polarization Radar Snow QPE in 13:30 [Poster3-82] Merging Radar, Satelltie and Rain MRMS Gauge for Precipitation Estimation *Wolfgang Hanft1, Jian Zhang2, Petar Bukovčić1, Alexander V. *Parichat Wetchayont1 Ryzhkov1, Stephen B. Cocks1, Steven M. Martinaitis1, Kenneth W. 1. Srinakharinwirote University Howard2 1. CIMMS/Univ. of Oklahoma and NOAA/OAR/NSSL, 2. 13:30 [Poster3-83] Quantitative Precipitation Estimates NOAA/OAR/NSSL Using Machine Learning Approaches with Dual- Polarimetric Radar Data 13:30 [Poster3-71] Assessment of operational polarimetric *Kyuhee Shin1, Joon Jin Song2, Geunsu Lyu3, GyuWon Lee1,3 radar data for freezing-level height estimation 1. Department of Astronomy and Atmospheric Sciences, Research and *Daniel Sanchez-Rivas1, Miguel Angel Rico-Ramirez1 Training Team for Future Creative Astrophysicists and Cosmologists, 1. University of Bristol Kyungpook National University, 2. Department of Statistical Science, Baylor University, 3. Center for Atmospheric Remote sensing, 13:30 [Poster3-72] Estimation of shape parameter from C- Kyungpook National University band polarimetric radar measurements *Ahoro ADACHI1, Takahisa Kobayashi2,1 13:30 [Poster3-84] Inter-comparison of Pricipitation 1. MRI, 2. CRIEPI Estimates from Radar, Satellite and Gauge during Yancheng Tornado over Eastern China 13:30 [Poster3-73] Optimized Specific-Attenuation-Based *chaoying huang1, asi zhang2, zhenqing liang1, liusi xiao2, sheng 2 1 Algorithm for Radar Quantitative Precipitation Estimation chen , baoqing hu 1. Nanning Normal University, 2. School of Atmospheric Sciences, Sun at C-band in Germany 1 1 2 1 Yat-sen University *JuYu Chen , Clemens Simmer , Alexander Ryzhkov , Silke Trömel 1. Institute for Geosciences and Meteorology, University of Bonn, 13:30 [Poster3-85] Improved Quantitative Precipitation Germany, 2. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma, Norman, OK Estimation using pseudo KDP by Improving Spatial Continuity *Hong-Mok Park1, Sung-Hwa Jung2, Alexander Ryzhkov3, Daejin 13:30 [Poster3-74] Radar-Derived Climatology of Yeom4, GyuWon Lee4,1 Precipitation Intensities in Czechia: improvement due to 1. Center for Atmospheric REmote sensing (CARE), Kyungpook daily totals from rain gauges National University, Daegu, South Korea, 2. Radar Analysis Division, *Vojtech Bliznak1, Marek Kaspar1, Miloslav Müller1,2, Petr Zacharov1 Weather Radar Center (WRC), Korea Meteorological Administration 1. Institute of Atmospheric Physics, CAS, 2. Faculty of Science, (KMA), 3. Cooperative Institute for Mesoscale Meteorological Studies, Charles University in Prague The University of Oklahoma, and NOAA/OAR National Severe Storms Laboratory, Norman, Oklahoma, USA, 4. Dept. of Astronomy and 13:30 [Poster3-75] Radar QPE for Hydrological Atmospheric Sciences, Kyungpook National University, Daegu, South Applications in Southern Brazil: PMM Parameterized ZR Korea and Polarimetric Relationships *Roberto V. Calheiros1, Cesar Beneti1, Nicole Rozin1, Leonardo 13:30 [Poster3-86] Raingauge-Adjusted Radar Rainfall Calvetti2 Estimation at Hybrid Surface of Dual-pol. Radar Network 1. SIMEPAR - Parana Meteorological Service, 2. UFPel - Federal *Mi-Kyung Suk1, Sangmi Lee1, Young-A Oh1, Sung-Hwa Jung1, Kun-Il University of Pelotas Jang1 1. Korea Meteorological Administration 13:30 [Poster3-76] QPE by Compact Radar Network of Kochi University 13:30 [Poster3-87] Parameter Estimation of Z-R *Akira Nishii1, Koji Sassa1 Relationship Focusing on the Target Value 1. Kochi University *Minseok Kang1, Wooyoung Na1, Gildo Kim1, Chulsang Yoo1 1. Korea University 13:30 [Poster3-77] Improving Quantitative Precipitation Estimation in Complex Terrain over the San Francisco Bay 13:30 [Poster3-88] An optimal averaging of MAPLE Area Using a Gap-Filling Radar Network forecasts for ensemble rainfall forecasting *Robert Cifelli1, Haonan Chen2, V. Chandrasekar2 *Wooyoung Na1, Minseok Kang1, Gildo Kim1, Chulsang Yoo1 1. NOAA ESRL Physical Sciences Division, 2. Cooperative Institute for 1. Korea University Research in the Atmosphere 13:30 [Poster3-89] Estimation of flood risk considering 13:30 [Poster3-78] Improvements of Specific Attenuation- topographic and hydrological factors for immediate flood Based Radar QPE in Different Precipitation Regimes response *Pengfei Zhang1, Alexander Ryzhkov1, Lin Tang1, Stephen Cocks1 *Narae Kang1, Seokhwan Hwang1, Jungsoo Yoon1 1. CIMMS/NSSL, University of Oklahoma 29

