Final Program
2020 IEEE 92nd Vehicular Technology Conference
18 November – 16 December 2020
Online Virtual Conference
Welcome from the General Chair
On behalf of the entire IEEE VTC2020-Fall by new ground-breaking directions of research Organizing Committee I warmly welcome you to this emerging in both industrial and academic second virtual edition of the Vehicular Technology environments. We believe the technical program of Conference, the flagship conference of the IEEE our conference contains numerous and extensive Vehicular Technology Society. After very careful samples of such research efforts. analysis of the extraordinary circumstances created by The virtual format of the VTC 2020-Fall will provide the global pandemic, the Board of Governors of the an efficient platform for exchange of new ideas in our Society has decided to hold the conference again in a area of research interest and expertise. We will virtual format to ensure your physical safety in these assemble via the marvel of our global trying times of still not very well known dangers to telecommunication network to discuss the latest the well-being of us all. This is not a perfect solution, research results of interest to our professional but the best possible under the current difficult community. Our discussions will focus on 350 circumstances. We all hope that in spite of this technical papers, multiple keynote sessions, highly unconventional conference format you will still very relevant and informative tutorials, and leading-edge much benefit from the intellectually stimulating workshops. technical program that the Organizing Committee has prepared for you. We also hope that when this global The IEEE Vehicular Technology Conference has a pandemic is finally behind us, we will be able to long and remarkable history. For the past seven welcome you to a future regular-format VTC in decades the VTC has established itself as the beautiful Victoria. prominent conference in the areas of wireless communications and networks, vehicular electronics The cutting-edge technologies that are within the and transportation systems. This year the VTC2020- scope of our conference are of essential importance to Spring and our VTC2020-Fall are making history as enhancing the quality of our daily lives and to making the first two IEEE Vehicular Technology Conferences our economy more efficient and sustainable. One to be held in a remote on-line format. example is 5G systems and networks that are being deployed at an increasing pace worldwide. Their Once again, welcome to our conference. I hope you different use cases have a potential of impacting all will enjoy it and benefit from it in spite of not being areas of human activity to the degree that still at this able to visit our beautiful Victoria in person. time is not easy to predict or even imagine. Their progressing evolution into the future 6G systems and Witold Krzymień networks creates challenges that need to be addressed General Chair, IEEE VTC2020-Spring Welcome from the TPC Co-chairs On behalf of the Technical Program Committee, we We would like to use this opportunity to thank all 13 would like to welcome you to the 92nd IEEE track co-chairs for their excellent work. They all Vehicular Technology Conference (VTC2020-Fall) managed to obtain at least 3 reviews for each paper that will be, for the sake of safety and health of all within a short time frame, and the decision process participants, organized in a virtual online format. went extremely smoothly. We would like to thank the members of the IEEE VTC2020-Fall organizing This fully virtual edition of VTC has been able to committee for their great responsiveness and support attract an exciting technical program ranging across during the entire period of technical program the latest areas of research in wireless systems and preparation and development. We would also like to networks, connected and autonomous vehicles, both thank the technical program committee (TPC) manned and unmanned, emerging trends in members for their diligent work. Finally, we would applications of machine learning and artificial like to thank the authors, who always stood by in intelligence in wireless communications, and many difficult times, waiting for last minute changes and other emerging topics. We received a total of 722 updates for the conference organization. We hope you paper submissions, out of which 350 outstanding are proud to have your work as part of this virtual papers will be presented in 12 technical tracks and the edition, and still enjoy the virtual networking. We recent results track that comprise the IEEE VTC2020- encourage you all to maximally dive into the program, Fall technical program. In addition to the regular and and to engage with the many experts that will gather recent results sessions, the conference will feature 10 virtually. Let’s learn, interact, and enjoy! topical workshops, 10 tutorials delivered by the leading experts in the field, and four extraordinary keynote speakers, one of them is from industry and Lin Cai and Vincent Wong the other three are from the academia. TPC Co-chairs, IEEE VTC2020-Spring
2 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Welcome from the VTS President
On behalf of the IEEE Vehicular Technology Society, papers for authors and provided some financial it is truly an honor and a pleasure to welcome all of adjustments to the cost of conference attendance. VTS you to our society’s semi-annual flagship conference, understands the fact that conferences are an important the 2020 IEEE 92nd Vehicular Technology factor in publications of peer-reviewed papers by Conference – VTC2020-Fall. The conference also graduate students and academics, in dissemination of marks our second VTC to be held virtually. new product and services by industry and government agencies, and in providing a networking platform for This year’s Fall 2020 edition of the Vehicular the profession. We therefore decided to make sure that Technology Conference series will provide attendees we can still publish papers accepted in our major with a magnificent collection of technical paper conferences so the students can graduate, and our presentations, tutorials, plenary talks, and workshops, researchers can register their novel ideas and all on a virtual platform. With the continuation of outcomes. COVID-19 global health crisis, the VTS Board of Governors has decided to again convert IEEE Organizing a world-class conference event such as VTC2020-Fall, originally planned to be held in the VTC2020-Fall in normal times involves a large and beautiful city of Victoria, Canada, to a fully virtual highly dedicated team of volunteers, and with the conference with the original dates, 4-7 October 2020. change from a physical to virtual conference that has We will however extend the virtual conference even become more challenging. We are very thankful availability dates until end of November 2020 so to everyone making this conference an outstanding attendees from different parts of the world could success! I would like to sincerely thank General Chair access the rich program at their own convenient time. Witold Krzymień, Technical Program Co-chairs Lin We do realize that virtual conference will not allow to Cai and Vincent Wong, and the rest of the conference reproduce the professional networking environment organizing team for their time, effort, dedication, and that you are used to, but it will allow VTC2020-Fall to commitment for making VTC2020-Fall one of the still attain a portion of its objectives. Please know that premier “virtual” international conference events in our thoughts are with those affected by the COVID-19 vehicular technology! outbreak. The health and safety of our members, I am looking forward to the end of pandemic and conference attendees, and volunteers is the utmost seeing all of you in person at VTC2021-Spring in priority of our society. Helsinki, Finland, where we will be Connecting the It is always our intention to be flexible and helpful to Mobile World! Stay safe. everyone during this time of difficulty. VTS is fully supportive of IEEE’s mission statement and we wish you and all people success in dealing with any local Abbas Jamalipour, President challenges you may be facing. We have thus relaxed IEEE Vehicular Technology Society standard requirements for onsite presentation of
Organizing Committee Honorary General Chair Rodney Vaughan Simon Fraser University, Canada General Chair Witold Krzymień University of Alberta, Canada Technical Program Chairs Lin Cai University of Victoria, Canada Vincent Wong University of British Columbia, Canada. Publications Chair James Irvine University of Strathclyde, UK Keynotes and Panels Co-chairs Lajos Hanzo University of Southampton, UK Abbas Jamalipour University of Sydney, Australia Tutorials Chair Gerhard Bauch Hamburg University of Technology, Germany Workshops Co-chairs Rui Dinis New University of Lisbon, Portugal Ekram Hossain, University of Manitoba, Canada Industry Program Co-chairs Anthony Soong FutureWei, USA Ivo Maljevic TELUS, and University of Toronto, Canada Publicity Co-chairs Jiming Chen Zhejiang University, China Periklis Chatzimisios International Hellenic University, Greece Alvin Chin BMW Technology Corporation, USA Local Arrangements Chair Kin Li University of Victoria, Canada Finance Chair J. R. Cruz The University of Oklahoma, USA Conference Administrators Rodney C. Keele The University of Oklahoma, USA Cerry Leffler IEEE VTS, USA
18 November – 16 December 2020 Final Program 3
Logistics IEEE eXpress Conference Publishing Liz Aubrey IEEE, USA IEEE Conference Services Rachael Estabrook IEEE, USA Online Proceedings Laura Hyslop EPSC, UK
Technical Program Committee
Chairs Lin Cai University of Victoria, Canada Vincent Wong University of British Columbia, Canada. Vice-Chairs, Antenna Systems, Jinhong Yuan University of New South Wales Propagation and RF Design Ruonan Zhang Northwestern Polytechnical University Walaa Hamouda Concordia University Yue Gao Queen Mary University of London Vice-Chairs, Signal Transmission Xiaodai Dong University of Victoria And Reception Jun Cai Concordia University Masoud Ardakani University of Alberta Vice-Chairs, Spectrum Management, Shiwen Mao Auburn University Radio Access Technology and Ben Liang University of Toronto Heterogeneous Networks Fei Tong Southeast University Vice-Chairs, Multiple Antenna Systems Chintha Tellambura University of Alberta and Cooperative Communications Yong Zhou ShanghaiTech University Hong-Chuan Yang University of Victoria Vice-Chairs, Vehicle Cooperation and Long Bao Le INRS, University of Quebec Control, Assisted and Autonomous Jianping He Shanghai Jiaotong University Driving Ning Zhang Texas A&M University Vice-Chairs, Airborne and Maritime Ping Wang York University Mobile Systems and Services Bin Lin Dalian Maritime University Hui Zhang Beihang University Vice-Chairs, IoV, IoT, M2M, Sensor Jianping Pan University of Victoria Networks and Ad-Hoc Networking Sangheon Pack Korea University Haibo Zhou Nanjing University Vice-Chairs, Wireless Networks: Xiaodong Lin University of Guelph Protocols, Security and Services Sinem Coleri Ergen Koc University Hongwei Li University of Electronic Science and Technology of China Yuan Wu University of Macau Vice-Chairs, Positioning, Navigation Shahrokh Valaee University of Toronto and Sensing Weimin Huang Memorial University Chai-Ho Ou National Pingtung University Vice-Chairs, Machine Learning and Cheng Li Memorial University AI for Communications Arumugam Nallanathan Queen Mary University of London Hangguan Shan Zhejiang University Simon Yang University of Guelph Vice-Chairs, Electric Vehicles, Hao Liang University of Alberta Vehicular Electronics and Intelligent Mi Wen Shanghai Electro Transportation Ricardo Pinto de Castro Robotics and Mechatronics Center, Germany Vice-Chairs, Future Trends and Jelena Misic Ryerson University Emerging Technologies Siyu Lin Beijing Jiaotong University Yongmin Zhang Central South University
Members Sergi Abadal, Universitat Politècnica de Catalunya Abdulrahman Alamer, Jazan university Taimoor Abbas, ICV-TECH AB Irfan Al-Anbagi, University of Regina Eslam AbdAllah, Queen's University Waleed Alasmary, Umm Al-Qura University Atef Abdrabou, United Arab Emirates University Amjad Ali, COMSATS University Islamabad Mouhamed Abdulla, Sheridan Institute of Technology Ibrahim Al-Nahhal, Memorial University (Toronto) Moayad Aloqaily, Carleton University Giuseppe Abreu, Jacobs University Ritsumeikan Onur Altintas, Toyota North America R&D University Gayan Amarasuriya, Southern Illinois University Koichi Adachi, The University of Electro-Communications Imran Shafique Ansari, University of Glasgow Mari Carmen Aguayo-Torres, Universidad de Malaga Atakan Aral, Vienna University of Technology Hamed Ahmadi, University College Dublin Rui Esteves Araujo, University of Porto Noman Akbar, The Australian National University Masoud Ardakani, University of Alberta Sami Akin, Leibniz Universität Hannover Şuayb Arslan, MEF University
4 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Saman Atapattu, University of Melbourne Eddy Chiu, ASTRI Kareem Emile Baddour, Communications Research Bong Jun Choi, Soongsil University Centre Canada Wan Choi, Seoul National University Masaki Bandai, Sophia University Peter Han Joo Chong, Auckland University of Vo Nguyen Quoc Bao, Posts and Telecommunications Technology Institute of Technology Duanfeng Chu, Wuhan University of Technology Paolo Baracca, Bell Labs Nokia Zheng Chu, University of Surrey Jose Maria Barcelo-Ordinas, Universitat Politecnica de Angel Cuevas, Universidad Carlos III de Madrid Catalunya Wen Cui, University of Victoria Sultan Basudan, Jazan university Kanapathippillai Cumanan, University of York Mark Beach, University of Bristol Francisco da Costa Lopes, Electric Energy Research Ebrahim Bedeer, University of Saskatchewan Center – CEPEL Daniel Benevides da Costa, Federal University of Ceara Hong-Ning Dai, Macau University of Science and (UFC) Technology Suzhi Bi, Shenzhen University Jianmei Dai, Beijing University of Posts and Kaigui Bian, Peking University Telecommunications Muhammad Bilal, Hankuk University of Foreign Studies Yanpeng Dai, Xidian University Carsten Bockelmann, University of Bremen Luca De Nardis, University of Rome La Sapienza Gennaro Boggia, Politecnico di Bari Ricardo de Castro, German Aerospace Center (DLR) Zied Bouida, Carleton University Robson De Grande, Brock University Torsten Ingo Braun, University of Bern José A. del Peral-Rosado, Universitat Autònoma de Jonathan Brembeck, German Aerospace Center (DLR) Barcelona (UAB) Christopher Brinton, Purdue University Jing Deng, University of North Carolina at Greensboro Cesar Briso, Universidad Politecnica de Madrid Ruilong Deng, Zhejiang University Eyuphan Bulut, Virginia Commonwealth University Xianjun Deng, St. Francis Xavier University Paolo Burgio, Università degli studi di Modena e Reggio Yansha Deng, King's College London Emilia Benoît Denis, CEA-Leti Minatec Jun Cai, Concordia University Mrugen Deshmukh, North Carolina State University Yunlong Cai, Zhejiang University Harpreet S. Dhillon, Virginia Tech Jianyong Cao, Shanghai Motor Vehicle Inspection Octavia A. Dobre, Memorial University Jiaxin Cao, Shanghai Jiao Tong University Xiaodai Dong, University of Victoria F K Carl, Shanghai Jiao Tong University Zheng Dong, Shandong University Giuseppe Caso, Simula Metropolitan Center for Digital Pedro M. d'Orey, Instituto de Telecomunicações & Engineering University of Porto Abdulkadir Çelik, King Abdullah University of Science Xinyu Dou, Dalian Maritime University and Technology Fabio Dovis, Politecnico di Torino Oktay Cetinkaya, University of Southampton Khaled Elsayed, Cairo University Anas Chaaban, University of British Columbia Mahmoud Elsharief, Korea University Sammy Chan, City University of Hong Kong Amr A. El-Sherif, Nile University Le Chang, Guangdong University of Technology Samy El-Tawab, James Madison University Zheng Chang, University of Jyväskylä Amr El-Wakeel, Queen's University Shailesh Chaudhari, Samsung Semiconductor Serhat Erkucuk, Kadir Has University Cailian Chen, Shanghai Jiao Tong University Melike Erol-Kantarci, University of Ottawa Chiao-En Chen, National Chung Cheng Univerity Bo Fan, Beijing University of Technology He Chen, The Chinese University of Hong Kong Rongfei Fan, Beijing Institute of Technology Hongbin Chen, Guilin University of Electronic Fang Fang, University of Manchester Technology Xiaojie Fang, Harbin Institute of Technology Hui Chen, Virginia State University Fang Yuan, Dalian Polytechnic University Mingzhe Chen, Princeton University Abraham O. Fapojuwo, University of Calgary Chung Shue Chen, Bell Labs Nokia Chen Feng, University of British Columbia Okanagan Siyuan Chen, SHIEP Guangsheng Feng, Harbin Engineering University Tao Chen, VTT Technical Research Centre of Finland Ltd. Shaohan Feng, Nanyang Technological University Xianfu Chen, VTT Technical Research Centre of Finland M. Julia Fernández-Getino García, Universidad Carlos III Xinwei Chen, Memorial University de Madrid Yan Chen, Arizona State University James Fleming, Loughborough University Yen-Ming Chen, National Sun Yat-Sen University Vasilis Friderikos, King's College London Ying Chen, Beijing Information Science and Technology Liqun Fu, Xiamen University University Shu Fu, Chongqing University Yuanzhu Chen, Memorial University of Newfoundland Takeo Fujii, The University of Electro-Communications Julian Cheng, University of British Columbia Manato Fujimoto, Nara Institute of Science and Nan Cheng, Xidian University Technology Nan Cheng, University of Waterloo Jie Gao, University of Waterloo Man Hon Cheung, The Hong Kong Polytechnic Lin Gao, Harbin Institute of Technology University Meilin Gao, Beijing Jiaotong University Alvin Chin, BMW Technology Corporation Xiaozheng Gao, Beijing Institute of Technology
18 November – 16 December 2020 Final Program 5
Yue Gao, University of Surrey Nan Jiang, Queen Mary University of London Linqiang Ge, Georgia Southwestern State University Yi Jiang, NWPU Christian Gentner, German Aerospace Center (DLR) Zhang Jianhua, Beijing University of Posts and Weihan Goh, Singapore Institute of Technology Telecommunications Wei Gong, University of Science and Technology of China Jian Jiao, Harbin Institute of Technology (Shenzhen) Zijun Gong, Memorial University Luofang Jiao, NanJing University Javier Gozálvez, Universidad Miguel Hernandez de Elche Yutao Jiao, Nanyang Technological University (UMH) Zhiyang Ju, University of Melbourne David Grace, University of York Wang Jue, Nantong University Fabrizio Granelli, University of Trento Bang Chul Jung, Chungnam National University Francesco Gringoli, University of Brescia Peter Jung, Technical University of Berlin Fuqiang Gu, National University of Singapore Igor Kadota, MIT Peiyuan Guan, University of Victoria Ahan Kak, Georgia Institute of Technology João Guerreiro, Universidade Autónoma de Lisboa Jiawen Kang, Nanyang Technological University Guan Gui, Nanjing University of Posts and Zaher Kassas, University of California Irvine Telecommunications Rodney Clint Keele, IEEE VTS / The University of Linqing Gui, Nanjing University of Science and Oklahoma Technology Muhammad RA Khandaker, Heriot-Watt University Kun Guo, Singapore University of Technology and Design Hasan Ali Khattak, Comsats University Islamabad Qinghua Guo, University of Wollongong Hyoil Kim, UNIST Murat Gürsu, TUM Il-Min Kim, Queen's University Walaa Hamouda, Concordia University Junghyun Kim, Soonchunhyang University Chong Han, Shanghai Jiao Tong University Taehong Kim, Chungbuk National University Dairu Han, University of Waterloo Taeyoon Kim, Soonchunhyang University Dairu Han, Nanjing University of Science and Technology Yun-Hee Kim, Kyung Hee University Tao Han, University of North Carolina at Charlotte Haneul Ko, Korea University Muhammad Hanif, Thompson Rivers University Thomas Kürner, Technische Universitaet Braunschweig Shinsuke Hara, Osaka City University Gunes Kurt, Istanbul Technical University Jérôme Härri, EURECOM Yeun-Woong Kyung, Hanshin University Mazen O. Hasna, Qatar University Lutz Lampe, University of British Columbia Naveed Ul Hassan, Lahore University of Management Zhenping Lan, Dalian Polytechnic University Sciences Buon Kiong Lau, Lund University Jianping He, Shanghai Jiao Tong University Long Le, INRS- University of Quebec Rongxi He, Dalian Maritime University Gilsoo Lee, Virginia Tech Ruisi He, Beijing Jiaotong University Howon Lee, Hankyong National University Shiwen He, Central South University Jaewook Lee, Korea University Xiaojun Hei, Huazhong University of Science and Jang-Won Lee, Yonsei University Technology Kyungchun Lee, Seoul National University of Science and Ali Reza Heidarpour, University of Alberta Technology Patrick Henkel, German Aerospace Center (DLR) Basilio Lenzo, Sheffield Hallam University Thorsten Herfet, Saarland Informatics Campus Ka-Cheong Leung, Harbin Institute of Technology Teruo Higashino, Osaka University (Shenzen) Zhanwei Hou, University of Sydney Baozhu Li, University of Jinan Andrej Hrovat, Jožef Stefan Institute Bin Li, Northwestern Polytechnical University Fengye Hu, Jilin University Cheng Li, MUN Yunfeng Hu, Jilin University Gang Li, Concordia University Cheng Huang, Shanghai Jiao Tong University Heng Li, CSU He Huang, Soochow University Hongwei Li, University of Electronic Science and Liang Huang, Zhejiang University of Technology Technology of China Weimin Huang, Memorial University Jinguo Li, Shanghai University of Electric Power Xiaojing Huang, University of Technology Sydney Junling Li, University of Waterloo Yu-Chih Huang, National Chiao Tung University Mushu Li, University of Waterloo Sean Huberman, Mapsted Corp Rongpeng Li, Zhejiang University Yiming Huo, University of Victoria Ruidong Li, National Institute of Information and Aissa Ikhlef, Durham University Communications Technology (NICT) Susumu Ishihara, Shizuoka University Shichao Li, Guilin University of Electronic Technology Vahid Jamali, University of Erlangen Nuernberg Xiaolong Li, Hunan University of Technology and Imad Jawhar, Al Maaref University Business Dhammika Jayalath, Queensland University of Xiuhua Li, Chongqing University Technology Frank Y. Li, University of Agder Bo Ji, Temple University Yan Li, China Mobile Communications Research Institute Li Jiahang, Shanghai Jiao Tong University Yitong Li, Zhengzhou University Fan Jiang, Memorial University Yushan Li, Shanghai Jiao Tong University Hai Jiang, University of Alberta Hao Liang, University of Alberta Kai Jiang, Mcmaster University Xiaohui Liang, University of Massachusetts Boston
6 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Zhonghua Liang, Changan Univeristy Hien Quoc Ngo, Queen's University Belfast Bin Lin, Dalian Maritime University Anh-Tu Nguyen, Université Polytechnique Hauts-de- Fen Lin, Nanjing University of Aeronautics and France Astronautics Diep Nguyen, University of Technology Sydney Siyu Lin, Beijing Jiaotong University Ti Ti Nguyen, INRS-EMT Xiaodong Lin, University of Guelph Hieu V. Nguyen, Soongsil University Yun Lin, Harbin Engineering University Jianbing Ni, Queen’s University Nicola Linty, Finnish Geospatial Research Institute Jianbing Ni, University of Waterloo Chen Liu, University of Victoria Yuanzhi Ni, Jiangnan University Chenxi Liu, BUPT Jiangtian Nie, Nanyang Technological University Chunshan Liu, Hangzhou Dianzi University Gosan Noh, Electronics and Telecommunications Dongxiao Liu, University of Waterloo Research Institute Kaiyang Liu, University of Victoria Seungmin Oh, Kongju National University Lei Liu, Xidian University Tomoaki Ohtsuki, Keio University Linfeng Liu, Nanjing University of Posts and Chia-Ho Ou, National Pingtung University Telecommunications Zhonghong Ou, Beijing University of Posts and Ling Liu, Chinese Academy of Sciences Telecommunications Ming Liu, University of Electronic Science and Sangheon Pack, Korea University Technology of China Cunhua Pan, Queen Mary University of London Mingxi Liu, University of Utah Jianping Pan, University of Victoria Peng Liu, Hangzhou Dianzi University Martha Cecilia Paredes Paredes, Escuela Politécnica Xiaofeng Liu, Beihang University Nacional Quito Yuan Liu, University of Alberta Hyunggon Park, Ewha Womans University Beatriz Lopez Boada, University Carlos III de Madrid Hyunhee Park, Myongji University Rongxing Lu, University of New Brunswick Haixia Peng, University of Waterloo Weidang Lu, Zhejiang University of Technology Xuesen Peng, Nanjing University Xiang Lu, Chinese Academy of Sciences Dawei Pi, Nanjing University of Science and Technology Guiyang Luo, BUPT Vahid Pourahmadi, Amirkabir University Junran Luo, SHIEP Shi Pu, University of Texas at Dallas Feng Lyu, Central South University Yinan Qi, Samsung R&D Institute UK Ling Lyu, Dalian Maritime University Bo Qian, Nanjing University Chuan Ma, Nanjing University of Science and Technology Hua Qian, Shanghai Advanced Research Institute Lin Ma, Harbin Institute of Technology Liping Qian, Zhejiang University of Technology Runbo Ma, Shanxi University Zhuzhong Qian, Nanjing University Xiaoqiang Ma, Huazhong University of Science and Meng Qin, Xidian University Technology Zhijin Qin, Queen Mary University of London A.S. Madhukumar, Nanyang Technological University Dongyu Qiu, Concordia University Sudhan Majhi, Indian Institute of Technology Patna Li Qiu, Shenzhen University Shiwen Mao, Auburn University Milena Radenkovic, University of Nottingham Richard Martin, Air Force Institute of Technology (AFIT) Ramneek, Korea University Michail Matthaiou, Queen's University Belfast Ronald Raulefs, German Aerospace Center Gerald Matz, Technical University of Vienna Danda B Rawat, Howard University Constandinos Mavromoustakis, University of Nicosia Abolfazl Razi, Northern Arizona University Mustafa K. Mehmet Ali, Confordia University Bingtao Ren, Beihang University Mehrtash Mehrabi, University of Alberta Shaolei Ren, University of California Riverside Fei Meng, Shanghai Institute of Technology Yuan Ren, Xi’an University of Posts and Florian Meyer, MIT Telecommunications David Michelson, The University of British Columbia Olivier Renaudin, Universitat Autònoma de Barcelona Nikolaos I. Miridakis, University of West Attica Taneli Riihonen, Tampere University Vojislav Misic, Ryerson University Roberto Rojas-Cessa, New Jersey Institute of Technology Keiichi Mizutani, Kyoto University Koosha Pourtahmasi Roshandeh, University of Alberta Klaus Moessner, University of Technology Chemnitz and Sun Ruijin, Pengcheng Laboratory University of Surrey Laura Ruotsalainen, University of Helsinki Mostafa Mohammadkarimi, Univ. of British Columbia Humphrey Rutagemwa, Communications Research Centre Maximo Morales Cespedes, Universidad Carlos III de Madrid Canada Rafael Toledo Moreo, UPCT Fatemeh Rzaei, University of Alberta Saeideh Motlagh, Ryerson University Brian Sadler, Army Research Laboratory Jules M. Moualeu, University of the Witwatersrand Poompat Saengudomlert, Bangkok University Mohamed M. A. Moustafa, Egyptian Russian University Yalin Sagduyu, Intelligent Automation Inc./University of Bingxian Mu, University of New Hampshire Maryland Andrea Munari, Institute of Communications and Sumudu Samarakoon, University of Oulu Navigation DLR Yukitoshi Sanada, Keio University Zahra Naghsh, University of Toronto Yuris Mulya Saputra, University of Technology Sydney Keivan Navaie, Lancaster University Anke Schmeink, RWTH Aachen University Derrick Wing Kwan Ng, University of New South Wales Thomas Schmidt, Hamburg University of Applied Sciences
18 November – 16 December 2020 Final Program 7
Karim Seddik, American University in Cairo Carlos Alberto Vieira Campos, Federal University of the Dimitrios Serpanos, University of Patras State of Rio de Janeiro Reza Shahidi, Memorial University Alexey Vinel, Halmstad University Hamed Shah-Mansouri, University of British Columbia Ming Wan, Liaoning University Hangguan Shan, Zhejiang University Chao Wang, National Taiwan Normal University Chao Shen, SaNoor Technologies Inc. Cheng-Xiang Wang, Southeast University Yan Shen, Huawei Chu-Fu Wang, National Pingtung University Xiufang Shi, Zhejiang University Danyang Wang, Xidian University Yuanming Shi, ShanghaiTech University Dawei Wang, Northwestern Polytechnical University Zhichao Shi, University of Alberta (NWPU) Zhiguo Shi, Zhejiang University Feng Wang, The University of Mississippi Shin-Lin Shieh, National Taipei University Gongpu Wang, Beijing Jiaotong University Hyundong Shin, Kyung Hee University Guanghui Wang, Henan University Yoan Shin, Soongsil University Hao Wang, University of Washington Mahyar Shirvanimoghaddam, University of Sydney Hong Wang, Tsinghua University Feng Shu, Nanjing University of Science and Technology Jie Wang, Dalian Maritime University Zhibin Shuai, China North Vehicle Research Institute Jingrong Wang, University of Toronto Jayamuni Silva, University of Alberta Kunlun Wang, ShanghaiTech University Keshav Singh, University College Dublin Liangliang Wang, SFU Benjamin Sliwa, TU Dortmund University Mea Wang, University of Calgary Paschalis C. Sofotasios, Tampere University of Miao Wang, Miami University Technology/Aristotle University of Thessaloniki Ping Wang, York University Wei Song, University of New Brunswick Shangguang Wang, Beijing University of Posts Yunchao Song, NJUPT Shengzheng Wang, Shanghai Maritime University Sameh Sorour, Queen's University Wenbo Wang, Nanyang Technological University Mujdat Soyturk, Marmara University Wen-Jing Wang, University of Victoria Petros Spachos, University of Guelph Xuyu Wang, California State University Pawel Sroka, Poznan University of Technology Ying Wang, Dalian Maritime University Daniel Stancil, North Carolina State University Yue Wang, University of Alberta Razvan Stanica, INSA Lyon Zhanle Wang, University of Regina Giovanni Stea, University of Pisa Wang Ran, Nanjing University of Aeronautics and Haoru Su, University of Waterloo Astronautics Ruoyu Su, Nanjing University of Post and Chao-Kai Wen, National Sun Yat-Sen University Telecommunications Dingzhu Wen, The University of Hong Kong Bo Sun, Hong Kong University of Science and Technology Mi Wen, Shanghai University of Electric Power Haifeng Sun, SWUST Celimuge Wu, The University of Electro-Communications Hongbo Sun, A*STAR Chenye Wu, UC Berkeley Kai Sun, Inner Mongolia University Jen-Ming Wu, National Tsing Hua University Qian Sun, Chinese Academy of Sciences Kui Wu, University of Victoria Xiaofang Sun, Beijing Jiaotong University Ming-Wei Wu, Zhejiang University of Science and Yaohua Sun, Beijing University of Posts and Technology Telecommunications Qingqing Wu, National University of Singapore Zhi Sun, The State University of New York at Buffalo Qiong Wu, Jiangnan University Sun Lu, Dalian Maritime University Weihua WU, Xidian University Katsuya Suto, The University of Electro-Communications Wen Wu, University of Waterloo Navid Tadayon, Huawei Yik-Chung Wu, The University of Hong Kong Keigo Takeuchi, Toyohashi University of Technology Youlong Wu, ShanghaiTech University Xiaoqi Tan, University of Toronto Yuan Wu, University of Macau Ming Tang, University of British Columbia Dirk Wübben, University of Bremen Pingping Tang, Anhui Normal University Wenchao Xia, Nanjing University of Posts and Xiao Tang, Northwestern Polytechnical University Telecommunications Yujie Tang, University of Waterloo Fu Xiao, Nanjing University of Posts and Murilo Teixeira Silva, Memorial University of Newfoundland Telecommunications Ngatched Telex, Memorial University Zehui Xiong, Nanyang Technological University Janis Tiemann, TU Dortmund University Chi Xu, University of Texas at Dallas Fei Tong, Southeast University Chongbin Xu, Fudan University Jun Tong, University of Wollongong Lei Xu, Nanjing University of Science and Technology Ali Tosun, University of Texas at San Antonio Yang Xu, Hunan University Thinh Tran, INRS-EMT Yunting Xu, NanJing University Ming-Fong Tsai, National United University Wu Xuanli, Harbin Institute of Technology Theodoros Tsiftsis, Jinan University Koji Yamamoto, Kyoto University Fredrik Tufvesson, Lund University Qingyun Yan, Memorial University Mojtaba Vaezi, Villanova University Bo Yang, Shanghai Jiao Tong University Jorge Varela, Imperial College Howard H. Yang, Singapore University of Technology and Emmanouil Vasilomanolakis, Aalborg University Design