1. Department of Land, Water and Enviroment Research, Korea 1. SnT, University of Luxembourg, 2. IIHR - Hydroscience & Institute of Civil Enginerring and Building Technology Engineering, The University of Iowa, Iowa City, USA, 3. Databourg s.a.r.l S 13:30 [Poster3-90] Improved QPE by mitigating partial beam blocking in Seoul metropolitan area: Use of radar 13:30 [Poster3-101] Effect of spatial resolution of radar reflectivity statistics rainfall on hydrological simulation of urbanized river basin *DaeHyung Lee1, Alexander Ryzhkov2, Geunsu Lyu3, Cheong-lyong in Japan Lee3, Wonbae Bang3, Hong-Mok Park3, Gyuwon Lee1,3 *Shakti P. C.1, Tsuyoshi Nakatani2, Ryohei Misumi1 1. Department of Astronomy and Atmospheric Sciences, Kyungpook 1. National Research Institute for Earth Science and Disaster National University, Daegu, Korea, 2. Cooperative Institute for Resilience(NIED), Tsukuba, Japan, 2. Kagoshima University, Mesoscale Meteorological Studies, University of Oklahoma, and Kagoshima, Japan NOAA/OAR/National Severe Storms Laboratory, Norman, Oklahoma, USA, 3. Center for Atmospheric REmote sensing, Kyungpook National 13:30 [Poster3-102] The upsampling technique for the University, Daegu, Korea GSMaP by the new generation IR images of geostationary satellites 13:30 [Poster3-91] Improved QPE with Multi-Angle PPIs *Tomoaki Mega1, Tomoo Ushio1 Measurement 1. Tokyo Metropolitan University *Daejin Yeom1, Soohyun Kwon2, Wonbae Bang3, GyuWon Lee1,3 1. Department of Astronomy and Atmospheric Sciences, Kyungpook 13:30 [Poster3-103] River Basin Precipitation Database National University, 2. Weather Radar Center, Korea Meteorological based on the GSMaP Administration, 3. Center for Atmospheric Remote sensing, Kyungpook *Yasushi Suzuki1, Sumiko Harasawa1, Tomohiko Abe1, Hideshige Iida1, National University Koumei Yamaguchi1 1. Japan Weather Association 13:30 [Poster3-92] Zh-R relations of solid precipitation derived by direct comparison of observations in the 13:30 [Poster3-104] Polarimetric Retrieval of Precipitation Niigata area Rate in Cold Season using data from ICE-POP 2018 1 1 1 *Sento Nakai , Katsuya Yamashita , Hiroki Motoyoshi , Toshiro *Kwonil Kim1, Alexander Ryzhkov2, Petar Bukovcic2, Wonbae Bang3, 2 3,4 3 Kumakura , Shigeki Murakami , Takafumi Katsushima GyuWon Lee1,3 1. Snow and Ice Research Center, NIED, 2. Nagaoka University of 1. Department of Astronomy and Atmospheric Sciences, Research and Technology, 3. Tohkamachi Experimental Station, FFPRI, 4. (Current Training Team for Future Creative Astrophysicists and Cosmologists, Affiliation) Kyushu Research Center, FFPRI Kyungpook National University, 2. Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma, and NOAA/OAR 13:30 [Poster3-93] Utilization of radar rainfall for flash National Severe Storms Laboratory, 3. Center of Atmospheric REmote flood prevention sensing, Kyungpook National University *Jungsoo Yoon1, Seok-Hwan Hwang1, Na-Rae Kang1, Byunghwa Oh2, Jeongha Lee2 13:30 [Poster3-105] Performance of Global Satellite 1. Korea Institute of Civil Engineering and Building Technology, 2. Mapping of Precipitation estimate over northern Vietnam University of Science and Technology *Masato I. Nodzu1, Jun Matsumoto1,2, Long Trinh-Tuan3, Thanh Ngo- Duc3, Tri Truong-Duc4 13:30 [Poster3-94] Development of Web Crawler for 1. Tokyo Metropolitan University, 2. JAMSTEC, 3. University of Evaluating of Flood Science and Technology of Hanoi, 4. Ministry of Natural Resources *Seokhwan Hwang1, Narae Kang1, Jungsoo Yoon1 and Environment in Vietnam 1. Department of Land, Water and Environment Research, Korea Institute of Civil Engineering and Building Technology 13:30 [Poster3-106] X-MP Radar for Debris Flow Debris Flow Hazard Estimation in Volcanic Area in Indonesia 13:30 [Poster3-95] Automatic Identification of Potential *Ratih Indri Hapsari1, Ratna Ika Putri1, Rosa Andrie Asmara1, Satoru Severe Hydrogeological Disaster Areas through Radar Oishi2 Observations 1. State Polytechnic of Malang, 2. Kobe University *ZHE ZHANG1, YOUCUN QI1 1. Institute of Geographic Sciences and Natural Resources 13:30 [Poster3-107] The Quality Control and Gauge Research,Chinese Academy of Sciences Adjustment of C-band weather RADAR in Southern Thailand 13:30 [Poster3-96] Establishing Radar Reflectivity - *Parinya Intaracharoen1, Sarawut Arthayakun1, Chanti Detyothin1, Rainfall Rate Relationship in terms of Spectral Width Pakdee Chantraket1, Sukrit Kirtsaeng2 thresholds 1. Department of Royal Rainmaking and Agricultural Aviation *Anjaneyulu Akkimi1, Subashisa Dutta1, Kamaljit Ray2 (DRRAA), 2. Thai Meteorological Department (TMD) 1. Indian Institute of Technology Guwahati, India, 2. Atmospheric Sciences, Ministry of Earth Sciences, New Delhi, India 13:30 [Poster3-108] DROUGHT MONITORING USING QUANTITATIVE PRECIPITATION ESTIMATION OVER 13:30 [Poster3-97] Evaluation of Rainfall Rate Estimated NORTHEASTERN ARIZONA by Specific Differential Phase of Ku-band Broadband *Delbert D Willie1, Haonan Chen2, Robert Cifelli2 Radar 1. Northern Arizona University, 2. NOAA Earth System Research *Keitaro Asai1, Yoshitaka Nakamura1, Eiichi Yoshikawa2, Hiroshi Laboratory Kikuchi3, Tomoaki Mega4, Tomoo Ushio4, Takeshi Morimoto5 1. Kobe City College of Technology, 2. Japan Aerospace Exploration 13:30 [Poster3-109] Evaluation of hydro-climatology Agency, 3. The University of Electro-Communications, 4. Tokyo drought using the Standardized Precipitation Index (SPI) Metropolitan Univ., 5. Kindai Univ. in the High Ziz river Basin, Central High Atlas, Morocco *Khadija DIANI1, ILIAS Kacimi1, Mahmoud Zemzami 2, Hassan 13:30 [Poster3-98] Effect of wind field on rainfall value of Tabyaoui3, Ali Torabi Haghighi4 Doppler radar 1. LO3G Laboratory, Department of Earth Sciences, Faculty of *HAI QIU1, YITONG LIN Sciences, Mohammed V-Agdal University, Rabat, Morocco, 2. Ministry 1. Nanning Meteorological Service,Guangxi,China Delegate to the Minister of Energy, Mines, Water and Environment, in charge of water, Rabat, Morocco., 3. Natural Resources and 13:30 [Poster3-100] Precipitation Retrievals from Environment Laboratory, Polydisciplinary Faculty of Taza, Sidi Millimeter-Wave Communications Satellite Links with Mohamed Ben Abdullah University, Fez, Morocco., 4. Water Deep Generative Adversarial Networks Resources and Environmental Engineering Research Group, *Kumar Vijay Mishra2, Bhavani Shankar Mysore1, Ahmad Gharanjik3, University of Oulu, PO Box 4300, FIN-90014, Finland. Bjorn Ottersten1 30

13:30 [Poster3-110] Rainfall estimation for Central Vietnam Kobe Gakuin University, 7. Shibaura Institute of Technology, 8. by using the DongHa radar reflectivity Bangladesh Meteorological Department, 9. Department of Geography, *Thanh Ngo-Duc1, Tran Dai2 North Eastern Hill University, 10. Department of Geography, Gauhati 1. University of Science & Technology of Hanoi, 2. Vietnam University, 11. Department of Civil Engineering, Indian Institute of Meteorological Hydrological Administration Technology, 12. Department of Physics, Cotton University, 13. Center for Southeast Asian Studies, Kyoto University 13:30 [Poster3-111] Removing Interference Echoes in Philippine Radars Using a Fuzzy Logic Approach 15:15 [Session 13B-02] Statistical analysis of (extreme) *Lester Kim M. Lagrimas1, Pin-Fang Lin2, Jung-Bin Wang2, Pao-Liang precipitation events in Germany from an 18-year Chang2, Wei-Ting Fang2, John Grender C. Almario1, Esperanza O. climatological radar data set Cayanan1 *Katharina Lengfeld1, Ewelina Walawender1, Tanja Winterrath1, 1. Philippine Atmospheric, Geophysical and Astronomical Services Andreas Becker1 Administration, 2. Central Weather Bureau 1. German Weather Service