8 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Hong-Chuan Yang, University of Victoria Kai Zhang, Shanghai University of Electric Power Janghoon Yang, Korean German Institute of Technology Kuan Zhang, University of Nebraska–Lincoln Kai Yang, Beijing Institute of Technology Ning Zhang, Texas A & M University-Corpus Christi Liang Yang, Hunan University Rui Zhang, Tianjin University of Science and Technology Nan Yang, Australian National University Xin Zhang, NanJing University Peng Yang, Huazhong University of Science and Xiu-Yin Zhang, South China University of Technology Technology Yang Zhang, Xidian University Shiyong Yang, Jiujiang University Yang Zhang, Wuhan University of Technology Ziwen Yang, Shanghai Jiao Tong University Yijin Zhang, Nanjing University of Science and Evsen Yanmaz, University of Klagenfurt Technology Yavuz Yapıcı, North Carolina State University Yongmin Zhang, University of Victoria Serhan Yarkan, Istanbul Ticaret University Yu Zhang, Zhejiang University of Technology Qiang Ye, Dalhousie University Yujian Zhang, Southeast University Qiang Ye, University of Waterloo Zhongbao Zhang, Beijing University of Posts and Qiang Ye, Minnesota State University Telecommunications Phee Lep Yeoh, University of Sydney Zhuo Zhang, Northwestern Polytechnical University Changyan Yi, Nanjing University of Aeronautics and Chengcheng Zhao, Zhejiang University Astronautics Jing Zhao, University of Macau Ye Yu, Beijing Institute of Technology Jiwei Zhao, NanJing University Yongzhi Yu, Harbin Engineering University Nan Zhao, Dalian University of Technology Jinhong Yuan, University of New South Wales Xiaodong Zhao, University of Warwick Quan Yuan, Beijing University of Posts & Yue Zhao, Xidian University Telecommunications Zhongyuan Zhao, Beijing University of Posts and Xiaoming Yuan, Northeastern University Telecommunications Chau Yuen, Singapore University of Technology and Design Zhongyuan Zhao, Rice University Sherali Zeadally, University of Kentucky Jianchao Zheng, PLA University of Science and Deze Zeng, China University of Geosciences Technology Xiangrui Zeng, Worcester Polytechnic Institute Kan Zheng, Beijing University of Posts and Yonghong Zeng, Institute for Infocomm Research Telecommunications Hans-Jürgen Zepernick, Blekinge Institute of Technology Caijun Zhong, Zhejiang University Chao Zhai, Shandong University Bo Zhou, Virginia Tech Jinlong Zhan, Xian University of Posts and Haibo Zhou, Nanjing University Telecommunications Huan Zhou, China Three Gorges University Baoxian Zhang, University of Chinese Academy of Jiafeng Zhou, University of Liverpool Sciences Shaojing Zhou, SHIEP Chuan Zhang, Beijing Institute of Technology Yong Zhou, ShanghaiTech University Dan Zhang, Zhejiang Institute of Technology Yu Zhou, Beihang University Haijun Zhang, University of Science and Technology Zhenyu Zhou, North China Electric Power University Beijing Chunsheng Zhu, The University of British Columbia Heng Zhang, Jiangsu Ocean University Kun Zhu, Nanjing University of Aeronautics and Honggang Zhang, Zhejiang University Astronautics Hui Zhang, Beihang University Xiaoyuan Zhu, SouthEast University Jia Zhang, Shandong Normal University Peng Zhuang, University of Alberta Jiayi Zhang, NIST Liao Zhuofan, Changsha University of Technology Jiayi Zhang, Beijing Jiaotong University Nikola Zlatanov, Monash University John Zhang, Concordia University Jun Zou, Nanjing University of Science and Technology
Reviewers
Sergi Abadal Ahmed Abdullah Chethan Kumar Paolo Baracca Jiaxin Cao Mingzhe Chen Nan Cheng Luis F. Abanto- Ali Al-Habob Anjinappa Jose Maria Barcelo- Xiaofeng Cao Nan Chen Nan Cheng Leon Amjad Ali Rafay Iqbal Ansari Ordinas Xiaowen Cao Peiyao Chen Qi Cheng Qamar Abbas Asif Ali Atakan Aral Vedaprabhu Yue Cao Shan Chen Qianqian Cheng Taimoor Abbas Fawad Ali Maryam Haghighi Basavarajappa F K Carl Chung Shue Chen Kaikai Chi Qammer Abbasi Nazakat Ali Ardakani Alireza Bayesteh Giuseppe Caso Siyuan Chen Alvin Chin Sherin Abdelhamid Mustafa Aljumaily Maximilian James Khagendra Belbase Mario H. Castañeda Siyuan Chen Alvin Chin Sylvester Boadi Abdulellah Almalki Arpaio Daniel Benevides da Garcia Tao Chen Kai-Wei Chinag Aboagye Abdullateef Şuayb Arslan Costa Ricardo de Castro Tianjiao Chen Eddy Chiu Abbas Almohamad Saman Atapattu Yuming Bi Xiaomeng Chai Xianfu Chen Bong Jun Choi Abolfathimomtaz Ibrahim Al-Nahhal Sherif B. Azmy Kaigui Bian Sammy Chan Xianqiang Chen Junsung Choi Ahmed Aboutaleb Mohamed Al- Kareem Emile Muhammad Bilal Le Chang Xiaoming Chen Wan Choi Koichi Adachi Nahhal Baddour Beatriz Lopez Raghu Changalvala Xinwei Chen Peter Han Joo Mari Carmen Akram Alomainy Hosung Baek Boada Shailesh Chaudhari Yan Chen Chong Aguayo-Torres Hussein Al-Omaisi Alexios Zied Bouida Abdellah Chehri Yen-Ming Chen Biplav Choudhury Farhan Ahmed Ahmed Al- Balatsoukas- Sandrine Boumard Cailian Chen Yi Chen Arindam Alaa Alameer Tahmeesschi Stimming Van-Phuc Bui Chiao-En Chen Ying Chen Chowdhury Irfan Al-Anbagi Onur Altintas Hadi Baligh Eyuphan Bulut Hanxiao Chen Yuzhe Chen Zheng Chu Waleed Alasmary Gayan Amarasuriya Masaki Bandai Paolo Burgio Hongbin Chen Zaiyu Chen Young Jin Chun Laha Ale Qiaochu An Bitan Banerjee Jun Cai Jianchao Chen Chen Chung Shue Domenico Ciuonzo Christos Alexakos Xuming An Haizhou Bao Lin Cai Jiayin Chen Bin Cheng Carlo Condo Mohannad Alharthi Bhaskar Anand Tingnan Bao Haotong Cao Jinhui Chen Julian Cheng Marius-iulian Corici
18 November – 16 December 2020 Final Program 9
Wen Cui Zijun Gong Muhammad Awais Marko E. Leinonen Yuan Liu Gaurang Naik Bo Rong Jianmei Dai Ali Gorcin Javed Ka-Cheong Leung Zhi Liu Kameswara Rao Maik Röper Mingjun Dai Forough Goudarzi Javed Matan Levi Miguel López- Namuduri Koosha Pourtahmasi Yanpeng Dai David Grace Dhammika Jayalath Jan Lewandowsky Benítez Ali Nasehzadeh Roshandeh Yueyue Dai Fabrizio Granelli Gwanggil Jeon Baozhu Li Chong Lou Alain Richard Ali Rostami Carmen D'Andrea Xin Gu Cenchen Ji Bin Li Weidang Lu Ndjiongue François Rottenberg Shuping Dang Lianwu Guan YuanQi Jia Bo Li Xiao Lu Ye Neng Arnau Rovira Syed Danish Peiyuan Guan Li Jiahang Cheng Li Xiao Lu Derrick Wing Kwan Laura Ruotsalainen Anweshan Das Linqing Gui Fan Jiang Chunxi Li Xiaolin Lu Ng Humphrey Luca De Nardis Maxime Guillaud Fan Jiang Ding Li Yunlong Lu Hien Quoc Ngo Rutagemwa Carl Debono Sardar M. Gulfam Hai Jiang Gang Li Zhuo Lu Anh-Tu Nguyen Poompat José A. del Peral- Kun Guo Li Jiang Hao Li Eric Luk Ha H. Nguyen Saengudomlert Rosado Qinghua Guo Ming Jiang Haodong Li Mohammad M. R. Minh Dat Nguyen Yalin Sagduyu Johannes Demel Zhiheng Guo Ruining Jiang Heng Li Lunar Phuong-D Nguyen Hemant Saggar Ruilong Deng Murat Gürsu Wenbo Jiang Jialun Li Guiyang Luo Ti Ti Nguyen Ikjot Saini Xianjun Deng Afshin Haghighat Wuyang Jiang Jie Li Guiyang Luo Minh Tri Nguyen Sharief Saleh Can Ding Chong Han Yi Jiang Jinglin Li Junran Luo Hieu V. Nguyen Lutfi Samara Huiyi Ding Dairu Han Yuxuan Jiang Jinguo Li Thien Van Luong Jianbing Ni Yukitoshi Sanada Jiefei Ding Dairu Han Zhang Jianhua Junling Li Feng Lyu Wanli Ni Yuris Mulya Mengying Ding Shujun Han Jian Jiao Mingyan Li Kangjia Lyu Yuanzhi Ni Saputra Qimin Ding Shuo Han Qing Jiao Mingyan Li Ling Lyu Zanobya Nisar Vanlin Sathya Xuda Ding Sol Han Shiyu Jiao Mushu Li Chuan Ma Lewis Nkenyereye Giovanni Savino Muhammad Diyan Wei Han Yutao Jiao Qiang Li Lin Ma Lionel Nkenyereye Alessandro Octavia A. Dobre Xu Han Huangping Jin Qihao Li Manyou Ma Gosan Noh Scamarcio Anming Dong Yitao Han Zewei Jing Rongpeng Li Runbo Ma Boubakr Nour Richard Scherping Pengpeng Dong You Han Jinho Shanzhi Li Ting Ma Aboelmagd Florian Alexander Fabio Dovis Muhammad Hanif Sun Jiyuan Shichao Li Xiaoqiang Ma Noureldin Schiegg Jianbo Du Samer Hanna Anders Johansson Shuangzhi Li Xin Ma Alberto Alcocer Anke Schmeink Xu Du Zhu Hanyu Satya Joshi Songyuan Li Yao Ma Ochoa Martin Jianli Duan Jie Hao Bang Chul Jung Wenjie Li Yunsi Ma Seungmin Oh Schmidhammer Waleed Ejaz Meng Hao Peter Jung Xian Li Zhe Ma Tomoaki Ohtsuki Adrian Schumacher Ahmed Elbery Wanming Hao Igor Kadota Xiaofeng Li A.S. Madhukumar Kyle O'Keefe Michael Schweins Haidy Elghamrawy Wu Hao Ahan Kak Xiaohui Li Md. Mahmudul Phillip Oni Karim Seddik Basem M. Shinsuke Hara Rafael Kaliski Xiaolong Li Islam Fumie Ono Dimitrios serpanos ElHalawany Alaa Hasan Eirini Kalogeiton Xiaoshuai Li Trang C. Mai Chia-Ho Ou Sayed Chhattan Mostafa Elhoushi Shahriar Hasan Jiawen Kang Xijia Li Satoshi Makido Sangheon Pack Shah Salah Elhoushy Mazen O. Hasna Shaza Kaoud Xin Li G Manikandan Cunhua Pan Reza Shahidi Ahmed El-Mowafy Ghaith Hattab Malek Karaim Xiuhua Li Athanassios Jianping Pan Hamed Shah- Ahmed El-Rabbany Elif Haytaoğlu Zaher Kassas Xueru Li Manikas Jing Pan Mansouri Khaled Elsayed Hongliang He Mohamamd Hadi Frank Y. Li Valérian Mannoni Jing Pan Hmaied Shaiek Mahmoud Elsharief Jianping He Kefayati Yitong Li Dandan Mao Mengguan Pan Mohd Hamza Naim Mohamed Elsheikh Jiasheng He Arash Yue Li Shiwen Mao Jiyong Pang Shaikh Amr El-Wakeel Qinwei He Khalatbarisoltani Yunfei Li Ian Marsland Ehsan Moradi Pari Hangguan Shan Julia Maria Ruisi He Hamza Khan Yushan Li Richard Martin Hyunggon Park Shree K. Sharma Engelbrecht Xuanxuan He Mohammad Irfan Zhendong Li Eduardo Martos Hyunhee Park Priyank Sharma Jose Eugenio Yixin He Khan Zongze LI Daniel Massicotte Peiyuan Teena Sharma Naranjo Ali Reza Heidarpour Irshad Khan Ben Liang Marja Matinmikko- Haixia Peng Lingfeng Shen Suzi Iryanti Fadilah Arvin Hekmati Murad Khan Bizheng Liang Blue Jinlin Peng Shuaiqi Shen Bo Fan Peter Hellinckx Muhammad Hassan Hao Liang Byron P. Maza Xuesen Peng Fengfeng Shi Chaoqiong Fan Teruo Higashino Raza Khan Hongbin Liang Alisson Medeiros Yan Peng Hongzhe Shi Rongfei Fan Chunhua Hong Muhammad Toaha Jiaxin Liang Mustafa K. Mehmet Dawei Pi Qian Shi Yajun Fan Seyyedali Raza Khan Zhonghua Liang Ali Antonios Weisen Shi Zhehao Fan Hosseinalipour Shailesh Khanolkar Xuewen Liao Faisal Mehmood Pitarokoilis Wenlong Shi Xiaojie Fang Kang Hou Hasan Ali Khattak Bin Lin Mehrad Mehrabi Fabian de Ponte Xiufang Shi Abraham O. Andrej Hrovat Shahin Khobahi Fen Lin Mehrtash Mehrabi Müller Yuanming Shi Fapojuwo Baojun Hu Erfan Khorram Hao Lin Jie Mei Prakasam P Zhiguo Shi Haleem Farman Dou Hu Majid Khoshafa Jie Lin Florian Meyer Monika Prakash Shin-Lin Shieh Zesong Fei Jinling Hu Do-Yup Kim Phone Lin Zhongyu Miao Sabyasachi Oh-Soon Shin Zixuan Fei Xu Hu Haesik Kim Shaoe Lin Emmanouel T. Pramanik Yoan Shin Chen Feng Xuke Hu Hyoil Kim Siyu Lin Michailidis Gautham Prasad Mahyar Chunhui Feng Yuying Hu Il-Min Kim Xiaodong Lin Jonas Mirwald Bo Qian Shirvanimoghaddam Guangsheng Feng Yuxiu Hua Joongheon Kim Xu Lin Ali Mirzaei Bo Qian Saeed Shojaee Guangsheng Feng Chen Huang Joonwoo Kim Yun Lin Jelena Misic Liping Qian Moataz Shoukry Li Feng Cheng Huang Junghyun Kim Cen Ling Vojislav Misic Meng Qin Shreyas Shrinivasa Mingjie Feng Guoxing Huang Shiho Kim Nicola Linty Nathalie Mitton Peiyuan Qin Feng Shu Youhong Feng He Huang Taehong Kim Binghong Liu Keiichi Mizutani Yunhui Qin Yayun Si Yunyun Feng Hui Huang Taeyoon Kim Chen Liu Ran Mo Dongyu Qiu Jayamuni Silva Yuqing Feng Jingxuan Huang Yun-Hee Kim Chenxi Liu Klaus Moessner Min Qiu Bhagya Nathali M. Julia Fernández- Liang Huang Martti Kirkko- Chun-Lin Liu Abdullah Qiyuan Silva Getino García Rui Huang Jaakkola Chunpeng Liu Mohiuddin Muhammed Tahsin Murilo Teixeira Alejandra Ferreira Shuaiting Huang Haneul Ko Chunshan Liu Mommhad Rahman Silva Uwe-Carsten Fiebig Weimin Huang Stanislav Kruglik Dongxiao Liu Seokjae Moon Tamer Rakia Kamal Singh Stanislav Filin Xiaojing Huang Karolina Fangzheng Liu Maximo Morales Ramneek Karandeep Singh Michael Fleps Xinquan Huang Krzykowska Hongwu Liu Cespedes Ahmed Raoof Keshav Singh Francesco Yu-Chih Huang A.Senthil Kumar Hsuan-Po Liu Rafael Toledo Ibrahim Rashdan Thushan Sivalingam Formaggio Zhiming Huang Abhishek Kumar Jianguo Liu Moreo Marwan A. Rashed Amirhosein Vasilis Friderikos Sean Huberman Yang Kuo Kaiyang Liu Hamed Mosavat- Ronald Raulefs Soleimanzade Min Fu Yilong Hui Gunes Kurt Lei Liu Jahromi Patchava Raviteja Nourhan Soliman Shu Fu Yiming Huo Jungmin Kwon Lei Liu Ahmed Elhamy Danda B Rawat Christoph Sommer Xiaoyuan Fu Christoph Ide Yeun-Woong Leyuan Liu Mostafa Muaz Razaq Kay Sommerwerk Takeo Fujii Giovanni Kyung Lina Liu Saeideh Motlagh Abolfazl Razi Fuyuan Song Takeo Fujii Interdonato Mihir Laghate Linfeng Liu Jules M. Moualeu Habib Ur Rehman Meiyan Song Manato Fujimoto Koji Ishibashi Aris Lalos Ling Liu Pedro Moura Cheng Ren Mengan Song Jie Gao Hiroyasu Ishikawa Lutz Lampe Mengjie Liu Adel Moussa Chenshan Ren Wei Song Meilin Gao Masahiro Iwasaki Qiao Lan Ming Liu Mohamed Moussa Hao Ren Yuhui Song Ruifeng Gao Hiroki Iwata Jim Lansford Peng Liu Malik Muhammad Jinke Ren Yunchao Song Yue Gao Ajayan J Buon Kiong Lau Qiong Liu Saad Xiang Ren Pawel Sroka Zihan Gao Ali Jalooli Gilsoo Lee Teng Liu Hafiz Suliman Yuan Ren Razvan Stanica Congle Ge Vahid Jamali Hochan Lee Tong Liu Munawar Tobias Renzler Ruoyu Su Mohammad Furqan Jameel Howon Lee Weirong Liu Tewodros Legesse Fatemeh Rezaei Bo Sun Ghasemiahmadi Saeed Jamshidiha Huang-Chang Lee Xiaolan Liu Munea Bjoern Riemer Kai Sun Pouya Ghofrani Seokwon Jang Jaewook Lee Xiaoyuan Liu Filippo Muzzini Vanlin Robinson Sun Lu Andrea Giorgetti Han Seung Jang Kyuchang Lee Yalin Liu Zhenyu Na Roberto Rojas- Siyuan Sun Weihan Goh Mohammad Kyungchun Lee Yiliang Liu Faisal Nadeem Cessa Xiaofang Sun Wei Gong Javadkalbasi Janne Lehtomäki Yuan Liu Muhammad Naeem Michele Rondinone Yan Sun
10 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Yanglong Sun Eirini-Eleni Xuyu Wang Dirk Wübben Kunpeng Yang Daosen Zhai Yusi Zhang Yaohua Sun Tsiropoulou Yi Wang Dimitris Xenakis Kunpeng Yang Zhonghao Zhai Yuxiang Zhang Yi-Ming Sun (Amy) Fredrik Tufvesson Yue Wang Siyang Xia Ming Yang Jinlong Zhan Bin Zhao Yuliang Sun Naveed Ul Hassan Yuhao Wang Wenchao Xia Nan Yang Baoxian Zhang Bo Zhao G Suresh Kenta Umebayashi Yuntao Wang Ping Xiang Ning Yang Chuan Zhang Bo Zhao Katsuya Suto Shahrokh Valaee Zhanle Wang Ping Xiang Peng Yang Chunyan Zhang Chengcheng Zhao Hajime Suzuki Jorge Varela Zhaorui Wang Zhengzheng Xiang Seung Yang Deyou Zhang Jing Zhao Santhosh Kumar Svn Johanna Vartiainen Zhen Wang Fu Xiao Shiyong Yang Deyu Zhang Jiwei Zhao Navid Tadayon Emmanouil Zhenduo Wang Xiaohan Tingting Yang Di Zhang Junwei Zhao Hamed Tadayyoni Vasilomanolakis Zhibin Wang Ximing Xie Yang Yang Haijun Zhang Kanglian Zhao Abd-Elhamid Taha Carlos Alberto Ziran Wang Zhenming Xie Zhong Yang Haohan Zhang Nan Zhao Keigo Takeuchi Vieira Campos Xiaojuan Wei Qi Xiong Ziwen Yang Heng Zhang Xiaoshuai Zhao Mohamed Tamazin Andra Voicu Yuejun Wei Zehui Xiong Zheng Yao Hongwei Zhang Yue Zhao Bin Tan Michael Walter Ziling Wei Bo Xu Abdullah Yaqot Hui Zhang Zhongyuan Zhao Zhenyu Tan Ming Wan Chaozhun Wen Chen Xu Abdullah Yaqot Hui Zhang Cao Zhenbo Jie Tang Ying Wan Dingzhu Wen Chongbin Xu Liang Ye Jia Zhang Guotian Zheng Lan Tang Baofang Wang Mi Wen Dongfang Xu Qiang Ye Jian Zhang Jianchao Zheng Ming Tang Chao Wang Mi Wen Fanqi Xu Xuehan Ye Jiayi Zhang Kan Zheng Pingping Tang Chu-Fu Wang Wanli Wen Guowen Xu Phee Lep Yeoh Jiayin Zhang Mengfan Zheng Xiao Tang Fangxin Wang Christopher Haochen Xu Changyan Yi John Zhang Qiming Zheng Yao Tang Fengchen Wang Willuweit Jie Xu Wenqiang Yi Kai Zhang Qiming Zheng Zhixuan Tang Guanghui Wang SeungHwan Won Lei Xu Bin Ying Kecheng Zhang Ren jia zhi Tetsuki Taniguchi Hao Wang Vincent W.S. Wong Qimin Xu Fangwen Yu Kuan Zhang Li Zhidu Attaphongse Hezhe Wang Kampol Woradit Woping Xu Jiadong Yu Kuan Zhang Xukai Zhong Taparugssanagorn Jingrong Wang Chenye Wu Wu Xuanli Jiadong Yu Lei Zhang Zhimeng Zhong Muhammad Ashar Jun Wang Guilu Wu Weixing Xue Kai Yu Nannan Zhang Ao Zhou Tariq Kunlun Wang Hanlin Wu Animesh Yadav Lisu Yu Ning Zhang Baofeng Zhou Ngatched Telex Li Wang Hongda Wu Ramnaresh Yadav Ningning Yu Peng Zhang Bo Zhou Danyang Tian Mea Wang Huaming Wu Deng Yafeng Quan Yu Rui Zhang Conghao Zhou Wenqiang Tian Miao Wang Huaqing Wu Koji Yamamoto Victor Yu Weiting Zhang Fasheng Zhou Behrad Toghi Ning Wang Huihui Wu Han Yan Xiaopu Yu Weiting Zhang Haibo Zhou Sezer Tokgoz Ningning Wang Jen-Ming Wu Longfei Yan Yaojia Yu Wen Zhang Huan Zhou Antti Tölli Peng Wang Keting Wu Longfei Yan Yingjie Yu Wenhan Zhang Jiafeng Zhou Fei Tong Ping Wang Ming-Wei Wu Qingyun Yan Quan Yuan Xiaoqing Zhang Shaojing Zhou Jun Tong Qiwei Wang Shaohua Wu Qingyun Yan Xiaoming Yuan Xinran Zhang Yi Zhou Jorge Torres Wang Ran Weicong Wu Shihao Yan Rui Yue Xiu-Yin Zhang Yong Zhou Luis Torres Shangguang Wang Weihua Wu Yan Yan Chau Yuen Xuewei Zhang Yuan Zhou Figueroa Shaobo Wang Wen Wu Anjia Yang Deze Zeng Yajing Zhang Chunsheng Zhu Ali Tosun Sihua Wang Xuelu Wu Chao Yang Ming Zeng Yang Zhang Hongbin Zhu Antonio Tota Taotao Wang Yiqun Wu Cheng Yang Qinghai Zeng Yao Zhang Zhengyu Zhu Duc Dung Tran Wei Wang Yongzhi Wu Howard H. Yang Qunsong Zeng Yongmin Zhang Peng Zhuang Thinh Tran Wen-Jing Wang Youlong Wu Hong-Chuan Yang Tengchan Zeng Yu Zhang Nikola Zlatanov Ang-Hsun Tsai Xiaolin Wang Yuan Wu Janghoon Yang Yonghong Zeng Yu Zhang Jun Zou Ming-Fong Tsai Xinyi Wang Yuan Wu Jingya Yang Engin Zeydan Yujian Zhang Jiakuo Zuo
Tutorials
A range of tutorials will be held given by experts from industry and academia.