13:30 [Poster3-112] DOST - PAGASA Radar Network Today 15:30 [Session 13B-03] 5-year Verification of Radar- and Beyond derived Surface Precipitation Type *John Grender C. Almario1 *Ben Pickering1,2,3, Ryan Neely III1,3, Steven Best2 1. PAGASA Radar Network 1. ICAS, University of Leeds, 2. UK Met Office, 3. NCAS

13:30 [Poster3-113] RADAR-BASED QUANTITATIVE 15:45 [Session 13B-04] The accuracy of operational radar PRECIPITATION ESTIMATION IN VIET NAM in heavy rain: A comparative study for Denmark, the *Hoang Minh Toan1, Bui Thi Khanh Hoa1, Nguyen Vinh Thu1, Nguyen 1 1 Netherlands, Finland and Sweden Minh Cuong , Nguyen Viet Hung *Marc Schleiss1, Tero Niemi2,5, Teemu Kokkonen2, Soren Thorndahl3, 1. Aero-Meteorology Observatory,Viet Nam Meteorological and Rasmus Nielsen3, Peter Berg4, Jonas Olsson4 Hydrological Administration 1. Department of Geoscience & Remote Sensing, Delft University of Technology, 2. Department of Built Environment, Aalto University, 3. [Session 13A] 15:00-16:00 @NH Department of Civil Engineering, Aalborg University, 4. Department of Hydrology, Swedish Meteorological and Hydrological Institute SMHI, 5. Wind Profiler, Cloud Radar, and Finish Meteorological Institute FMI NonHydrometeorological Radar [Session 14A] 16:30-17:30 @NH 15:00 [Session 13A-01] Review on Application of Wind New and Emerging Radar Technology Profiler Radar in Weather Monitoring and nowcasting

*WEN XIAO ZHANG1 1. National Meteorological Center, Beijing 16:30 [Session 14A-01] Development of a low noise RASS speaker using a parametric array 1 1 15:15 [Session 13A-02] The characteristics and *Koki Muguruma , Hiroyuki Hashiguchi 1. Research Institute for Sustainable Humanosphere, Kyoto University application of radar refractivity in tropical coastal region

*Ya-Chien Feng1,3, Hsiu-Wei Hsu2, Pay-Liam Lin2, Yu-Chieng Liou2, Tammy Weckwerth3 16:45 [Session 14A-02] "Invisible" volcanic eruption 1. Colorado State University, USA, 2. National Central University, plume/cloud observation with polarimetric weather radar 1 2 1 3 Taiwan, 3. National Center for Atmospheric Research, USA *Eiichi Sato , Keiichi Fukui , Toshiki Shimbori , Masayuki Maki 1. Meteorological Research Institute, 2. Japan Meteorological Agency, 15:30 [Session 13A-03] Characteristics of a heavy rain 3. Kagoshima University event observed by a 1290-MHz wind profiler in the 17:00 [Session 14A-03] Rainfall estimation from southern coast of Korea on 25 August 2014 *DONG-KYUN KIM1, Tomoo Ushio1 commercial DVB-S2 receivers for interactive broadcast 1. Department of Aerospace Engineering, Tokyo Metropolitan applications 1 1 2 3 University Elisa Adirosi , *Luca Baldini , Luca Facheris , Filippo Giannetti , Andrea Antonini4,5, Samantha Melani4,5, Alberto Ortolani4,5, Attilio 6 6 15:45 [Session 13A-04] Clutter suppression and signal Vaccaro , Antonio Petrolino 1. CNR - Institute of Atmospheric Sciences and Climate, Rome, Italy, separation techniques developped for the Program of the 2. Dipartimento di Elettronica e Telecomunicazioni, Università di Antarctic Syowa MST/IS radar (PANSY) Firenze, Florence, Italy, 3. Dipartimento di Ingegneria 1 1 2 1 *Taishi Hashimoto , Koji Nishimura , Akinori Saito , Masaki Tsutsumi , dell’Informazione, Università di Pisa, Pisa, Italy, 4. LaMMA 2 3 Toru Sato , Kaoru Sato Consortium, Sesto Fiorentino (FI), Italy, 5. CN - Institute of 1. National Institute of Polar Research, 2. Kyoto University, 3. The Biometeorology, Sesto Fiorentino (FI), Italy, 6. MBI Srl, Pisa, Italy University of Tokyo 17:15 [Session 14A-04] Whole Atmosphere Observation [Session 13B] 15:00-16:00 @CR5-6⇒@RH1 over Tibet with APSOS System *Daren Lyu1,2, Weilin Pan1,2, Yinan Wang2,1, Yufang Tian2,1 Quantitative Precipitation Estimation 1. Key Laboratory of Middle Atmosphere and Global Environment Observation, Institute of Atmospheric Physics, Chinese Academy of and Hydrology Sciences, Beijing 100029, China, 2. University of Chinese Academy of Sciences, Beijing, 100049, China 15:00 [Session 13B-01] Direct validation of TRMM/PR over the northeastern Indian Subcontinent using a tipping [Session 14B] 16:30-17:30 @CR5-6 @RH1 bucket raingauge network and disdrometers ⇒ Toru Terao1, *FUMIE MURATA2, Kaustav Chakravarty3, Yusuke Microphysical Studies with Radars Yamane4, Masashi Kiguchi5, Azusa Fukushima6, Masahiro Tanoue7, Shamsuddin Ahmed8, Sayeed Ahmed Choudhury8, Hiambok Jones Syiemlieh9, Laitpharlang Cajee9, Prasanta Bhattacharya10, Subashisa 16:30 [Session 14B-01] Investigating Raindrop Dutta11, Rahul Mahanta12, Taiichi Hayashi13 Evaporation, Breakup, and Coalescence in Stratiform Rain 1. Faculty of Education, Kagawa University, 2. Faculty of Science and *Christopher Williams1 Technology, Kochi University, 3. Indian Institute of Tropical 1. University of Colorado Boulder Meteorology, 4. Faculty of Education, Tokoha University, 5. Institute of Industrial Science, The University of Tokyo, 6. Faculty of Humanity,

31

16:45 [Session 14B-02] How adequate is gamma model for representing raindrop size distributions? *Christos Gatidis1, Marc Schleiss1, Christine Unal1, Herman Russchenberg1 1. Delft University of Technology

17:00 [Session 14B-03] How much can we learn about rain microphysics from polarimetric radar observations?An investigation of information content and parameter estimation using the Bayesian Observationally- constrained Statistical-physical Scheme (BOSS) *Karly Jackson Reimel1, Marcus van Lier-Walqui2, Matthew R Kumjian1, Hugh Morrison3, Olivier P Prat4 1. Pennsylvania State University, 2. CCSR, Columbia University and NASA Goddard Institute for Space Studies, 3. National Center for Atmospheric Research, 4. North Carolina Institute for Climate Studies, NCSU

17:15 [Session 14B-04] Estimation of Liquid Droplet Size and Liquid Water Content in Clouds and Drizzle Using Remote Sensing Measurements *Jothiram Vivekanandan1, Virendra P Ghate2, Scott N Ellis1, Christian Schwartz3, Jorgen Jensen1 1. NCAR/EOL, Boulder, CO, USA, 2. Argonne National Laboratory, Argonne IL 60439, USA, 3. Space Dynamics Laboratory, Utah State University, Salt Lake City, USA