T1: Wireless 2.0: Wireless Networks Empowered with the French National Center for Scientific Research (CNRS), by Reconfigurable Intelligent Surfaces where he is a CNRS Research Director (CNRS Professor) in them Laboratory of Signals and Systems (L2S) of Paris-Saclay University – Marco Di Renzo, Paris-Saclay University (CNRS & CNRS, CentraleSupelec, Univ Paris Sud, Paris, France. He serves as CentraleSupelec), France the Editor-in-Chief of IEEE Communications Letters, and as an Editor
Wireless networks are rapidly evolving towards a software-defined of IEEE Transactions on Communications, and IEEE Transactions on design paradigm, where every part of the network can be configured Wireless Communications. He is a Distinguished Lecturer of the IEEE and controlled via software. In this optimization process, however, the Vehicular Technology Society and IEEE Communications Society. He wireless environment itself – the medium or channel – is generally is a recipient of several awards, including the 2013 IEEE-COMSOC assumed uncontrollable and often an impediment to be reckoned with. Best Young Researcher Award for Europe, Middle East and Africa, the For example, signal attenuation limits the network connectivity, multi- 2013 NoE-NEWCOM# Best Paper Award, the 2014-2015 Royal path propagation results in fading phenomena, reflections and Academy of Engineering Distinguished Visiting Fellowship, the 2015 refractions from objects are a source of uncontrollable interference. IEEE Jack Neubauer Memorial Best System Paper Award, the Recently, a new concept called reconfigurable intelligent surfaces 20152018 CNRS Award for Excellence in Research and Ph.D. (RISs) has emerged wherein every environmental object is coated with Supervision, the 2016 MSCA Global Fellowship (declined), the 2017 man-made intelligent surfaces of configurable electromagnetic SEE-IEEE Alain Glavieux Award, the 2018 IEEECOMSOC Young materials. These materials would contain integrated electronic circuits Professional in Academia Award, and 8 Best Paper Awards at IEEE and software that enable control of the wireless medium. Thus, RISs conferences (2012 and 2014 IEEE CAMAD, 2013 IEEE VTC-Fall, enable telecommunication operators to sculpt the very medium that 2014 IEEE ATC, 2015 IEEE ComManTel, 2017 IEEE SigTelCom, EAI comprises the network. With the aid of RISs, wireless networks will 2018 INISCOM, IEEE ICC 2019). He is a highly cited researcher not be designed anymore to adapt themselves to the environment, but according to Clarivate Analytics and Web of Science, and a Fellow of the environment will become part of the optimization space. As such, the IEEE.
RISs have the potential to fundamentally change how wireless T2: Wireless Transmission for Advanced networks are designed and usher in that hoped-for wireless future. But, RISs are not currently well-understood. Internet of Things: A Unifying Data-Oriented This tutorial will cover the emerging wireless vision, the enabling Approach technologies, the most recent theoretical and experimental advances, Hong-chuan Yang, University of Victoria, Canada; Mohamed- and the most promising applications envisioned for RISs in wireless Slim Alouini, King Abdullah University of Science and networks. Technology (KAUST), Saudia Arabia
Marco Di Renzo was born in L’Aquila, Italy, in 1978. He received the Wireless communication systems will play an essential role in data Laurea (cum laude) and Ph.D. degrees in electrical engineering from transmission for future Internet of Things (IoT). The design and the University of L’Aquila, Italy, in 2003 and 2007, respectively, and optimization of wireless transmission strategies for diverse IoT the Habilitation a Diriger des Recherches (Doctor of Science) degree applications that generate data of variable sizes and dramatically from University Paris-Sud, France, in 2013. Since 2010, he has been different quality of service requirements are of critical contemporary
18 November – 16 December 2020 Final Program 11
interest. In this proposed tutorial, we present a unique data-oriented Yu-Jia Chen received the B.S. degree and Ph.D. degree in electrical approach for wireless transmission system design, specifically engineering from National Chiao Tung University, Taiwan, in 2010 targeting vertical IoT applications that demand ultra-reliable low- and 2015, respectively. From 2015 to 2018, he was a postdoctoral latency and extremely high energy efficiency. We introduce novel research fellow with National Chiao Tung University, Taiwan, and he data-oriented metrics to characterize theoretical performance limits for was a postdoctoral research fellow with Harvard University from 2018 various transmission scenarios. These performance metrics are also to 2019. In 2019, he joined National Central University, Taiwan, applied to the analysis and design of practical transmission where he is currently an assistant professor at the department of schemes.The data-oriented approach offers important new insights and communication engineering. His research interests include low-latency leads to interesting new research directions. Through this tutorial, the communications, wireless sensing, and network security. Dr. Chen has attendees can obtain a brand new perspective to the analysis and published more than 30 articles in peer-reviewed journal and optimization of wireless transmission technologies for advanced IoT conference papers. He is holding three US patents and three ROC applications. patents. Dr. Chen has been serving as Technical Organizing Committee and Dr. Hong-Chuan Yang (Senior Member IEEE) received the Ph.D. Symposium Cochair for many international conferences and symposia, degree in electrical engineering from the University of Minnesota in including Globecom, VTC, and PIMRC. He is also co-founder of the 2003. He is a professor of the Department of Electrical and Computer IEEE workshop SPSCS, focusing on security and privacy in smart and Engineering at the University of Victoria, Canada. From 1995 to 1998, connected systems. Prof. Chen has experience with tutorials at He was a Research Associate at the Science and Technology academic conferences such as Globecom. Information Center (STIC) of the Ministry of Posts & Telecomm. Ai-Chun Pang received the B.S., M.S. and Ph.D. degrees in (MPT), Beijing, China. His current work mainly focuses on different Computer Science and Information Engineering from National Chiao aspects of wireless communications, with special emphasis on channel Tung University, Taiwan, in 1996, 1998 and 2002, respectively. She modeling, diversity techniques, system performance evaluation, cross- joined the Department of Computer Science and Information layer design, and energy efficient communications. He has published Engineering, National Taiwan University (NTU), Taiwan, in 2002, and over 200 journal and conference papers. He is the author of the book is now a Professor and Associate Dean of the College of Electrical Introduction to Digital Wireless Communications by IET press and the Engineering and Computer Science, NTU. She was the director of co-author of the book Advanced Wireless Transmission Technologies Graduate Institute of Networking and Multimedia, NTU, in 2013-2016. by Cambridge University Press. Her research interests include wireless and mobile communications, Dr. Mohamed-Slim Alouini (Fellow IEEE) received the Ph.D. degree software defined networking, and fog/edge computing for low-latency in electrical engineering from the California Institute of Technology AI and IoT services. (Caltech) in 1998. He also received the Habilitation degree from the Dr. Pang was the leading guest editor of IEEE Transactions on Universite Pierre et Marie Curie in 2003. Dr. Alouini started his Vehicular Technology (TVT) special issue on “Fog/Edge Computing academic career at the University of Minnesota in 1998. In 2005, he for Autonomous and Connected Cars”, and the guest editor of IEEE joined Texas A&M University at Qatar, Doha, and in 2009, he was Wireless Communications special issue on “Voice over WLAN”. She is appointed as Professor of Electrical Engineering at KAUST, Thuwal, currently the editor of IEEE Transactions on Mobile Computing, IEEE Mekkah Province, Saudi Arabia, where he is responsible for research TVT, IEEE Transactions on Green Communications and Networking, and teaching in the areas of Communication Theory and Applied and ACM Transactions on Cyber-Physical Systems. She has served on Probability. More specifically, his research interests include design the technical program committee of prestigious conferences, including and performance analysis of diversity combining techniques, MIMO IEEE INFOCOM, IEEE GLOBECOM, IEEE ICC, and IEEE VTC. She techniques, multi-hop/cooperative communications systems, cognitive is also a co-author of the book “Wireless and Mobile All-IP Networks” radio systems, and multiresolution, hierarchical and adaptive published by John Wiley, and is an IEEE VTS Distinguished Lecturer. modulation schemes. Dr. Alouini has published several papers on the Te-Chuan Chiu received his B.S. degree in Computer Science from above subjects, and he is co-author of the textbook Digital National Tsing Hua University, Taiwan, in 2010, M.S. and Ph.D. Communication over Fading Channels published by Wiley degrees in Computer Science and Information Engineering from Interscience. He is a Fellow of the IEEE, a member of the Thomson ISI National Taiwan University, Taiwan, in 2012, and 2018, respectively. Web of Knowledge list of Highly Cited Researchers, and a co-recipient He was a research scholar of the school of electrical, computer and of best paper awards in eight IEEE conferences (including ICC, energy engineering from Arizona State University, USA, in 2016-2017. GLOBECOM, VTC, and PIMRC). He is currently a postdoctoral research fellow at the Research Center T3: Towards AI-enabled Air-ground Integrated for Information Technology Innovation, Academia Sinica. His research Wireless Edge Networks interests include 5G communications, fog/edge computing, and energy harvesting technology. Dr. Chiu was awarded the 2018 Member of the Yu-Jia Chen, Ai-Chun Pang, National Taiwan University, Phi Tau Phi Scholastic Honor Society of the Republic of China. Taiwan; Te-Chuan Chiu, Research Center for Information Technology Innovation, Academia Sinica, Taiwan T4: Low Resolution Signal Processing in
In this tutorial, we discuss how intelligent unmanned aerial vehicles Communications Using a Machine-Learning (UAVs) play a key role in the next generation mobile wireless system Framework with air-ground integrated networks. We first give an update of the 5G Jan Lewandowsky, Maximilian Stark, Hamburg University of NR in 3GPP, including the ultrareliable low latency communication Technology, Germany
(URLLC) and the enhancement for supporting aerial UE. Then, we The design of quantized algorithms for communication systems introduce some basic network architectures, such as multi-access edge using mutual information as a design criterion has recently attracted computing (MEC), software-defined networking (SDN), as defined by considerable interest in the communications community. The 3GPP or ETSI, and present the emerging air-ground integrated wireless fundamental idea is building quantized signal processing chains that networks. Specifically, we use an example to illustrate the low-latency aim to preserve the maximum possible relevant information in all scenario required by future AIoT (AI and IoT) applications such as involved signal processing algorithms, while using as few bits as industry automation and autonomous driving, and present a testbed possible for the signal representation and processing. This idea is which has been deployed in a real environment and developed with the different to conventional design approaches for quantized systems, stateof- the-art technologies. Afterward, we introduce network calculus which typically focus on minimizing a distortion measure for a given based analytical technique for achieving per-flow-based latency precision, for example, the mean squared error. A framework from guarantee in the air-ground integrated wireless networks. Also, we machine-learning termed the Information Bottleneck method can be highlight the utilization of the on-device distributed machine learning applied as a very powerful tool to design quantized signal processing tools for making low-latency decisions at network edge, followed by algorithms with a focus on the preservation of relevant information. three case studies using (i) reinforcement learning-based UAV-assisted While this method is well known in the machine learning community, mobile edge caching, (ii) multi-agent distributed/federated learning it is still rather unknown in the communications community. However, technique for UAV tracking, and (iii) deep learning techniques for recent works describe very successful applications of the Information UAV sensing. Finally, the tutorial concludes with potential research Bottleneck method in quantizer design, the design of low-density issues in this new field, such as security, privacy, vertical integration, parity-check decoders for binary and nonbinary codes, the construction business and economics for smart and connected aerial/ground of polar decoders and detection schemes, as well as in massive MIMO vehicles. systems. Most importantly, the Information Bottleneck approach
12 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
allows obtaining coarsely quantized signal processing algorithms with Fabrizio Granelli is Associate Professor at the Dept. of Information very simple signal processing operations, but close-to-optimum Engineering and Computer Science (DISI) of the University of Trento performance. This tutorial covers the information theoretical ideas (Italy). From 2012 to 2014, he was Italian Master School Coordinator behind the Information Bottleneck method and explains how its in the framework of the European Institute of Innovation and information theoretical concept can be applied to build quantized signal Technology ICT Labs Consortium. He was Delegate for Education at processing algorithms for the aforementioned applications in detail. DISI in 2015-2016 and he is currently member of the Executive Moreover, it provides very intuitive and easy-to-understand examples Committee of the Trentino Wireless and Optical Testbed Lab. He was that illustrate and visualize the presented information theoretical ideas IEEE ComSoc Distinguished Lecturer for 2012-15, IEEE ComSoc in practice, to enable an easy understanding. Director for Online Content in 2016-17 and IEEE ComSoc Director for Educational Services for 2018-19. He is the coordinator of the Jan Lewandowsky is a scientific researcher with the software defined research and didactical activities on computer networks within the radio group of the Fraunhofer Institute for Communication, degree in Telecommunications Engineering as leader of the Next Information Processing and Ergonomics (FKIE) in Wachtberg, Generation Networks Research Group. He is author or co-author of Germany. He is also a Ph. D. candidate with the Institute of more than 250 papers published in international journals, books and Communications at the Hamburg University of Technology (TUHH) in conferences in networking, with particular reference to performance Hamburg, Germany. He has submitted his Ph.D. dissertation on signal modeling, cross-layering, wireless networks, cognitive radios and processing approaches for communications based on the Information networks, green networking and smart grid communications. Bottleneck method to the dissertation committee of the TUHH in Frank H. P. Fitzek is a Professor and chair of the communication December 2019 and aims to graduate in 2020. From 2006 until 2018 networks group at Technische Universität Dresden coordinating the he was an active officer with the German Air Force with a focus on 5G Lab Germany. He received his diploma (Dipl.-Ing.) degree in radio communications and radar data processing. Jan Lewandowsky electrical engineering from the University of Technology – Rheinisch- has received the B.Sc. degree and the M.Sc. degree (with distinction) in Westfälische Technische Hochschule (RWTH) – Aachen, Germany, in electrical engineering from the University of the Federal Armed Forces 1997 and his Ph.D. (Dr.- Ing.) in Electrical Engineering from the Munich in Neubiberg, Germany in 2010 and 2011, respectively. He Technical University Berlin, Germany in 2002 and became Adjunct received the first price award for his master thesis on robust Professor at the University of Ferrara, Italy in the same year. In 2003 communication in fast fading environments from the German chapter he joined Aalborg University as Associate Professor and later became of Armed Forces Communications and Electronics Association in Professor. He co-founded several start-up companies starting with 2012. His research interests are mainly channel coding and acticom GmbH in Berlin in 1999. In 2005 he won the YRP award for modulation, as well as practical applications of information theory in the work on MIMO MDC and received the Young Elite Researcher communication systems. Jan Lewandowsky lives in the Mid-Rhine Award of Denmark. He was selected to receive the NOKIA Champion region in Germany. Award several times in a row from 2007 to 2011. In 2008 he was Maximilian Stark is a scientific researcher with the Institute of awarded the Nokia Achievement Award for his work on cooperative Communications at the Hamburg University of Technology (TUHH) in networks. In 2011 he received the SAPERE AUDE research grant from Hamburg, Germany. After having received the B.Sc. degree and the the Danish government and in 2012 he received the Vodafone M.Sc. degree (with distinction) in electrical engineering from the Innovation price. His current research interests are in the areas of TUHH in 2014 and 2017, respectively, he started to work on his Ph.D. wireless and mobile 5G communication networks, mobile phone on machine learning and signal processing with the Information programming, network coding, cross layer as well as energy efficient Bottleneck method and related information theoretical concepts. In protocol design and cooperative networking.. 2019, he joined the machine-learning group at the Nokia Bell Labs in Paris as a visiting researcher focusing on deep learning for T6: Millimeter-wave Beam Management for 5G- communications. In the scope of his Ph.D. thesis, he also works in NR and Beyond research cooperations with the Japan Advanced Institute of Science Danijela Cabric, Han Yan, UCLA, USA and Technology (JAIST), University of California (UCLA) and other cooperation partners. He has won the Karl H. Ditze award for his Millimeter wave (mmWave) communications with massive antenna Master thesis in 2018. Channel coding and modulation also dominate array is key technique for the future cellular systems. While large his current research interests. Matters of particular interest in this arrays enable high gain, directionality and user multiplexing, practical context are machine-learning approaches for constellation design, realizations face challenges in radio hardware design and cross layer detection and channel decoding as well as compressed sensing and processing. The tutorial starts with review of the emerging hybrid array massive-machine-type communication. Despite his young age, architecture. The corresponding MIMO processing that heavily relies Maximilian Stark has authored and co-authored many papers in major on analog beam steering is referred as beam management. The basic technical journals and conferences already. Maximilian Stark lives in system model, approach, and performance of beam oriented MIMO is Hamburg, Germany. surveyed and compared with conventional MIMO that requires explicit channel estimation. Four procedures that are interleaved between T5: Softwarization and Virtualization in the physical layer and higher layer are the main components of such Networks of the Future system, namely beam acquisition, tracking, association and handover. Fabrizio Granelli, University of Trento, Italy; Frank Fitzek, The second part of tutorial reviews the beam management in 5G NR, i.e., 3GPP release 15 and the upcoming release 16. We focus on Technische Universität Dresden, Germany changes in frame structure and procedure that facilitate beam The aim of the tutorial is to illustrate how the emerging paradigms management. The third part covers recent research for future mmWave of Software Defined Networking and Network Function Virtualization cellular systems with emphasis in scalability with the increased array will impact on the development of future systems and networks, both size, user number and cell density. We review signal processing from the theoretical/formal as well as from the practical perspective. techniques for beam management that exploits sparsity, approaches The tutorial will provide a comprehensive overview of the using low resolution fully digital array, and recent advances in QoS individual building blocks (software defined networking; network aware cell/beam association and handover.. function virtualization; information centric networks) enabling the Danijela Cabric is Professor in Electrical and Computer Engineering concept of computing in future networks, starting from use cases and at University of California, Los Angeles. She earned the MS degree in concepts over technological enablers (Mininet; Docker) and future Electrical Engineering in 2001 from UCLA and the Ph.D. degree in innovations (machine learning; network coding; compressed sensing) Electrical Engineering in 2007 from UC Berkeley. Dr. Cabric received to implementing all of them on personal computers. Practical hands-on the Samueli Fellowship in 2008, the Okawa Foundation Research activities will be proposed, with realistic use cases to bridge theory and Grant in 2009, the Hellman Fellowship in 2012 and the National implementation by several examples, through the usage of a pre-built Science Foundation Faculty Early Career Development (CAREER) Virtual Machine (ComNetsEmu) that can be easily be extended for Award in 2012. She is currently an Associate Editor of IEEE new experiments. The instructions to download the Virtual Machine Transactions of Cognitive Communications and Networking and IEEE will be provided to the attendees in advance of the event. The main Transactions on Wireless Communications. Her research interests objective of the tutorial will be to expose attendees to the most recent include novel radio architecture, signal processing, and networking technologies in the field of networking and teach them how to use them techniques for cognitive radio, 5G and massive MIMO systems. She is in a real setup in the “hands-on” session. Senior Member of IEEE and IEEE ComSoc Distinguished Lecturer.