32

1. Pacific Northwest National Laboratory, 2. University of Oklahoma

FRIDAY, SEP 20 9:30 [Session 15B-03] Relating spectrum-width-derived eddy dissipation rate to lightning characteristics [Session 15A] 9:00-10:30 @NH *Wiebke Deierling1, Lawrence Carey2, Timohty Lang3, Gregory Meymaris4, John Williams5 Phased Array Radar Technology and Its 1. NCAR/RAL & CU Boulder, 2. UAH, 3. NASA Marshall Space Flight Observation Center, 4. NCAR/RAL, 5. The Weather Company

9:45 [Session 15B-04] Polarimetric radar characteristics of 9:00 [Session 15A-01] Increasing Observing Capabilities lightning initiation and propagating channels of the NWS with Agile-Beam Polarimetric Phased Array *Jordi Figueras i Ventura1, Nicolau Pineda2,3, Nikola Besic1, Jacopo Radar Grazioli1, Alessandro Hering1, Oscar A. van der Velde3, David *Dusan Zrnic1, V. Melnikov2, P. Zhang2, S. Koch1, R. Palmer3, M. Romero3, Antonio Sunjerga4, Amirhossein Mostajabi4, Mohammad Weber2, K. Hondle1, G. McFarquhar2, M. Jain1 Azadifar5, Marcos Rubinstein5, Joan Montanyà3, Urs Germann1, 1. NOAA/NSSL, 2. CIMMS/OU, 3. ARRC/OU Farhad Rachidi4 1. MeteoSwiss, 2. Meteorological Service of Catalonia, 3. Universitat 9:15 [Session 15A-02] Design of Practical Pulse Politècnica de Catalunya UPC, 4. École Polytechnique Fédérale de Compression Waveforms for Polarimetric Phased Array Lausanne EPFL, 5. Haute Ecole Spécialisée de Suisse occidentale Radar HES-SO *David Schvartzman1, Sebastián M. Torres1 1. Cooperative Institute for Mesoscale Meteorological Studies, 10:00 [Session 15B-05] Kinematic and Microphysics University of Oklahoma, and NOAA/OAR /National Severe Storms Structure of Hailstorms in Southeast U.S.A. Using Aircraftr Laboratory, Norman, Oklahoma Multi-frequency Radar Measurements *Gerald M Heymsfield1, Stephen Guimond1,2, Stephen D Nicholls1,2, 9:30 [Session 15A-03] Research Sampling Strategies with Matthew L Mclinden1, Lihua Li1 a Dual-pol X-band Phased Array Radar 1. Goddard Space Flight Center, 2. University of Maryland/JCET *Edward Luke1, Pavlos Kollias1,2, Michael Jensen1 1. Department of Environmental and Climate Sciences, Brookhaven 10:15 [Session 15B-06] Relationship between Zdr National Laboratory, 2. School of Marine and Atmospheric Sciences, columns, updraft intensity and hail growth deduced from Stony Brook University Dual-Doppler retrievals and Polarimetric radar

*Raquel M Evaristo1, Mari Schmidt1, Silke Trömel1, Clemens Simmer1 9:45 [Session 15A-04] Withdrawn: Pattern Synthesis for 1. Institute for Geoscience and Meteorology, University of Bonn Conformal Phased Array Antenna using A Multi-Objective Optimization [Session 16A] 11:00-12:00 @NH *Mohammad-Hossein Golbon-Haghighi1,2, Hadi Saeidi-Manesh1,2, Guifu Zhang1,3 Wind Profiler, Cloud Radar, and 1. Advanced Radar Research Center, University of OKlahoma, 2. School of Electrical and Computer Engineering, University of NonHydrometeorological Radar Oklahoma, 3. School of Meteorology, University of Oklahoma 11:00 [Session 16A-01] Polarimetric radar measurements 10:00 [Session 15A-05] Streaming data processing for of a large-scale smoke plume from distant Canadian Multi-Parameter Phased Array Weather Radar (MP-PAWR) wildfires data *Robert Schrom1 *Takeshi Maesaka1, Kaori Kieda1, Koyuru Iwanami1, Nobuhiro 1. NASA GSFC/USRA Takahashi2, Hiroshi Hanado3, Katsuhiro Nakagawa3, Fumihiko 4 5 6 Mizutani , Tomoo Ushio , Masahiko Osada 11:15 [Session 16A-02] Statistics of upper cloud vertical 1. National Research Institute for Earth Science and Disaster velocity measured by JMA wind profiler network Resilience, 2. Nagoya University, 3. National Institute of Information and Communications Technology, 4. Toshiba Infrastructure Systems (WINDAS) for calibration of EarthCARE cloud profiling and Solutions Corporation, 5. Tokyo Metropolitan University, 6. radar 1 1 1 1 Saitama University *Yuichi Ohno , Hiroaki Horie , Seiji Kawamura , Masayuki Yamamoto 1. National Institute of Information and Communications Technology

10:15 [Session 15A-06] Demonstration Experiment using 11:30 [Session 16A-03] UHF wind-profiler detection of the the Multi-Parameter Phased-Array Weather Radar boundary layer characteristics on cloudless days in *Kazuhiro Yoshimi1, Fumihiko Mizutani1, Masakazu Wada1, Tomoo 2 3 3 Beijing Ushio , Yoshimasa Morooka , Tadashi Yamada 1,2 1,2 1,2 1. Toshiba Infrastructure Systems & Solutions, 2. Tokyo Metropolitan *Yufang Tian , Daren Lyu , Yongheng Bi University, 3. Chuo University 1. Key Laboratory of Middle Atmosphere and Global Environment Observation, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China, 2. University of Chinese Academy of [Session 15B] 9:00-10:30 @RH1 Sciences, Beijing, 100049, China Organized Convection and Severe 11:45 [Session 16A-04] Parameter-retrieval of aircraft wake Phenomena vortices under different weather conditions *Jianbing Li1, Chun Shen1, Jianan Chen1, Kunlong Yang1, Shiqi Xing1, 9:00 [Session 15B-01] Nocturnal Moisture Patterns Xuesong Wang1 Observed in the S-Pol Radar Refractivity Field During the 1. National University of Defense Technology PECAN 2015 Experiment *Rita Roberts1, Tammy Weckwerth1, Ya-Chien Feng2 [Session 16B] 11:00-12:00 @RH1 1. NCAR, 2. CSU Microphysical Studies with Radars 9:15 [Session 15B-02] Spatiotemporal Characteristics and Large-scale Environments of Mesoscale Convective 11:00 [Session 16B-01] Observations from the 2018 Spring Systems East of the Rocky Mountains ARM Southern Great Plains X-band Polarimetric Radar *Zhe Feng1, Fengfei Song1, Ruby Leung1, Robbert A. Houze, Jr.1, Network Experiment: Insights into Thunderstorm Updraft Joseph Hardin1, Jingyu Wang1, Cameron R. Homeyer2 Microphysics & Kinematics

33

*Marcus van Lier-Walqui1,2, Sara Elizabeth Lytle3, Scott Collis4, Andrei *Qin Xu2, Kang Nai1,2, Valery Melnikov1,2 Iosif Lindenmaier5 1. Cooperative Institute for Mesoscale Meteorological Studies, 1. Center for Climate Systems Research, Columbia University, 2. University of Oklahoma, Norman, Oklahoma, USA , 2. NASA Goddard Institute for Space Studies, 3. Earth & Environmental NOAA/OAR/National Severe Storms Laboratory, Norman, Oklahoma, Engineering, Columbia University, 4. Argonne National Laboratory, 5. USA Pacific Northwestern National Laboratory 14:45 [Session 17A-06] The influences of Extremely 11:15 [Session 16B-02] The microphysical structures of Strong Wind on Radar Observations asymmetric hurricane eyewalls *Pao-Liang Chang1, Wei-Ting Fang1, Pin-Fang Lin1, Yu-Shuang Tang1 1 1 *Ya-Chien Feng , Michael Bell 1. Central Weather Bureau 1. Colorado State University [Session 17B] 13:30-15:00 @RH1 11:30 [Session 16B-03] Investigation of the Olympic Peninsula rain shadow using radar and in situ Use of Radar Data for Nowcasting and observations from the Olympic Mountains Experiment Numerical Models (OLYMPEX)

*Angela Rowe1, Lynn McMurdie1, Joe Zagrodnik1, Jamin Rader1, Andrew DeLaFrance1 13:30 [Session 17B-01] NowPrecip: Localized precipitation 1. University of Washington nowcasting in the complex terrain of Switzerland. *Ioannis V Sideris1, Loris Foresti1, Daniele Nerini1,2, Urs Germann1 11:45 [Session 16B-04] X-band Marine Radar Detection of 1. Swiss Federal Office of Meteorology and Climatology, MeteoSwiss, Switzerland, 2. Institute for Atmospheric and Climate Science, ETH, Ejected Lapilli and Volcanic Blocks Zürich, Switzerland *Masayuki Maki1, Yasushi Fujiyoshi2, Hidehiko Tokushima3, Masato

Iguchi4 1. Kagoshima University, 2. Hokkaido University, 3. Field Researchers 13:45 [Session 17B-02] Improved nowcasting of Corporation, 4. Kyoto University convective rainfall using vertically integrated liquid *Seppo Pulkkinen1,2, V. Chandrasekar1,2, Annakaisa von Lerber2, Ari- Matti Harri2 [Session 17A] 13:30-15:00 @NH 1. Colorado State University, Fort Collins, Colorado, United States, 2. Radar Networks, Quality Control, Finnish Meteorological Institute, Helsinki, Finland

Processing and Software 14:00 [Session 17B-03] An Optical Flow Derived Nowcasting Approach with Fuzzy Logic and Model Wind 13:30 [Session 17A-01] NEXRAD Radar Product Field Vectors Improvement – Update 2019 *Joseph A Olden1, Yadong Wang1 *Michael J. Istok1 1. Southern Illinois University Edwardsville 1. USA/NOAA/National Weather Service/Radar Operations Center 14:15 [Session 17B-04] Stochastic multiscale nowcasting 13:45 [Session 17A-02] Decades of weather radar data: with high resolution radar data Global availability, preservation challenges and success *Daniel Schertzer1, Ioulia Tchiguirinskaia1 stories 1. Ecole des Ponts ParisTech, Hydrology Meteorology and Complexity *Joshua S Soderholm3, Elena Saltikoff1, Katja Friedrich2, Katharina lab Lengfeld4, Brian Nelson5, Andreas Becker4, Rainer Hollmann4, Bernard Urban6, Maik Heistermann7, Caterina Tassone8 14:30 [Session 17B-05] Blending of radar extrapolation 1. Finnish Meteorological Institute, Helsinki, Finland, 2. Department of and NWP for 1and 2 hour rainfall nowcasts Atmospheric and Oceanic Sciences, University of Colorado Boulder, *Jim W Wilson1, Daniel Megenhardt1 Boulder, Colorado, USA, 3. Meteorological Institute, University of 1. National Center for Atmospheric Research Bonn, Bonn, Germany, 4. Deutscher Wetterdienst, Offenbach am Main, Germany, 5. NOAA/National Centers for Environmental Information, Asheville, North Carolina, 6. Météo-France, Toulouse, 14:45 [Session 17B-06] Selective ensemble nowcast for France, 7. Institute of Environmental Sciences and Geography, short-term precipitation prediction system combining University of Potsdam, Germany, 8. GCOS Secretariat, WMO, both radar echo extrapolation and NWP Geneva, Switzerland *Yasutaka Wakazuki1 1. Ibaraki University 14:00 [Session 17A-03] Spatially variable advection correction of Doppler radial velocity data *Alan Shapiro1,5, Joshua G. Gebauer1, Nathan A. Dahl4,6, David J. Bodine2, Andrew Mahre1,2, Corey K. Potvin1,4,3 1. School of Meteorology (SoM), University of Oklahoma (OU), 2. Advanced Radar Research Center (ARRC), University of Oklahoma (OU), 3. NOAA National Severe Storms Laboratory (NSSL), University of Oklahoma (OU), 4. Cooperative Institute for Mesoscale Meteorological Studies (CIMMS), University of Oklahoma (OU), 5. Center for Analysis and Prediction of Storms (CAPS), University of Oklahoma (OU), 6. NOAA National Weather Service Storm Prediction Center (SPC)

14:15 [Session 17A-04] Application of Clutter Polygons in Terminal Doppler Weather Radar for Improving the Detection of Terrain-induced Windshear in Hong Kong *Shuk Mei Tse1, Ying Wa Chan1 1. Hong Kong Observatory

14:30 [Session 17A-05] Recent progresses in dealiasing Doppler velocities collected by new scan modes with small Nyquist velocities to increase clear-air data coverage for wind analysis