18 November – 16 December 2020 Final Program 13
Han Yan is a senior Ph.D. candidate in Electrical and Computer as the Internet of Things (IoT), intelligent transportation systems, and Engineering at University of California, Los Angeles (UCLA). He real-time online gaming, processing data in the cloud typically results received the B. Eng. degree from Zhejiang University, Hangzhou, P. R. in latencies that are not acceptable. In this context, edge computing has China in 2013, and the M.S. degree in Electrical Engineering from emerged as the new paradigm to reduce latency and save bandwidth. UCLA in 2015. His research interests includes signal processing for Edge computing has been recognized as a pillar of the 5G network millimeter-wave communications, cognitive radio, and coordinated architecture and an enabler of computation-intensive applications on UAV wireless communications. Mr. Yan is the recipient of UCLA IoT devices. Dissertation Year Fellowship in 2018, and Qualcomm Innovation The promised benefits of edge computing, however, come with Fellowship Finalist in 2019. important challenges, among them the problems of straggling edge T7: Efficient Global Optimization nodes and limited bandwidth which may severely penalize the latency, Bho Matthiesen, University of Bremen, Germany; Eduard A. and the unreliability of nodes and communication links, which not only Jorswieck, Technische Universität Braunschweig, Institut für impact the latency, but also impair the accuracy of the computation. Furthermore, performing computations over possibly untrustable edge Nachrichtentechnik, Germany nodes or on the user devices themselves, pose serious concerns about Global optimization is concerned with obtaining the globally security and privacy. optimal solution of nonconvex optimization problems. Algorithms for This tutorial will show how channel coding is a powerful tool to such problems can mostly be categorized into outer approximation overcome these challenges, bringing significant improvements in terms algorithms and branch and bound (BB) methods. This tutorial will of latency and accuracy, as well as providing security and privacy. It focus on BB methods for continuous optimization and demonstrate that assumes a basic understanding of linear algebra and probability theory. they are one of the most versatile tools in global optimization theory. Alexandre Graell i Amat is a Professor with the Department of We take a modular approach to BB procedures and cover the aspects of Electrical Engineering, Chalmers University of Technology, Sweden, rectangular subdivision, selection, bounding, and feasibility testing, and an Adjunct Research Scientist with Simula UiB, Norway. His both, from a theoretical and practical perspective. The focus for the research interests are in the field of coding theory and its application bounding part is on exploiting partial monotonicity in the problem, to areas including distributed storage and computing, privacy, and which leads to the novel mixed monotonic programming (MMP) optical communications. Prior to joining Chalmers, he was a Visiting framework, a generalization of classical monotonic optimization (MO). Scholar with the University of California at San Diego, USA (2001- Common feasibility checks are discussed and we highlight some 2002). In 2002–2003 he held a visiting appointment at Universitat pitfalls that lead to slow convergence speeds. The successive Pompeu Fabra, Spain. In 2001-2004 he held a part-time appointment incumbent transcending (SIT) scheme is introduced as a remedy and its at STMicroelectronics Data Storage Division, Italy. In 2004-2005 he integration with BB is discussed. A notable side effect of this SIT was a Visiting Professor with Universitat Pompeu Fabra. From 2006 scheme is that it also improves numerical stability when dealing with to 2010, he was with the Department of Electronics, IMT Atlantique complicated feasible sets. (former ENST Bretagne), France. He joined Chalmers in 2011. The theory developed in the first part of this tutorial will be applied Prof. Graell i Amat is a Senior member of the IEEE and Area Editor in several case studies from the area of resource allocation for wireless (Coding and Information Theory) for the IEEE Transactions on interference networks. In particular, we will cover energy-efficient Communications. He also served as Editor at Large and Associate resource allocation and show how to approach such problems without Editor for the IEEE Transactions on Communications (2011–2019) Dinkelbach’s algorithm. Further applications are hierarchical resource and the IEEE Communications Letters (2011–2013). He is the TPC allocation, beamforming, and resource allocation over rate regions. Co-Chair of the IEEE International Symposium on Topics in Coding, Although all of these problems are NP-hard we will demonstrate that Montreal, 2020. He was the General Co-Chair of the IEEE they can be solved efficiently for small to medium scale problems. International Symposium on Turbo Codes & Iterative Information Bho Matthiesen received the Diplom-Ingenieur (M.Sc.) degree and his Processing, 2012 and the IEEE European School of Information Ph.D. degree (with distinction) from Technische Universität Dresden, Theory, 2016. He is the recipient of the 2010 IEEE ComSoc Best Germany, in 2012 and 2019, respectively. From 2012 to 2019, he has Young Researcher Award for the Europe, Middle East, and Africa been a Research Associate with the Chair of Communications Theory, Region. Technische Universität Dresden. Since 2020, he is a research group Eirik Rosnes is a Chief Research Scientist and Section Leader of the leader at the U Bremen Excellence Chair of Petar Popovski in the Information Theory Section at Simula UiB, Bergen, Norway. His Department of Communications Engineering, University of Bremen, research interests are in the areas of communication and information Germany. His research interests are in the area of signal processing theory, including classical codes, codes on graphs, codes for for communications, with a focus on optimization methods for resource distributed storage and computing and coding for privacy and security. allocation. He was an invited speaker at the 2nd 6G Wireless Summit Prior to joining Simula UiB, he was with the Department of and is a publication chair for the International Symposium on Wireless Informatics, University of Bergen from 2003 to 2011, first as a Communication Systems (ISWCS) 2020. Postdoctoral Researcher, then as a Senior Researcher, and from 2020 Eduard A. Jorswieck was born in 1975 in Berlin, Germany. Since as a Chief Research Scientist. From 2001 to 2002 and from 2005 to August 2019, he has been the head of the Chair for Communications 2005, he was a Visiting Scholar with the Center for Magnetic Systems and Full Professor at Technische Universität Braunschweig, Recording Research, University of California at San Diego, La Jolla, Germany. From 2008 until 2019, he was the head of the Chair of CA, USA. From 2011 to 2013, he was a Senior Engineer with Ceragon Communications Theory and Full Professor at Dresden University of Networks, and since 2013, he has been with both the University of Technology (TUD), Germany. His main research interests are in the Bergen (until 2017) as an Adjunct Associate Professor and with the broad area of communications. He has published more than 110 Simula Research Laboratory / Simula UiB. Dr. Rosnes was a Technical journal papers, 13 book chapters, 3 monographs, and some 275 Program Co-Chair for the 2009 International Workshop on Coding conference papers on these topics. Dr. Jorswieck is an IEEE Fellow and Cryptography, Ullensvang, Norway, and is currently serving as and member of the IEEE SAM Technical Committee since 2015. Since Associate Editor for the AEU International Journal of Electronics and 2017, he serves as Editor-in-Chief of the EURASIP Journal on Communications and the IEEE Transactions on Communications. Wireless Communications and Networking. He serves currently on the Albin Severinson is a PhD candidate with Simula UiB and the editorial board for IEEE Transactions on Information Forensics and Department of Informatics at the University of Bergen (UiB), Bergen, Security. In 2006, he received the IEEE Signal Processing Society Best Norway, under the supervision of Dr. Rosnes and Prof. Graell i Amat. Paper Award. Prior to joining Simula UiB and UiB, he studied at Chalmers University, Gothenburg, Sweden and TU Delft, Delft, The Netherlands. T8: Coding for Edge Computing His research is on coding for distributed computing. Albin Severinson Alexandre Graell i Amat, Chalmers University of Technology, is the founder of Rendits, a company developing vehicle-to-vehicle Sweden; Eirik Rosnes, Simula UiB, Norway; Albin Severinson, communication equip- ment and is the president of UiBdoc, an Simula UiB and University of Bergen, Norway organization working to further the interests of PhD candidates and
Distributed computing systems have emerged as one of the most PostDocs at UiB. He has participated in the Grand Cooperative effective ways of solving increasingly complex computational Driving Challenge vehicle automation competition on the Chalmers team and in the World Solar Challenge on the TU Delft team. problems in a wide range of domains, e.g., in large-scale machine learning and data analytics. For example, Google routinely performs computations over several thousands of servers. For applications such
14 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
T9: Optical Wireless Communication: Mohamed-Slim Alouini is an IEEE Fellow since 2009. He was born Fundamental Limits, New Advances and Future in Tunis, Tunisia. He received the Ph.D. degree in electrical engineering from the California Institute of Technology (Caltech), Perspectives Pasadena, CA, USA, in 1998. He served as a Faculty Member in the Y Anas Chaaban, University of British Columbia, Canada; University of Minnesota, Minneapolis, MN, USA, then in the Texas Zouheir Rezki, University of Idaho, USA; Mohamed-Slim A&M University at Qatar, Education City, Doha, Qatar, before joining Alouini, King Abdullah University of Science and Technology, the King Abdullah University of Science and Technology (KAUST), Saudi Arabia Thuwal, Makkah, Saudi Arabia, as a Professor of electrical engineering in 2009. His current research interests include the Driven by the crowded RF spectrum, Optical Wireless modeling, design, and performance analysis of wireless communication Communications (OWC) recently gained increasing industrial and systems. academic interest. OWC can be used for various applications including but not limited to vehicle-to-vehicle communication and vehicle-to- T10: Aerial Communications and Networks infrastructure communication. However, OWC has fundamental Kamesh Namuduri, University of North Texas, USA, with differences compared with radio-frequency communications, which Keynote Presenters: Serge Chaumette, Université de Bordeaux, must be considered with designing an OWC communication system. France; Ravikumar Pragada, InterDigital, Inc., USA; Helka- Consequently, it is important to understand the fundamentals of, and Liina Määttänen, Ericsson, Finland; Gürkan Gür, Zurich extract design guidelines for OWC systems. This tutorial covers these University of Applied Sciences, Switzerland aspects for Intensity-Modulation OWC for practical outdoor, indoor, and vehicular communications applications. As unmanned aircraft systems (UAS) are being integrated into the
Anas Chaaban received his Maitrise-es-Sciences degree in Electronics National Airspace (NAS) around the world, there is a need for from the Lebanese University, Lebanon, in 2006. He received his M.Sc. enhanced situational awareness and traffic management of UASs, and degree in Communications Technology and his Dr.-Ing. (Ph.D.) degree safety and security of people and infrastructure. Standardization efforts in Electrical Engineering and Information Technology from the are being pursued to support UAS Traffic Management (UTM), over- University of Ulm and the Ruhr-University of Bochum, Germany, in the-air communications between UASs, Beyond Radio Line-of-Sight 2009 and 2013, respectively. He joined the University of British (BRLOS) communications, and UAS navigation and command and Columbia, Okanagan Campus, as an Assistant Professor in 2018. His control using satellite, cellular, and ad hoc networks. At present, research interests are in the areas of information theory, coding, and National Aeronautics and Space Administration (NASA) is leading the their application in wireless communications. standardization efforts for UTM and the Institute of Electrical and Dr. Chaaban received the Canadian Society of Information Theory Electronics Engineers (IEEE) is leading the standardization efforts for paper award in 2019, the best paper award at ICCSPA in 2015, and Self-organized Aerial Communications and Networking of UASs the best poster award at the IEEE Comm. Theory Workshop in 2011. through the IEEE P1920.1 Working Group. He is a member of the IEEE since 2009, a Senior Member since 2017, This tutorial is intended to provide an overview of the state of art in and a member of the Canadian Society of Information Theory. He aerial communications and networking. It covers topics such as served as an editor of the IEEE Access Special Section on Optical vehicle-to-vehicle communications and ad hoc networking, along with Wireless Technologies for 5G Communications and Beyond (2017), the experiences gained from flight-tests, experimental test-beds and Transactions on Emerging Telecommunications Technologies (Wiley) simulations. While the focus is primarily on standardization, novel (2017-2018), and the EURASIP Journal on Wireless Communication ideas towards future research such as swarm autonomy, and mesh networking for UASs will also be discussed. Networks (Springer) (2017-2018). He currently serves as an editor of the IEEE Transactions on Communications, a financial chair of the Kamesh Namuduri is a Professor of Electrical Engineering and the IEEE Communication Theory Workshop (CTW) 2020, and a technical director of Autonomous Systems Laboratory at the University of North program committee member of multiple conferences. Texas (UNT). He received his B.S. degree in Electronics and Zouheir Rezki is an Assistant Professor in the Electrical and Communication Engineering from Osmania University, India, in 1984, Computer Engineering Department at the University of Idaho. He is a M.S. degree in Computer Science from University of Hyderabad in 2019 (2020 – 2025) NSF CAREER Awardee. He received his Ph.D. 1986, and Ph.D. degree in Computer Science and Engineering from from University of Montreal, Polytechnique Engineering School in University of South Florida in 1992. Over the past eleven years, his 2008 and his thesis was nominated for “Best Thesis of the Year”. research is focused on aerial networking and communications. He co- Before joining the University of Idaho in August 2016, he was a Senior organized a series of workshops on “Airborne Networking and Research Scientist in the Computer Electrical and Mathematical Communications” in conjunction with IEEE, AIAA, AUVSI, and ACM Sciences and Engineering Division at King Abdullah University of Conferences. He is serving as the chair for two Standards Working Science and Technology (KAUST). Before joining KAUST in 2009, he Groups (IEEE 1920.1: Aerial Communications and Networking and was a Postdoctoral Research Fellow at the University of British IEEE P1920.2: Vehicle-to-Vehicle Communications for Unmanned Columbia. During this time, he received the prestigious Postdoctoral Aircraft Systems). He is serving as the Chair for the IEEE Vehicular Research Fellowship Grant: CA 30 K from “The Fonds Québécois de Technology Society’s Ad Hoc Committee on Drones. He is a co-editor la recherche sur la nature et les technologies”, for research on for the book titled “UAV Networks and Communications” published by Cognitive Radio Networks. In 2013, he has been elevated to the rank of the Cambridge University Press in 2017. He is leading the Smart and Senior Member of IEEE. In 2014, he has been appointed Editor of Connected Community project on “Deployable Communication IEEE Wireless Communications Letters. His current research covers a Systems” in collaboration with the government, public, and private wide range of topics in wireless communications and networking organizations. This living laboratory project was demonstrated thrice including security and privacy of data networks, applying machine- during the Global City Teams Challenge hosted jointly by the National learning techniques to design and optimize modern communication Institute of Standards and Technology and US Ignite in 2015, 2016, systems, information theory, millimeter wave (mmWave) 2017, and 2018. He contributed to the development of research communication, optical communication and application of agenda, requirements and blueprints highly deployable communication as an enabling technology for smart grids. communications systems led by the National Institute of Standards and Technology and National Public Safety Telecommunications Council.
18 November – 16 December 2020 Final Program 15
Keynote Program
Wednesday, 18 November 2020, 9 – 10am EST Keynote: The Research Directions for 6G Wen Tong, Huawei Wireless
Thursday, 19 November 2020, 11 – 12pm EST Keynote: Deep Analog-to-Digital Compression with Applications to Automotive Radar and Massive MIMO Yonina Eldar, Weizmann Institute of Science
Friday, 20 November 2020, 9 – 10am EST Keynote: Millimeter-Wave and THz Channels and Systems for High-Mobility Environments Andreas Molisch, University of Southern California
Saturday, 21 November 2020, 9 – 10am EST Keynote: What Should 6G Be? Mohamed-Slim Alouini, KAUST
Technical Sessions
Thursday, 19 November 2020
IOV, IOT, M2M, SENSOR NETWORKS, AND AD-HOC NETWORKING I
MACHINE LEARNING AND AI FOR COMMUNICATIONS I
MULTIPLE ANTENNAS AND COOPERATIVE COMMUNICATIONS I
SIGNAL TRANSMISSION AND RECEPTION I
SPECTRUM MANAGEMENT, RADIO ACCESS TECHNOLOGY, HETEROGENEOUS NETWORKS I
VEHICLE COOPERATION AND CONTROL, ASSISTED AND AUTONOMOUS DRIVING I
WIRELESS NETWORKS: PROTOCOLS AND SECURITY I
RECENT RESULTS I
Friday, 20 November 2020
IOV, IOT, M2M, SENSOR NETWORKS, AND AD-HOC NETWORKING II
MACHINE LEARNING AND AI FOR COMMUNICATIONS II
MULTIPLE ANTENNAS AND COOPERATIVE COMMUNICATIONS II
SIGNAL TRANSMISSION AND RECEPTION II
SPECTRUM MANAGEMENT, RADIO ACCESS TECHNOLOGY, HETEROGENEOUS NETWORKS II
VEHICLE COOPERATION AND CONTROL, ASSISTED AND AUTONOMOUS DRIVING II
WIRELESS NETWORKS: PROTOCOLS AND SECURITY II
RECENT RESULTS II
16 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Saturday, 21 November 2020
AIRBORNE AND MARITIME MOBILE SYSTEMS AND SERVICES
ANTENNA SYSTEMS, PROPAGATION, AND RF DESIGN
ELECTRIC VEHICLES, VEHICULAR ELECTRONICS, AND INTELLIGENT TRANSPORTATION
FUTURE TRENDS AND EMERGING TECHNOLOGIES
IOV, IOT, M2M, SENSOR NETWORKS, AND AD-HOC NETWORKING III
POSITIONING, NAVIGATION AND SENSING
RECENT RESULTS III
RECENT RESULTS IV
Patrons and Exhibitors
IEEE VTS would like to thank the Huawei for their contributions to the success of the conference.
18 November – 16 December 2020 Final Program 17
Keynotes Wednesday 18 November 2020 14:00 UTC The Research Directions for 6G Wen Tong, CTO, Wireless Network, Huawei Wireless In this talk, we present our view on 6G technologies, its trends and research directions. Wireless technology have gone through several major revolutions and it is always the case that the disruptive technologies enable the wireless innovation and market success. As 5G technology enables the digital transformation of every vertical business, we see a radical paradigm shift from the conventional operator-centric view to an inclusive prosumer-centric view, and the new approach to a federated networking and service provisioning, redefining the smart connectivity infrastructure as a much more dynamic composition of all resources of participating users. This include the spectrum usage reform and infrastructure sharing, we present four fundamental changes in terms of 6G networking and associated research challenges. The other aspect for 6G is a total unification of mobile, satellite, network, cloud, cloud-edge computing, ML, AI, end- to-end cybersecurity, innovative devices, Industry IoT, cell-less MIMO and Terahertz Communication to support the prosumer-centric model, in this architecture, we list a few technology enablers, such a mmWave-THz sensing, machine learning-training DNN to enable semantic communications as intelligent connectivity, the research in these areas will shape the radio access for 6G. Since the 6G is future platform to enable new innovations with its state-of-the-art capabilities, we provide an analysis of the key-performance indicators for 6G. In addition, we share our view of the potential impact of Quantum computing, mega-satellite-constellation and neural-center (instead of data center) to 6G. Dr. Wen Tong is the CTO, Huawei Wireless. He is the head of elected as a Huawei Fellow and an IEEE Fellow. He was the Huawei wireless research. In 2011, Dr. Tong was appointed the recipient of IEEE Communications Society Industry Innovation Head of Communications Technologies Labs of Huawei, Award for “the leadership and contributions in development of currently, he is the Huawei 5G chief scientist and leads 3G and 4G wireless systems” in 2014, and IEEE Huawei’s 10-year-long 5G wireless technologies research and Communications Society Distinguished Industry Leader Award development. for “pioneering technical contributions and leadership in the Prior to joining Huawei in 2009, Dr. Tong was the Nortel mobile communications industry and innovation in 5G mobile Fellow and head of the Network Technology Labs at Nortel. communications technology” in 2018. He is also the recipient He joined the Wireless Technology Labs at Bell Northern of R.A. Fessenden Medal. For the past three decades, he had Research in 1995 in Canada. pioneered fundamental technologies from 1G to 5G wireless Dr. Tong is the industry recognized leader in invention and and Wi-Fi with more than 450 granted US patents. standardization of advanced wireless technologies, he is the Dr. Tong is a Fellow of Canadian Academy of Engineering, key contributor to 3GPP since its inception. Dr. Tong was and he serves as Board of Director of Wi-Fi Alliance. Thursday 19 November 2020 14:00 UTC Deep Analog-to-Digital Compression with Applications to Automotive Radar and Massive MIMO Yonina Eldar, Professor, Weizmann Institute of Science The famous Shannon-Nyquist theorem has become a landmark in analog to digital conversion and the development of digital signal processing algorithms. However, in many modern applications, the signal bandwidths have increased tremendously, while the acquisition capabilities have not scaled sufficiently fast. Furthermore, the resulting high rate digital data requires storage, communication and processing at very high rates which is computationally expensive and requires large amounts of power. In this talk we consider a general framework for sub-Nyquist sampling and processing in space, time and frequency which allows to dramatically reduce the number of antennas, sampling rates, number of bits and band occupancy in a variety of applications. It also allows for the development of efficient joint radar- communication systems. Our framework relies on exploiting signal structure, quantization and the processing task in both standard processing and in deep learning networks. We consider applications of these ideas to a variety of problems in wireless communications, efficient massive MIMO systems, automotive radar and ultrasound imaging and show several demos of real-time sub-Nyquist prototypes including a wireless ultrasound probe, sub-Nyquist automotive radar, cognitive radio and radar, dual radar-communication systems, analog precoding, sparse antenna arrays, and a deep Viterbi decoder. Yonina Eldar is a Professor in the Department of Mathematics Israel, in 1995 and 1996, respectively, and the Ph.D. degree in and Computer Science, Weizmann Institute of Science, electrical engineering and computer science from the Rehovot, Israel. She was previously a Professor in the Massachusetts Institute of Technology (MIT), Cambridge, in Department of Electrical Engineering at the Technion, where 2002. She is a member of the Israel Academy of Sciences and she held the Edwards Chair in Engineering. She is also a Humanities, an IEEE Fellow and a EURASIP Fellow. She has Visiting Professor at MIT, a Visiting Scientist at the Broad received many awards for excellence in research and teaching, Institute, and an Adjunct Professor at Duke University and was including the IEEE Signal Processing Society Technical a Visiting Professor at Stanford. She received the B.Sc. degree Achievement Award (2013), the IEEE/AESS Fred Nathanson in physics and the B.Sc. degree in electrical engineering both Memorial Radar Award (2014) and the IEEE Kiyo Tomiyasu from Tel-Aviv University (TAU), Tel-Aviv, Award (2016). She was a Horev Fellow of the Leaders in Science and Technology program at the Technion and an Alon
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Fellow. She received the Michael Bruno Memorial Award Technion’s Award for Excellence in Teaching (two times). She from the Rothschild Foundation, the Weizmann Prize for Exact received several best paper awards and best demo awards Sciences, the Wolf Foundation Krill Prize for Excellence in together with her research students and colleagues, was Scientific Research, the Henry Taub Prize for Excellence in selected as one of the 50 most influential women in Israel, and Research (twice), the Hershel Rich Innovation Award (three was a member of the Israel Committee for Higher Education. times), the Award for Women with Distinguished She is the Editor in Chief of Foundations and Trends in Signal Contributions, the Andre and Bella Meyer Lectureship, the Processing and a member of several IEEE Technical Career Development Chair at the Technion, the Muriel & Committees and Award Committees. David Jacknow Award for Excellence in Teaching, and the Friday 20 November 2020 14:00 UTC Millimeter-wave and THz Channels and Systems for High-mobility Environments Andreas F. Molisch, Professor, University of Southern California Millimeter-wave based communications is one of the key components of 5G. Among other applications, high-rate communications for both passengers and control systems in vehicular and train environments are envisioned. This talk will start out by discussion propagation channels in high-mobility environments, describing both recent measurements and suitable models. This will be followed by a discussion of antenna and MIMO technology for such systems, their complexity, and sensitivity to mobility. Andreas F. Molisch received his PhD and habilitation from for wireless content distribution, and edge computing. He is the TU Vienna After 10 years in industry he joined the University author of four books, 21 book chapters, more than 250 journal of Southern California, where he is now the Solomon Golomb papers, 350 conference papers, as well as 80 patents. He is a – Andrew and Erna Viterbi Chair Professor. His research Fellow of the National Academy of Inventors, IEEE, AAAS, interest is wireless communications, with emphasis on wireless and IET, as well as Member of the Austrian Academy of propagation channels, multi-antenna systems, ultrawideband Sciences and recipient of numerous awards. signaling and localization, novel modulation methods, caching Saturday 21 November 2020 14:00 UTC What Should 6G Be? Mohamed-Slim Alouini, Professor, King Abdullah University of Science and Technology The role of Internet and Communication Technology (ICT) in bringing about a revolution in almost all aspects of human life needs no introduction. It is indeed a well-known fact that the transmission of the information at a rapid pace has transformed all spheres of human life such as economy, education, and health to name a few. In this context, and as the standardization of the fifth generation (5G) of wireless communication systems (WCSs) has been completed, and 5G networks are in their early stage of deployment, the research visioning and planning of the sixth generation (6G) of WCSs are being initiated. 6G is expected to be the next focus in wireless communication and networking and aim to provide new superior communication services to meet the future hyper-connectivity demands in the 2030s. In addition, keeping in mind that urbanized populations have been the major beneficiary of the advances offered by the previous generations of WCSs and motivated by the recently adopted united nations sustainability development goals intended to be achieved by the year 2030, 6G networks are anticipated to democratize the benefits of ICT. Indeed these advantages are still not experienced by almost 4 billion people in the world who are still “unconnected or under-connected” and who suffer as such from the “digital divide”, a term coined in order to emphasize the lack of ICT infrastructure in many parts of the world. Given this background, this talk aims to (i) provide an envisioned picture of 6G, (ii) serve as a research guideline in the beyond 5G era, and (iii) go over the recently proposed solutions to provide high-speed connectivity in under-covered areas in order to serve and contribute to the development of far-flung regions. Mohamed-Slim Alouini was born in Tunis, Tunisia. He University at Qatar, Education City, Doha, Qatar before joining received the Ph.D. degree in Electrical Engineering from the King Abdullah University of Science and Technology California Institute of Technology (Caltech), Pasadena, CA, (KAUST), Thuwal, Makkah Province, Saudi Arabia as a USA, in 1998. He served as a faculty member in the University Professor of Electrical Engineering in 2009. of Minnesota, Minneapolis, MN, USA, then in the Texas A&M
Panel Standardization for Connected and Automated Vehicles Organiser: Alvin Chin, BMW Technology Corporation, USA Panelists: Alex Wyglinski Worcester Polytechnic Institute and Past President of IEEE VTS Ricardo de Castro German Aerospace Center (DLR) and Chair of VTS AVSC Jack Weast Intel and Chair of IEEE P2846 Working Group Kirsten Matheus BMW
There is much research and development for Connected and Automated Vehicles (CAVs) by vehicle manufacturers, OEMs, and internet companies. However, there is a lack of technology standards on how to develop, test and validate CAVs, how to ensure interoperability and how to guarantee safety and reliability. As a result, the IEEE VTS/Automated Vehicles Standards Committee (VTS/AVSC) was formed in November 2019 to address this. In this panel, speakers
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from standards developing organizations, industry, research centers and academia will provide an overview of some ongoing standardization efforts of CAVs, and what the IEEE VTS/AVSC is doing. Each panelist has 15 minutes to present their talk, followed by 20 min Q&A. All talks will be pre-recorded and played during the panel to attendees. Q&A will be managed by chat, but the Moderator will ask each panelist a question of which the panelist can pre-record his/her answer. All questions on the Q&A chat will be sent and seen by the panelists, and they can answer at their convenience which will be shown in the chat. Dr. Alvin Chin is AI and Emerging Technology Researcher at Projects Agency, Naval Research Laboratory, MITRE BMW Technology Corporation in Mountain View, USA where Corporation, MIT Lincoln Laboratory, Office of Naval his research involves exploring AI and emerging technologies Research, Air Force Research Laboratory Space Vehicles for potential use cases in production at BMW. Previously, he Directorate, and the National Science Foundation. Dr. was Senior Machine Learning Researcher at BMW Technology Wyglinski is a Senior Member of the IEEE, as well as a Corporation in Chicago where he worked on big data and member of Sigma Xi, Eta Kappa Nu, and the ASEE. machine learning for improving driving behaviour and Overview and Recent Activities of the IEEE VTS/ enabling intelligent driving, studying user behavior in driving and in social networks, mining big data from the car data, and Automated Vehicles Standards Committee creating recommendations of items based on user profiling and Ricardo de Castro, German Aerospace Center (DLR) context such as predicted destinations and trips, to provide and Chair of VTS AVSC intelligent user and car experiences. Prior to BMW, he was Automated Vehicles (AVs) pose great opportunities to Senior Researcher at Microsoft and Nokia in Beijing working improve safety, efficiency and energy consumption of on big data and analytics for browsing behavior in Xpress transportation systems. However, this technology is still Browser, and Senior Researcher at Nokia Research Center working on mobile social networking in particular proximity in its infancy. There is a lack of standardized best social networks for inferring social activity, collaboration and practices on how to develop, test and validate AVs, how recommendation in real physical environments. Dr. Chin has to ensure interoperability