34

RADAR METEOROLOGY CONFERENCE SERIES

DATE LOCATION CONFERENCE NAME March 1947 Cambridge, MA (First) Conference on Radar Meteorology October 1951 Urbana, IL Second Conference on Radar Meteorology September 1952 Montreal, PQ, Canada Third International Conference on Radar Meteorology November 1953 Austin, TX Fourth Conference on Radar Meteorology 12-15September 1955 Asbury Park, NJ Fifth Conference on Radar Meteorology 26-28 March 1957 Cambridge, MA Sixth Conference on Radar Meteorology 17-20 November 1958 Miami Beach, FL Seventh Conference on Radar Meteorology 11-14 April 1960 San Francisco, CA Eighth Conference on Radar Meteorology 23-26 October 1961 Kansas City, MO Ninth Conference on Radar Meteorology 22-25 April 1963 Washington, D.C. 10th Conference on Radar Meteorology 14-18 September 1964 Boulder, CO 11th Conference on Radar Meteorology 17-20 October 1966 Norman, OK 12th Conference on Radar Meteorology 20-23 August 1968 Montreal, PQ, Canada 13th International Conference on Radar Meteorology 17-21 November 1970 Tucson, AZ 14th Conference on Radar Meteorology 10-12 October 1972 Champaign-Urbana, IL 15th Conference on Radar Meteorology 22-24 April 1975 Houston, TX 16th Conference on Radar Meteorology 25-29 October 1976 Seattle, WA 17th Conference on Radar Meteorology 28-31 March 1978 Atlanta, GA 18th Conference on Radar Meteorology 15-18 April 1980 Miami Beach, FL 19th Conference on Radar Meteorology 30 Nov.-3 Dec.1981 Boston, MA 20th Conference on Radar Meteorology 19-23 September 1983 Edmonton, AB, Canada 21st International Conference on Radar Meteorology 10-14 September 1984 Zurich, Switzerland 22nd International Conference on Radar Meteorology 22-26 September 1986 Snowmass, CO 23rd Conference on Radar Meteorology 9-13 November 1987 Boston, MA 24th Conference on Radar Meteorology 24-28 June 1991 Paris, France 25th International Conference on Radar Meteorology 24-28 May 1993 Norman, OK 26th Conference on Radar Meteorology 9-13 October 1995 Vail, CO 27th Conference on Radar Meteorology 7-12 September 1997 Austin, TX 28th Conference on Radar Meteorology 12-16 July 1999 Montreal, PQ, Canada 29th International Conference on Radar Meteorology 19-24 July 2001 Munich, Germany 30th International Conference on Radar Meteorology 6-12 August 2003 Seattle, WA 31st Conference on Radar Meteorology 24–29 October 2005 Albuquerque, NM 32nd Conference on Radar Meteorology 6-10 August 2007 Cairns, Australia 33rd Conference on Radar Meteorology 5-9 October 2009 Williamsburg, VA 34th Conference on Radar Meteorology 26-30 September 2011 Pittsburgh, PA 35th Conference on Radar Meteorology 16-20 September 2013 Breckenridge, CO 36th Conference on Radar Meteorology 14-18 September 2015 Norman, OK 37th Conference on Radar Meteorology 28 August-1 September 2017 Chicago, IL 38th Conference on Radar Meteorology 16-20 September 2019 Nara, Japan 39th International Conference on Radar Meteorology 35

Presenter Index

Daren Lyu Session 14A-04 JAE-GEUN LEE Poster1-83 A Darrel Kingfield Poster2-61 Jainn Jong Shi Poster1-78 Aart Overeem Session 9A-04 David A Warde Poster3-57 Jairo Michael Valdivia Poster1-28 Ahmed Mahidjiba Poster3-59 David Schvartzman Session 15A-02 James Taylor Poster1-71 Ahoro ADACHI Poster3-05 David Serke Poster2-58 Jana Mendrok Poster1-95 Ahoro ADACHI Poster3-72 Delbert D Willie Poster3-108 Jeffrey Snyder Poster2-101 Akihito Umehara Poster2-63 Die Wang Poster3-08 Jeffrey Snyder Poster2-102 Akira Nishii Poster3-76 Djordje Mirkovic Poster2-05 Jennifer DeHart Poster2-76 Akira Nishii Poster2-75 Dominik Jacques Session 9B-03 Jeong-Eun Lee Session 7A-03 Alain Protat Session 8A-05 Dong-In Lee Poster1-102 Jeong-Eun Lee Poster3-28 Alan Shapiro Session 17A-03 DONG-KYUN KIM Session 13A-03 Jeong-Ho Bae Poster1-84 Albert Oude Nijhuis Poster1-70 Dusan Zrnic Poster3-03 jia xu Poster2-96 Alberto Ortolani Poster1-106 Dusan Zrnic Session 15A-01 Jian Zhang Session 4B-05 Alessandro Battaglia Session 6A-03 Jianbing Li Session 16A-04 Alessandro Battaglia Session 11A-04 E Jiaqi Hu Poster3-11 Alexander Ryzhkov Session 4B-01 Eder Paulo Vendrasco Poster1-108 Jidong Gao Session 3B-03 Ali Tokay Poster1-07 Edward Luke Session 15A-03 Jim W Wilson Session 17B-05 Allen B. White Poster2-30 Eiichi Sato Poster1-52 jingbo yun Poster2-80 Allen B. White Session 5A-02 Eiichi Sato Session 14A-02 Jingya Wu Poster2-31 Allison Theresa LaFleur Eiichi Yoshikawa Poster1-41 jingyu wang Poster1-66 Poster2-72 Erwan LE BOUAR Poster2-57 jingyu wang Session 8A-04 Andrew Byrd Session 5A-03 Evan Ruzanski Session 12B-03 Jisun Lee Poster2-86 Andrew Mahre Poster2-08 F JIWON LEE Poster1-82 Ang Zhou Poster2-53 Ji-Young Gu Poster3-46 Forest Cannon Session 8A-03 Angela Rowe Session 10B-03 Joerg Steinert Poster1-94 Frederic Fabry Session 4A-06 Angela Rowe Session 16B-03 John C Hubbert Session 4A-01 Frederic Fabry Session 3B-01 Anjaneyulu Akkimi Poster3-96 John Grender C. Almario Freya Ione Addison Session 9A-03 Anthony Didlake, Jr. Session 11B-03 Poster3-112 Anthony E Reinhart Poster1-76 G Jordan Palmer Brook Poster1-81 Anthony E Reinhart Session 12B-02 Gerald M Heymsfield Poster2-32 Jordi Figueras i Ventura Arthur Costa Tomaz de Souza Gerald M Heymsfield Session 15B-05 Session 15B-04 Poster1-80 Giulia Giani Poster3-68 Jorge L Salazar-Cerreno Ashwin Raju D K Poster1-47 Greg McFarquhar Poster2-40 Session 2A-02 Asi Zhang Poster2-13 GUOQIANG XU Poster1-77 Jose Dias Neto Session 2B-03 Atsushi Hamada Poster1-18 Guy Delrieu Session 4B-03 Joseph A Olden Session 17B-03 Atsushi Okazaki Session 11A-05 GyuWon Lee Session 10A-03 Joshua G Gebauer Poster3-52 Autumn Losey-Bailor Poster3-25 Joshua G Gebauer Poster3-51 Ayano Ueki Poster3-34 H Joshua Hampton Poster2-34 B HAI QIU Poster3-98 Joshua S Soderholm Session 17A-02 HaiGuang Zhou Poster2-108 Joshua Wurman Poster3-56 Ben Pickering Session 13B-03 Hajime Okamoto Session 11A-01 Joshua Wurman Poster2-93 Biao Geng Poster2-103 Hanako Inoue Poster2-91 Joshua Wurman Session 5A-06 Boonleng Cheong Poster1-46 Hao Huang Poster1-33 Josue Gehring Session 8B-05 Bo-Young Ye Poster3-06 Hao Wang Poster2-42 Jothiram Vivekanandan Session 14B-04 Bradley Isom Poster3-07 Hao Wen Poster3-54 Juan HUO Poster3-01 Brenda Javornik Poster3-61 Haojun Chen Session 12A-01 Juanzhen Sun Session 7B-02 Bronwyn Dolman Poster1-89 Haoran Li Session 2B-01 Jungsoo Yoon Poster3-93 Bryan Kerman Poster2-69 Harish Baki Poster1-75 JuYu Chen Poster3-73 C Hassan AL SAKKA Poster3-35 K Casey Griffin Poster2-01 Hiroaki Horie Poster1-26 Kamil Mroz Poster2-33 Casey Griffin Session 12A-02 Hiroki OKACHI Poster2-107 Kamil Mroz Poster1-08 CHA YAN CAO Poster2-66 Hiromu Seko Poster1-97 Kaori Sato Poster1-34 Chandra V Chandrasekar Hiroshi HANADO Poster3-66 kao-shen chung Poster1-74 Session 7A-01 Hiroshi Kikuchi Poster2-17 Karen Ann Kosiba Poster3-67 CHANDRASEKAR RADHAKRISHNAN HIROSHI YAMAGUCHI Poster3-16 Karen Ann Kosiba Poster2-92 Poster1-36 Hiroshi Yamasuge Poster1-51 Karen Ann Kosiba Session 10B-01 chang liu Poster2-77 Hiroyuki Hashiguchi Poster3-04 Karly Jackson Reimel Session 14B-03 chaoying huang Poster3-84 Hisato Iwashita Poster2-65 Karly Jackson Reimel Session 9A-01 Charles N Helms Poster3-33 Hoang Minh Toan Poster3-113 Katharina Lengfeld Session 13B-02 Chelsey N. Laurencin Session 11B-04 Hong Jiang Poster3-41 Katsuhiro Nakagawa Poster2-25 Chen Daren Poster3-09 Hong Ki Sung Poster1-54 Kaya Kanemaru Session 8A-06 CHENG FANG YANG Poster2-68 Hong-Mok Park Poster3-85 Kaya Kanemaru Poster1-09 Cheng-Ku Yu Session 11B-06 Howard Bluestein Session 5B-03 Kazuhiro Yoshimi Session 15A-06 Ching-Yin Ke Poster1-96 Hsin-Hao Liao Poster3-32 Kazuyuki Okada Session 3A-02 Choeng-lyong Lee Poster1-22 Hugh Morrison Poster2-55 Keisuke HIKAWA Poster2-45 Chong Wu Poster2-46 Hui Xiao Poster2-56 Keitaro Asai Poster3-97 Christopher Curtis Session 4A-04 Huiling Yang Poster2-87 Kelly Lombardo Session 10B-02 Christopher Williams Session 14B-01 Hyokyung Kim Poster1-20 Kenji Nakamura Session 11A-06 Christos Gatidis Session 14B-02 I Kenji Suzuki Poster1-29 ChungYi Lin Poster1-61 IGOR PAZ Poster3-80 Kenta Sueki Poster2-104 Cuong Nguyen Poster2-64 Igor R. Ivic Poster1-40 Kento Nakamura Poster2-04 D Igor R. Ivic Poster2-06 Khadija DIANI Poster3-109 DaeHyung Lee Poster3-90 Ioannis V Sideris Session 17B-01 Kinji Furukawa Session 3A-03 Daejin Yeom Poster3-91 Irene Crisologo Poster3-37 Kohin Hirano Poster2-23 Daniel Michelson Session 9A-06 Ivan Arias Poster1-32 Koichiro Michimoto Poster2-74 Daniel Sanchez-Rivas Poster3-71 J Koji Nishimura Poster1-56 Daniel Schertzer Session 17B-04 Koji Sassa Poster2-19 Jacob Carlin Session 2B-04 Daniel T Dawson II Session 9B-06 Koki Muguruma Session 14A-01 Jacques Victor Testud Session 4B-04 36