and how to guarantee safety authored more than 30 publications and 10 patents including and reliability. To address these gaps, the IEEE VTS those pending. He has a Bachelors and Masters degrees in Automated Vehicles Standards Committee was created Computer Engineering from the University of Waterloo and a at the end of 2019. In this talk, we will provide an PhD in Computer Science from the University of Toronto. Dr. overview of the activities and standardization efforts of Chin is a member of various program committees such as this new committee. ACM KDD, ACM Hypertext, IEEE CPSCom, ACM Ubicomp, ACM CSCW, and IEEE VTC. He is an ACM Senior Member Dr Ricardo de Castro received the Licenciatura and Ph.D. and IEEE Senior Member. Dr. Chin is also active in the degrees in electrical and computers engineering from Chicago community, as Chair of ACM Chicago, Chair of the University of Porto, Faculty of Engineering, Portugal, in 2006 IEEE VTS Chicago Chapter, and Chair of the IEEE Computer and 2013, respectively. During 2007-2008 he was an Society Chicago Chapter. He is the Publicity Co-Chair for entrepreneur with the WeMoveU project, targeting the IEEE Vehicular Technology Conference-Fall 2020 and development of powertrain control solutions for lightweight Secretary of the IEEE VTS/Automated Vehicles Standards electric vehicles. Since 2013, he has been with the German Committee. Alvin can be reached at [email protected] and Aerospace Center (DLR), Institute of System Dynamics and his website is http://www.alvinychin.com. Control (SR), where he is developing enabling technologies for electric mobility and automated driving. Connected and Automated Vehicles from an He has been an expert evaluator for the European Union, editor Academic Perspective of IEEE Transactions on Vehicular Technology, associate Alex Wyglinski, Worcester Polytechnic Institute, Past editor of IEEE Access, guest editor of IEEE Vehicular President of IEEE VTS Technology Magazine and co-chair of the Technical Program Dr. Alexander M. Wyglinski is an internationally recognized Committee of the IEEE Vehicle Power and Propulsion expert in wireless communications, cognitive radio, 5G, Conference 2020. He is currently serving as chair of the IEEE connected vehicles, software-defined radio, dynamic spectrum VTS Automated Vehicles Standards Committee. access, satellite communications, vehicular technology, Ricardo de Castro is also a Senior Member of the IEEE and the wireless system optimization and adaptation, autonomous author of three patents and 60 papers in international journals, vehicles, and cyber-physical systems. Dr. Wyglinski is a Full conferences and book chapters. Professor of Electrical and Computer Engineering and a Full Professor of Robotics Engineering (courtesy appointment) at State of the State of AV Assurance Worcester Polytechnic Institute, Worcester, MA, USA, as well Jack Weast, Intel and Chair of IEEE P2846 Working as the Director of the Wireless Innovation Laboratory (WI Group Lab). Dr. Wyglinski is very active in the technical community, In this talk, Jack will provide a ‘State of the State’ serving on the organizing committees of numerous technical regarding the development of a safety assurance conferences and several journal editorial boards. These framework for Automated Vehicles and a call to action activities include serving as the General Co-Chair for the 82nd IEEE Vehicular Technology Conference in Fall 2015, as well for industry, researchers, and governments on what must as Technical Editor of the IEEE Communications Magazine. be done to enable commercial deployment of AV’s. From January 2018 to December 2019, Dr. Wyglinski served Jack Weast is a Senior Principal Engineer at Intel and Vice as the President of the IEEE Vehicular Technology Society, an President for Automated Vehicle Standards at Mobileye. In this applications-oriented society of approximately 5000 members role, Jack leads a global team working on AV safety that focuses on the theoretical, experimental, and operational technology and the related standards that will be needed to aspects of electrical and electronics engineering in mobile understand what it means for an AV to drive safely. radio, motor vehicles, and land transportation. Throughout his In his over 20-year career at Intel, Jack has built a reputation as academic career, Dr. Wyglinski has published approximately a change agent in new industries with significant technical 45 journal papers, over 120 conference papers, nine book contributions to a wide range of industry-first products and chapters, and three textbooks. He is currently being or has been standards in industries that are embracing complex high sponsored by organizations such as The MathWorks, Toyota performance heterogeneous computing for the first time. With InfoTechnology Center U.S.A., Defense Advanced Research
20 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall an End to End Systems perspective, Jack combines a unique in physical layer variants as in supporting aspects like blend of embedded product experience with a knack for elegant tools. However, the true changes that Ethernet System and Software design that will accelerate the adoption of communication allows for, like changing the way we Autonomous Driving. develop cars by providing the right enabling Jack is the co-author of “UPnP: Design By Example”, and is infrastructure for a software defined car, yet needs to be the holder of over 40 issued patents with dozens pending. Jack fully understood before it can be properly exploited. is an Adjunct Professor at Portland State University where he was recently inducted into the Portland State Maseeh College Dr Kirsten Matheus is engineer and economist. For the last Academy of Distinguished Alumni in recognition of Jack’s 16 years, she worked in the automotive industry; 10 of which achievements, leadership and service to the Engineering and at BMW. At BMW, she is responsible for the in-vehicle Computer Science Profession, as well as to Society. Outside of networking strategy. This entails ensuring the availability of work he is a classical pianist and never turns down an suitable in-vehicle networking technologies ahead of time. In opportunity to take the karaoke stage. this context she successfully introduced Ethernet as a networking technology into the automotive industry. In her Automotive Ethernet 2020 opinion, only open standards provide the basis for long term Kirsten Matheus, BMW sustainability of networking technologies. She and her former The automotive industry is one of the last to embrace colleague Thomas Königseder describe their experiences, Ethernet communication. 2008/2013 the industry saw the background and technical concepts behind the use of Ethernet in the automotive industry in a book titled “Automotive first introduction of 100BASE-TX/T1, with the roll out Ethernet” into most car manufacturers being completed just now. A huge eco-system has evolved around Ethernet, as well VTC2020-Fall Program Thursday, 19 November 2020 IoV, IoT, M2M, Sensor Networks, and Ad-Hoc University; Ryusuke Miyamoto, Meiji University; Hiroyuki Okuhata, Networking I Soliton Systems K.K. 1 A Modified Multi-Agent Reinforcement Learning 9 An Intelligent Routing Algorithm Based on Prioritized Protocol Based on Prediction for UAANETs Replay Double DQN for MANET Chao Li, Shanghai Jiao Tong University Jue Cai, Chan Wang, Ming Lei, Minjian Zhao, Zhejiang University 2 A Multi-Edge-Agent System approach for sharing 10 Analysis of Outage Probability and Duration in heterogeneous computing resources Millimeter Wave Vehicle-to-Infrastructure Networks Florent Carlier, CREN, Le Mans University; Virgine Fresse, Caglar Tunc, Shivendra Panwar, New York University Laboratory Hubert Curien UMR CNRS 5516 and University of Jean 11 Bid-Aware Privacy-Preserving Participant Recruitment Monnet; Jean-Paul Jamont, Laboratory LCIS, Grenoble INP and in Mobile Crowd-Sensing University of Grenoble Alpes; Arnaud Rosay, STMicroelectronics; Sabrine Aroua, Rim Ben Messaoud, Yacine Ghamri-Doudane, Loïc Pallardy, ST Microelectronics University of La Rochelle 3 A Multi-Timescale Load Balancing Approach in 12 Blockchain-Enabled Targeted Information Dissemination Vehicular Edge Computing Framework in Vehicular Networks Tao Lin, Quan Yuan, Beijing University of Posts & Pincan Zhao, Changle Li, Yuchuan Fu, Fan Li, Xidian University Telecommunications; Jinglin Li, Beijing University of Posts and Telecommunications; Shu Yang, Datang Xintong Co., Ltd. 13 Communications-Caching-Computing Tradeoff Analysis 4 A Scalable High-interaction Physical Honeypot for Bidirectional Data Computation in Mobile Edge Framework for Programmable Logic Controller Networks Lyutianyang Zhang, University of Washington; Yaping Sun, Jianzhou You, Shichao Lv, University of Chinese Academy of Shanghai Jiao Tong University Sciences; Lian Zhao, Ryerson University, Canada; Mengyao Niu, Zhiqiang Shi, Limin Sun, University of Chinese Academy of 14 Computation Offloading Game for Edge Computing with Sciences Strategic Local Pre-Processing Time-Length 5 A Spatiotemporal Framework for Information Freshness Changyan Yi, Nanjing University of Aeronautics and Astronautics; in IoT Uplink Networks Jun Cai, Concordia University; WANG Ran, Kun Zhu, Nanjing University of Aeronautics and Astronautics Mustafa Emara, Intel Deutschland GmbH; Hesham ElSawy, KAUST; Gerhard Bauch, Hamburg University of Technology Machine Learning and AI for Communications I 6 Achieving Cooperative Diversity in Over-the-Air 1 A DQN-Based Handover Management for SDN-Enabled Computation via Relay Selection Ultra-Dense Networks Ruichen Jiang, Sheng Zhou, Tsinghua University; Kaibin Huang, The Mengting Wu, Wei Huang, Kai Sun, Inner Mongolia University; University of Hong Kong Haijun Zhang, University of Science and Technology Beijing 7 Age-oriented Transmission for Multi-source Status 2 A Novel Complex PCA-based Wireless MIMO Channel Updates: a Waiting-and-Batching Scheme Modeling Methodology Libo Yang, Harbin Institute of Technology (Shenzhen); Shaohua Wu, Zhiqiang Yuan, Zhang Jianhua, Yuxiang Zhang, Pan Tang, Tian Lei, Harbin Institute of Technology; Ying Wang, Harbin Institute of Beijing University of Posts and Telecommuniation Technology (Shenzhen); Weiqiang Wu, Shenzhen Polytechnic; 3 Adversarial Reinforcement Learning-based Robust Zhang Qinyu, Harbin Institute of Tech. Access Point Coordination Against Uncoordinated 8 An Adaptive Superframe Change in a Wireless Vital Interference Sensor Network for a Group of Outdoor Exercisers Yuto Kihira, Yusuke Koda, Koji Yamamoto, Takayuki Nishio, Shinsuke Hara, Osaka City University; takuma hamagami, Yasutaka Masahiro Morikura, Kyoto University Kawamoto, Oki Electric Industry Co., Ltd.; Hiroyuki Yomo, Kansai
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4 An Intelligent Signal Detection Method Based on DNN for 6 Constrained-SVD based Hybrid Beamforming Design for MBM System Millimeter Wave Communications Chengxia Chen, Ming Lei, Chan Wang, Minjian Zhao, Zhejiang Guilherme Zilli, Wei-Ping Zhu, Concordia University University 7 Dynamic RRH Clustering using Affinity Propagation 5 Automatic Modulation Recognition Method for Multiple Algorithm in Ultra-Dense C-RAN Antenna System Based on Convolutional Neural Network Seju Park, Yonsei University; Han-Shin Jo, Hanbat National Juan Wang, Yu Wang, Wenmei Li, Guan Gui, Nanjing University of University; Cheol Mun, National University of Transportation; Jong- Posts and Telecommunications; Haris Gacanin, RWTH Aachen Gwan Yook, Yonsei University University; Fumiyuki Adachi, Tohoku University 8 Energy-Efficient Cell-Free Systems Using Finite Rate 6 Autonomous Rate Control for Mobile Internet of Things: Feedback A Deep Reinforcement Learning Approach Seungnyun Kim, Byonhyo Shim, Seoul National University Wenchao Xu, University of Waterloo; Haibo Zhou, Nanjing 9 Energy-efficient Two-Way Full-duplex UAVRelaying University; Nan Cheng, Xidian University; Ning Lu, Queen’s University; Lijuan Xu, Xidian University; Meng Qin, Peng Cheng Networks With Imperfect Channel StateInformation Laboratory; Song Guo, Hong Kong Polytechnic University Game optimization, Nanjing University of Aeronautics and Astronautics 7 Beam Alignment for Millimeter Wave High Speed Train 10 Hybrid Beamforming Design for C-RAN Based mmWave Communication Systems: A Bayesian Bandit Learning Cell-Free Systems Approach Zihuan Wang, Rang Liu, Hongyu Li, Ming Li, Qian Liu, Dalian Jeonghun Park, Kyungpook National University; Seungkwon Baek, University of Technology ETRI 11 Investigation and Comparison of QuaDRiGa, NYUSIM 8 Deep Learning Aided Power Allocation in An Energy and MG5G Channel Models for 5G Wireless Harvesting Untrusted Relay Network Game optimization, Nanjing University of Aeronautics and Communications Astronautics Yaping He, Yang Zhang, Jin Zhang, Xidian University; Lihua Pang, Xi'an University of Science and Technology; Guangliang Ren, 9 Deep Reinforcement Learning-based Beam Tracking Xidian University from mmWave Antennas Installed on Overhead 12 Joint Beamformer and Beamformee Design for Channel Messenger Wires Smoothing in WLAN Systems Masao Shinzaki, Yusuke Koda, Koji Yamamoto, Takayuki Nishio, Eunsung Jeon, Samsung Electronics Masahiro Morikura, Kyoto University; Chun-hsiang Huang, Yushi Shirato, Naoki Kita, NTT Access Network Service Systems 13 Joint Time and Power Allocation for Cooperative NOMA Laboratories based MEC System 10 Deep Reinforcement Learning-Based User Pairing in Yujie Wen, Xiaotian Zhou, Shandong University; Fang Fang, University of Manchester; Haixia Zhang, Dongfeng Yuan, Shandong Full-Duplex Communication Systems University Congliang Zhu, Jin Qu, Zhiqun Zou, Jiantao Yuan, Guanding Yu, Zhejiang University 14 Joint Transceiver Design for Full-Duplex Amplify-and- 11 Dynamic Hidden Markov Model for Metropolitan Traffic Forward Cooperative Systems with Frequency-Selective Flow Prediction Fading Channels li zihan, Cailian Chen, Yang Min, Jianping He, Bo Yang, Shanghai Fan-Shuo Tseng, National Sun Yat-Sen University, Taiwan; Chun- Jiao Tong University Tao Lin, National Taipei University of Technology; Jian-Yi Chen, Meng-Jie Wang, National Sun Yat-sen University 12 Enhancing WiFi Multiple Access Performance with Federated Deep Reinforcement Learning Signal Transmission and Reception I Lyutianyang Zhang, Hao Yin, University of Washington; Zhanke 1 A Damped GAMP Detection Algorithm for OTFS System Zhou, Huazhong University of Science and Technology; Sumit, Roy, based on Deep Learning University of Washington; Yaping Sun, Shanghai Jiao Tong Xiaoke Xu, Ming-Min Zhao, Ming Lei, Minjian Zhao, Zhejiang University University Multiple Antennas and Cooperative 2 A New Approach for Enhanced Detection Using Chirp Communications I Reference Signals Ana Belen Martinez, Atul Kumar, Technische Universität Dresden; 1 Achievable Rate Analysis of Hybrid Massive MIMO Marwa Chafii, ETIS, UMR 8051, CY Cergy Paris Université, Uplink with Imperfect Phase Shifters ENSEA, CNRS; Gerhard Fettweis, Technische Universität Dresden Linghui Ge, Southeast University; Hua Zhang, National Mobile Communications Research Lab., Southeast University; Wei Xu, 3 A Time-domain Phase Noise Mitigation Algorithm for Xiaohu You, Southeast University OFDM Systems in the Wireless Backhaul Links Peyman Neshaastegaran, Huawei Technologies 2 Adaptive Grouped Physical Layer Multicast and Beamforming for Massive MIMO 4 Adaptive Transmission Based on MMSE Equalization Guosen Yue, Xiao-Feng Qi, Futurewei Technologies Inc over Fast Fading Channels Hongyang Zhang, Xiaojing Huang, University of Technology 3 Adaptive Successive Interference Cancellation in Cell-free Sydney; Andrew Zhang, UTS; Y. Jay Guo, University of Technology Massive MIMO-NOMA Sydney Khai The Nguyen, Ha H. Nguyen, University of Saskatchewan; H. D. Tuan, University of Technology, Sydney 5 Analysis of Non-binary Polar Codes over GF(3) and GF(5) with Phase Shift Keying for Short Messages 4 Application Level Performance of Carrier Aggregation in Melanie Falk, Gerhard Bauch, Hamburg University of Technology; a Live LTE Network Ivor Nissen, WTD 71 Mark Akselrod, Leibniz Universität Hannover 6 Analysis of Optimal Quasi-Orthogonal FH System with 5 Collaborative Vs. Non-Collaborative CFO Estimation for Array Receiver for Anti-Interference Distributed Large-Scale MIMO Systems Qi Zeng, Jun Zhong, Xing Liu, Sichuan University Sumin Jeong, University College Dubline; Arman Farhang, Maynooth University; Mark Flana, University College Dubline