kosei yamaguchi Poster1-107 Shunji Kotsuki Poster1-23 Kosuke Yamamoto Poster1-11 P Shunsuke Aoki Poster1-12 Koyuru Iwanami Poster1-99 Pao-Liang Chang Session 17A-06 Shunxian Tang Poster1-05 Kumar Vijay Mishra Poster3-100 Parichat Wetchayont Poster3-82 Silke Troemel Poster1-65 Kun Zhao Poster2-60 Parinya Intaracharoen Poster3-107 Silke Troemel Poster1-68 Kwonil Kim Poster3-104 Pascal Felix Waniha Session 12B-04 Simona Trefalt Poster2-85 Kwo-Sen Kuo Poster1-37 Patricia Altube Poster3-64 Simona Trefalt Poster1-90 Kyle Pittman Poster2-08 Patricia Altube Poster3-65 Simone Tanelli Session 3A-04 Kyuhee Shin Poster3-83 Patrick Adrian Campbell Skylar S Williams Poster3-31 Kyung-Yeub NAM Poster1-88 Poster3-60 Skylar S Williams Poster2-99 Paul Robert Harasti Session 9A-05 Soichiro Sugimoto Poster1-105 L Pavlos Kollias Session 3A-01 SOUMYA SAMANTA Poster2-36 Lei Han Poster1-58 Pay-Liam Lin Poster2-39 Stephen Cocks Session 10A-01 lejian zhang Poster3-53 Pedro Augusto Sampaio Messias Ribeiro Stephen J Munchak Poster2-37 Lester Kim M. Lagrimas Poster2-78 Steven A Rutledge Session 5A-01 Poster3-111 Peisang Tsai Poster2-27 Sudesh Boodoo Session 10A-04 Li Luo Poster2-82 Pengfei Zhang Poster3-78 Sujeong Cho Poster1-63 Liang Feng Poster3-55 Pierre-Emmanuel Kirstetter sunjin mo Poster3-47 Liang Liao Poster1-15 Session 11A-03 Syugo Hayashi Poster2-95 Lindsey Richardson Poster3-20 Lindsey Richardson Poster3-21 Q T Ljubov Joanna Liman Poster3-24 Qiangyu Zeng Poster1-42 Tadashi Fujita Session 9B-01 Lucas Reimann Poster1-91 QianYuChen Wang Poster1-44 Tadayasu Ohigashi Session 6A-04 M Qin Xu Session 17A-05 Taihei Uchida Poster1-43 R Taishi Hashimoto Session 13A-04 Manabu D. Yamanaka Poster2-84 Takafumi Seguchi Poster2-88 Ranting Tao Poster2-54 Manoj Manguttathil Gopalakrishnan Takahisa Kobayashi Poster1-14 Raquel M Evaristo Session 15B-06 Poster2-106 Takeharu Kouketsu Poster2-18 Ratih Indri Hapsari Poster3-106 Marc Schleiss Session 13B-04 Takemasa Miyoshi Session 7B-01 Ren Takaoka Poster2-47 Marco Gabella Session 6B-02 Takeshi Maesaka Session 15A-05 Ricardo Reinoso-Rondinel Marcus van Lier-Walqui Session 16B-01 Takeshi Maesaka Session 5B-06 Poster2-29 Mari L Schmidt Poster1-67 Takeshi Masaki Poster1-06 Richard Roy Session 5A-04 Mariko Oue Session 8B-02 Taku Suezawa Poster2-02 Riko Oki Poster1-30 Mark E. Weber Poster2-03 Takuji Kubota Poster1-02 Rita Roberts Poster2-83 Markus Schultze Poster1-104 Taro Shinoda Poster2-49 Rita Roberts Session 15B-01 Markus Schultze Poster1-103 Terry James Schuur Session 2B-02 Robert Cifelli Poster3-77 Martin Hagen Session 8B-04 Thanh Ngo-Duc Poster3-110 Robert Clyde Jackson Session 6B-01 Martin Lainer Poster3-58 Thea Sandmael Poster2-71 Robert M Rauber Poster1-39 Maryna Lukach Session 8B-06 Tian-You Yu Poster2-07 Robert Palmer Session 12A-04 Masafumi Hirose Poster1-25 Tim Boehme Poster1-64 Robert Schrom Session 16A-01 Masakazu Wada Session 2A-01 Ting-Yu Cha Session 11B-01 Robert Schrom Session 8B-03 Masato I. Nodzu Poster3-105 Tomoaki Mega Poster3-102 Roberto V. Calheiros Poster3-75 Masayuki Maki Session 16B-04 Tomohiro ARAI Poster1-49 Robin L Tanamachi Poster3-22 Masayuki Yamamoto Poster3-02 Tomomi Aoki Poster1-48 Robin L Tanamachi Session 5B-05 Matthew R Kumjian Session 8B-01 Tomoya Matsuda Poster2-10 Roger M Wakimoto Session 5B-02 Matthew R Kumjian Session 9B-05 Tomoya Matsuda Poster2-11 Rudolf Kaltenboeck Poster1-100 Maud Martet Session 3B-02 Toshiaki TAKANO Poster3-19 Rui Li Poster3-29 Mengsong Nong Poster2-89 Toshihisa Matsui Poster1-60 Ruiyi Li Poster3-10 Michael Frech Session 4A-05 Toshiki Matsushima Poster2-44 RYOHEI KATO Session 7B-04 Michael J. Istok Session 17A-01 Troy J Zaremba Session 6A-02 Michael M. Bell Session 10B-04 Ryusho Imai Poster2-28 Michael M. Bell Poster3-30 S U Michael M. French Session 5B-04 Udai Shimada Session 11B-02 Sachin Deshpande Session 9B-04 Mi-Kyung Suk Poster3-86 Ulrich Goersdorf Poster3-13 Samantha Melani Poster1-98 Milind Sharma Poster1-69 Sarvesh Garimella Poster3-27 Minseok Kang Poster3-87 V Scott Giangrande Poster3-12 Mi-Young Kang Poster2-52 Valentin Louf Poster2-100 Scott M Ganson Poster3-49 Moeka Yamaji Poster1-01 Valery V Melnikov Poster1-38 Scott Mabry Ellis Poster2-26 Mohammad-Hossein Golbon-Haghighi Valery V Melnikov Poster3-26 Sebastian Torres Session 2A-04 Poster2-24 Vojtech Bliznak Poster3-74 Seiji Kawamura Poster1-50 Mohammad-Hossein Golbon-Haghighi Sento Nakai Poster3-92 W Session 15A-04 Seokhwan Hwang Poster3-94 Walt Petersen Poster1-17 Muhammad Arif Rahman Seppo Pulkkinen Poster3-42 Wei-Kuo Tao Poster1-73 Poster3-14 Seppo Pulkkinen Session 17B-02 Weixin Xu Poster1-13 N Sergey Y Matrosov Session 11A-02 Wei-Yu Chang Poster3-43 Namiko Sakurai Poster2-97 Sergey Y Matrosov Session 6A-01 WEN XIAO ZHANG Session 13A-01 Nan YU Session 4B-06 Sergio Daniel Graniello Session 5A-05 Wen-Chau Lee Session 2A-03 Naoya Takizawa Poster2-16 Shakti P. C . Poster3-101 Wiebke Deierling Session 15B-03 Narae Kang Poster3-89 Sheng Chen Poster2-15 Wolfgang Hanft Poster3-69 Nick Guy Session 7A-04 Shigeharu Shimamura Poster2-12 Wolfgang Hanft Poster3-70 Nick Guy Poster3-50 Shigenori Otsuka Poster1-87 Wonbae Bang Poster1-93 Nitin Bharadwaj Poster3-48 Shingo Shimizu Session 7B-03 Wooyoung Na Poster3-88 Nobuhiro Takahashi Poster1-04 Shin-ichi Suzuki Poster2-98 X Nobuhiro Takahashi Poster2-20 Shinsuke Satoh Session 7A-02 Xiantong Liu Poster2-38 Nor Azlan bin Mohd Aris Shinsuke Satoh Session 12A-03 Xiaoding Yu Poster2-67 Poster2-14 Shinta Seto Session 8A-01 Xiaona Rao Poster2-90 Norman R Donaldson Poster3-36 Shizuka Akiyama Poster1-10 shuai Zhang Poster3-45 Xiaowen Li Poster1-24 O Shuhei Uchida Poster2-21 xiuming wang Poster2-81 Shuk Mei Tse Session 17A-04 xuefeng meng Poster2-79 37

Y Ya-Chien Feng Session 13A-02 Ya-Chien Feng Session 16B-02 Yann Dufournet Poster1-57 Yaoyao Zheng Session 10A-02 Yaoyao Zheng Poster3-81 Yasumitsu Maejima Poster1-85 Yasushi Suzuki Poster3-103 Yasutaka Ikuta Session 9B-02 Yasutaka Wakazuki Session 17B-06 Ye Cui Poster2-51 Yixin Wen Session 6B-03 Yongheng BI Poster3-15 Yoshinori Yamada Session 11B-05 Younghyun Cho Session 6B-04 Yuchun Gao Poster3-40 Yufang Tian Session 16A-03 Yuichi Ohno Poster1-35 Yuichi Ohno Session 16A-02 Yuichiro Hagihara Poster2-50 Yuichiro Hagihara Poster1-16 Yukari Shusse Poster2-62 Yukie Moroda Poster2-09 Yura Kim Poster2-48 Yuta Ohya Poster2-105 Yu-Ting Cheng Session 3B-04 Z Zachary Wienhoff Poster2-73 Zewei Zhao Poster1-101 zhao shi Poster3-44 zhaoping sun Poster3-23 Zhe Feng Session 15B-02 Zhe Feng Session 12B-01 Zhe Li Poster2-22 ZHE ZHANG Poster3-95 Zheng Ruan Poster2-59 zhenqing liang Poster1-79 Zhicheng Ding Poster1-92 Zhoujie Cheng Poster3-17 ziad haddad Poster1-21 Ziwei Zhu Poster2-41 Zlatko R Vukovic Poster3-62 Zoya Andreeva Poster1-27 Josué Gehring Poster3-63 Evan Ruzanski Session 4A-02 Raquel M Evaristo Poster1-86 Mengistu Wolde Poster1-53 Boonleng Cheong Session 5B-01 Robert Palmer Poster1-45 Luca Baldini Session 14A-03 Luca Baldini Poster1-19 Alessandro Battaglia Poster2-43 Lei Han Poster1-59 Boon-Leng Cheong Poster3-38 Karen Ann Kosiba Poster2-94 Christine Unal Session 4A-03 Michael Frech Poster3-39 Kumar Vijay Mishra Poster3-99 V. Chandrasekar Session 8A-02 Kumar Vijay Mishra Poster1-55 Alexander Ryzhkov Poster3-79 Valentin Louf Session 9A-02 Haonan Chen Poster2-35 Wen-Chau Lee Poster3-18 Aart Overeem Session 4B-02 FUMIE MURATA Session 13B-01 Rui Liao Poster1-72 Yongguang ZHENG Poster2-70 Yu-Chieng Liou Poster1-62 Xuehua Li Poster1-03 Youcun Qi Poster1-31

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