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7 Analysis of the Impact of Antenna Arrangement on Spectrum Management, Radio Access System Capacity of MU-MIMO in the Presence of Technology, Heterogeneous Networks I Terminal Mobility 1 A Cache Allocation Scheme in 5G-Enabled Hirofumi Suganuma, Yukiko Shimbo, Waseda University; Hiromichi Inhomogeneous ICVs Tomeba, Takashi Onodera, Sharp Corporation; Fumiaki Maehara, Cong Wang, Chen Chen, Xidian University; Yangyang Liu, China Waseda University Automotive Technology & Research Center Co.,Ltd.; Kefeng FAN, 8 Asymptotic Cumulative Distribution Functions for China Electronics Standardization Institute; Qingqi Pei, Xidian Correlated Lognormal Channels and Their Applications University in Selection Combining 2 A New Hybrid Resource Allocation Scheme in C-V2V Bingcheng Zhu, Southeast University; Julian Cheng, University of Systems British Columbia; Zaichen Zhang, Liang Wu, Jian Dang, Southeast Incheol Hwang, Yonsei University; Hyunsoo Kim, Taehyung Kim, University University of Yonsei; Daesik Hong, Yonsei University 9 Constellation Design with Equal-probability Partition of a 3 A Novel Fractional Programming Approach for Two Cropped Gaussian Distribution Typical Power Allocation Optimization Problems in Brett Wiens, Daniel Lee, Simon Fraser University Multi-User Massive MIMO Systems 10 Cyclic Prefix Direct Sequence Spread Spectrum Capacity Mingyang Chai, University of Science and technology of China; Analysis Zhou Wuyang, University of Science and Technology of China; Brent A. Kenney, Stephen N. Jenkins, University of Utah; Arslan J. Zhenkun Qiu, University of Science and technology of China; Ming Majid, Hussein Moradi, Idaho National Laboratory; Behrouz Zhao, Donghui Liu, University of Science and Technology of China Farhang-Boroujeny, University of Utah 4 An Asynchronous Grant-Free Multiple Access Scheme 11 Downlink-Sum-Power Statistical Minimization for with Rateless Codes for URLLC Massive MIMO Enabled SWIPT Systems over Rician Wei Zhang, Shidong Zhou, Xiujun Zhang, Tsinghua University Fading Channel 5 An Efficient Spectral/Spatial OCDMA System Using 2D Mingjie Chi, Yang Zhang, Peili Hao, Xidian University; Lihua Pang, BIBD Code Based on Combinatorial Constructions of Xi'an University of Science and Technology; Guangliang Ren, Galois Field Xidian University Teena Sharma, Université du Québec à Chicoutimi, Canada; 12 Dynamic Resource Management to Enhance Video Abdellah Chehri, University of Ottawa; Paul Fortier, Laval Streaming Experience in a C-V2X Network University Farhan Pervez, Ryerson University; Lian Zhao, Ryerson University, 6 Channel Quality Estimation for Cognitive Wireless Canada Systems Using Software Defined Radios 13 Effects of Eigenvalue Distribution on Precoded Faster- Dr. Ahmad Saad, Fraunhofer IKS; Henning Schepker, Peter Neuhaus, than-Nyquist Signaling with Power Allocation Fraunhofer ESK Keita Masaki, Takumi Ishihara, Shinya Sugiura, The University of 7 Computation Offloading in Energy Harvesting aided Tokyo Heterogeneous Mobile Edge Computing 14 Enhanced Alignment Signal for CP-Free OFDM: Concept Tian Zhang, Shandong Management University; Wei Chen, Tsinghua and Performance University Bo Sun, Toni Levanen, Bo Tan, Markku Renfors, Mikko Valkama, 8 Coverage Analysis of Dynamic TDD in Two-Tier Tampere University Heterogeneous Ultra Dense Networks 15 Exact and asymptotic Performance Analysis of WPC links Xie Ziyi, Wu Xuanli, Xu Chen, Wei Wu, Harbin Institute of with channel estimation errors Technology Danyang Wang, Chintha Tellambura, University of Alberta 9 Edge-Cloud Based Vehicle SLAM for Autonomous 16 Fast Power Reconstruction for User Detection of Indoor Map Updating Autonomous Grant-free Data-only Schemes Zepeng Zhu, Xidian University; Jiajia Liu, Northwestern Yihua Ma, Zhifeng Yuan, Yuzhou HU, Weimin Li, Li Zhigang, ZTE Polytechnical University; Jiadai Wang, Xidian University; NEI Corporation KATO, TOHOKU UNIVERSITY 17 Finite Length Non-binary Raptor Codes under Ordered 10 Effective Capacity Maximization for Multi-Numerology Statistics Decoder based 5G NR Networks Fei Wang, Jian Jiao, Lianqin Li, Ke Zhang, Harbin Institute of Chia-Yu Su, Chun-Hao Fang, Kai-Ten Feng, National Chiao Tung Technology (Shenzhen); Shaohua Wu, Zhang Qinyu, Harbin Institute University of Technology 11 Energy-Aware Dynamic Computation Offloading in 18 Hybrid Carrier and STBC based Impulsive Noise High-Speed Railway Networks with D-TDD Suppression for Substation Communications QI ZHANG, HAINA ZHENG, BEIJING JIAOTONG Lin Mei, Xiang Jiao, Xiaojie Fang, Harbin Institute of Technology; UNIVERSITY; Zhangdui Zhong, Beijing Jiaotong University Ning Zhang, Texas A & M University-Corpus Christi 12 Energy-Efficient Multi-Tier Caching and Node 19 Intelligent Partial Pattern Mode Matching Receiver for Association in Heterogeneous Fog Networks Orbital Angular Momentum Systems Kunlun Wang, ShanghaiTech University; Jun Li, Nanjing University Mai Kafafy, Alaa ElHilaly, Yasmine Fahmy, Mohamed Khairy, of Science and Technology, China; Yang Yang, ShanghaiTech Cairo University; Mohamed Abdallah, Hamad Bin Khalifa University; Wen Chen, Dept. of Electronic Engineering, Shanghai University Jiao Tong Univ.; Lajos Hanzo, University of Southampton 20 Interference Whitening per sub-band in WLANs 13 Enhanced Resource Allocation for 5G V2X in Congested Mostafa Ibrahim, Samsung; Ruchen Duan, Samsung Semiconductor Smart Intersection Inc; Minki Ahn, Wookbong Lee, Samsung Electronics; Ashok Su Yi, Gang Sun, Fujitsu Research and Development Center Co., Ranganath, Samsung Semiconductor, Inc. Ltd; Xin Wang, Fujitsu R&D Center Co., Ltd. 14 Joint Beam Management and User Scheduling for Massive MIMO with Hybrid Beamforming and Limited Feedback Guosen Yue, Futurewei Technologies Inc; Bohan Zhang, MediaTek USA Inc.; Xiao-Feng Qi, Futurewei Technologies Inc
18 November – 16 December 2020 Final Program 23
Vehicle Cooperation and Control, Assisted and 4 Accelerating Poisoning Attack Through Momentum and Autonomous Driving I Adam Algorithms 1 A Cluster-based Cooperative Jamming Scheme for Secure Wenbo Jiang, University of Electronic Science and Technology of Communication in Wireless Sensor Network China; Hongwei Li, University of Electronic Science and Technology of China, Chengdu; Li Gong, Haomiao Yang, University of Tian Zhu, Fei Tong, Southeast University Electronic Science and Technology of China; Rongxing LU, 2 A Dual-Attention-Based Neural Network for See-Through University of New Brunswick Driving Decision 5 An experimental analysis of ECQV implicit certificates Fanqi Xu, Jinglin Li, Beijing University of Posts and performance in VANETs Telecommunications; Quan Yuan, Beijing University of Posts & Francesco Pollicino, Dario Stabili, Luca Ferretti, Mirco Marchetti, Telecommunications; Guiyang Luo, BUPT Università di Modena e Reggio Emilia 3 A Hierarchical Traffic-Balanced Route Planning Method 6 An LTE Matching-Based Scheduling Scheme for Critical- for Connected Vehicles MTC with Shortened Transmission Time Intervals Xu Han, Jiawei Lu, Beijing University of Posts and Mohammed Y. Abdelsadek, Memorial University of Newfoundland; Telecommunications; Quan Yuan, Beijing University of Posts & Mohamed H. Ahmed, University of Ottawa; Yasser Gadallah, The Telecommunications; Jinglin Li, Beijing University of Posts and American University in Cairo Telecommunications 7 An Optimization Framework for Privacy-preserving 4 A Novel Safety Message Dissemination for Region of Access Control in Cloud-Fog Computing Systems Interest Coverage Using Vehicle Trajectory Yili Jiang, University of Nebraska-Lincoln; Kuan Zhang, University Bingyi Liu, Wei Jiang, Zhipeng Fang, Wuhan University of of Nebraska–Lincoln; Yi Qian, University of Nebraska-Lincoln; Technology; Dongyao Jia, The University of Queensland; Shengwu Liang Zhou, Nanjing University of Post and Telecommunications Xiong, Wuhan University of Technology; Enshu Wang, The State University of New York, Buffalo; Jianping Wang, City University of 8 Efficient Distribution of Key Chain Commitments for Hong Kong, Hong Kong Broadcast Authentication in V2V Communications 5 A Physical Layer Encryption Algorithm Based on Length- Mujahid Muhammad, Paul Kearney, Adel Aneiba, Birmingham City Compatible Polar Codes University; Andreas Kunz, Lenovo Xinjin Lu, Jing Lei, Wei Li, National University of Defense 9 Handover Performance and Power Consumption Analysis Technology of LTE Mobile Relays 6 A Popularity- and Mobility-Aware Multi-layer Caching Muhammad Tayyab, Huawei Technologies Finland Oy; George with Feedback Mechanism for Highway Vehicular Koudouridis, Xavier Gelabert, Huawei Technologies Sweden AB; Riku Jäntti, Department of Communications and Networking, Aalto Networks University Ke Li, southwest jiaotong university; Zhaoyan Lyu, University College London; Heng Liu, southwest jiaotong university; Pingzhi 10 Heterogeneous Millimeter Wave Wireless Power Transfer Fan, Southwest Jiaotong University With Poisson Cluster Processes 7 A Privacy-Preserving Authentication Scheme for Fangzhou Yu, Chao Zhang, Xi'an Jiaotong University VANETs based on Consortium Blockchain 11 Heterogeneous Multi-Operator Spectrum Sharing Yujian Zhang, Fei Tong, Yuwei Xu, Jun Tao, Guang Cheng, Architecture for Massive IoT Access with NOMA Southeast University Bo Qian, Haibo Zhou, Ting Ma, Nanjing University; Kai Yu, 8 Adaptive Deployment of UAV-Aided Networks Based on NanJing University; Yu Quan, Institute of China Electronic Equipment System Engineering Corporation; Xuemin (Sherman) Hybrid Deep Reinforcement Learning Shen, University of Waterloo Xiaoyong Ma, Shuting Hu, Danyang Zhou, Yi Zhou, Henan University; Ning Lu, Queen’s University 12 Joint Optimization on Cache Size and File Placement in Backhaul Limited Dense Networks 9 An Adversarial Attack with Fusion of Polarization for Jin Xu, Shipeng Zhu, Xi Chen, Cui Qimei, Xiaofeng Tao, Beijing Unmanned Scenes University of Posts and Telecommunications Huanhuan Lv, Shanghai University of Electric Power; Wen Mi, Shanghai University of Electric Power,China; Rongxing LU, 13 Learning Enabled Adaptive Multiple Attribute-based University of New Brunswick; Xuankai Wang, Jinguo Li, Shanghai Physical Layer Authentication University of Electric Power Xinyu Yin, Xiaojie Fang, Lin Mei, Harbin Institute of Technology; 10 Closed-Form Expressions of Performance Metrics of V2X Ning Zhang, Texas A & M University-Corpus Christi; Xuejun Sha, Communication Research Center, Harbin Institute of Technology; Safety Communication in Urban Scenarios Jinghui Qiu, Harbin Institute of Technology Kai Takahashi, Yuto Konuma, Shigeo Shioda, Chiba University; Takeshi Hirai, Tutomu Murase, Nagoya University 14 Learning Secured Modulation With Deep Adversarial Neural Networks 11 DaliNet: Lighter, deeper and larger field of vision Hesham Mohammed, University at Albany; Dola Saha, University at Hao Fu, Yuyan Wang, Zhipeng Yang, Jiazheng Fu, Cheng Feng, Albany, SUNY Northeast Forestry University 15 Lightweight Secure Data Exchange in Decentralized Wireless Networks: Protocols and Security I VANETs with Physical Layer Security 1 A Local Reaction Anti-Jamming Scheme for UAV Qiao Liu, Xidian University; Hui Li, Xidian Univeristy; Sheng Ding, Swarms Yong Wang, Xidian University Li Kexin, Chan Wang, Ming Lei, Ming-Min Zhao, Minjian Zhao, Zhejiang University 16 Location Verification Based Hybrid Routing Protocol for VANETs 2 A Novel Two-way Multihop Relay Scheme Based on waheeda, Robert Malaney, University of New South Wales; Shihao Decode-and-Forward and Network Coding Yan, Macquarie University, Australia Xuesong Jonathan Tan, Wenbo Gao, Xingyu Zhang, University of Electronic Science and Technology of China 17 MAC-AC: A Novel Distributed MAC Protocol for Accessing Channel in Vehicular Ad Hoc Networks 3 A Scheduling Scheme for Cooperative Merging at a Dr. Baozhu Li, University of Jinan Highway On-Ramp with Maximizing Average Speed of Automated Vehicles Masashi Yoshida, Dept. of Information and Computer Science, Keio University; Hiromu Asahina, Hiroshi Shigeno, Iwao Sasase, Keio University
24 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Recent Results I Universität Dresden, Germany; Gerhard Fettweis, Technical 1 A Cache Strategy for Intelligent Transportation System to University of Dresden Connected Autonomous Vehicles 11 An Experimental Study of Uplink Co-Channel Spectrum- Wellington Viana Lobato Junior, University of Campinas; Allan M. Sharing System between HAPS and Terrestrial Mobile de Souza, UNICAMP; Maycon Peixoto, UFBA; Denis Rosario, Communication Networks Federal University of Pará (UFPA); Leandro Villas, UNICAMP Mitsukuni Konishi, Takuya Nishimaki, Yohei Shibata, Sho 2 A Deep Learning Approach for Wireless Spectrum Nabatame, Atsushi Nagate, SoftBank Corp. Sensing in Communications-based Train Control: A 12 An Open Software-Defined-Radio Platform for LTE-V2X Over-fitting Problem and Solution And Beyond Tossaporn Srisooksai, Satoshi Nishida, Shuji Nambu, Kyosan Ralf Lindstedt, Martin Kasparick, Jens Pilz, Stephan Jaeckel, Electric MFG. Co.,Ltd Fraunhofer Heinrich Hertz Institute 3 A Dynamic Exclusive-Use Spectrum Access Method for 13 Analysis of wireless device-to-device networksunder Millimeter-Wave Mobile Systems Toward 6G Rician fading using stochastic geometry Rony Kumer Saha, Ph.D., Research Engr & Postdoc Fellow, Radi & Simon Demey, Université Catholique de Louvain Spec Lab, KDDI Research, Inc. 14 Applying Quarter-Vehicle Model Simulation for Road 4 A High-speed Wi-SUN FAN Network by Highly-Dense Elevation Measurements Utilizing the Vehicle Level Frequency Hopping Sensor Hidetomo Ochiai, Kiyoshi Mizutani, Ryota Okumura, Keiichi Felix Kortmann, Leuphana University Lüneburg; Malte Rodeheger, Mizutani, Hiroshi Harada, Kyoto University Alexander Warnecke, HELLA GmbH & Co. KGaA; Nicolas Meier, 5 A Millimeter-Wave Reconfigurable Intelligent Jens Heger, Burkhardt Funk, Paul Drews, Leuphana University Metasurface Design for Vehicular Networks Applications Lüneburg Carola Rizza, Inria Lille; Valeria Loscri, Inria Lille - Nord Europe; 15 Basic Evaluation of Service Link Antenna for Footprint Mohammad Ojaroudi Parchin, Inria Lille Fixation in HAPS System 6 A Priori Delay Information Assisted Channel Estimation Shoichi Sudo, Kenji Hoshino, SoftBank Corp.; Yoshichika Ohta, with Basis Expansion Model for Aeronautical Softbank Corp. Communication Systems 16 Challenges and Road Ahead for Wireless Networks to Shuzheng Fang, Lei Zhao, Ming Jiang, Sun Yat-sen University; Serve Immersive Human Centric Applications Qilong Rong, The Seventh Research Institute of CETC Chunqing Zhang, Huawei Technologies Co., Ltd.; Gaoning He, Yan 7 A Safety Gateway for Autonomous Driving Demonstrator Chen, Peiying Zhu, Huawei Vehicles 17 Channel-Quality Reporting Enabled by Machine Allan Tengg, Michael Stolz, Virtual Vehicle Research Center Learning in Non-Stationary Environments 8 A State-space Approach for Efficient Channel Tracking Marco Centenaro, Fondazione Bruno Kessler; Stefano Tomasin, in OFDM Transmissions Nevio Benvenuto, University of Padova; Shaoshi Yang, Beijing University of Posts and Telecommunications Pedro Pedrosa, Instituto de Telecomunicações; Daniel Castanheira, University of Aveiro; Adão Silva, DETI / Instituto de 18 Codebook Design for OFDM with In-phase/Quadrature Telecomunicações / University of Aveiro; Rui Dinis, Universidade All Index Modulation Nova de Lisboa; Atilio Gameiro, Universidade Aveiro Wei-Wen Su, Jen-Ming Wu, National Tsing Hua University 9 Absolute Positioning with Unsupervised Multipoint 19 Combating the Impact of Jittering in UAV-based Sensing Channel Charting for 5G Networks Systems Using Deep Denoising Network Jaakko Pihlajasalo, Mike Koivisto, Jukka Talvitie, Simo Ali-Löytty, Wei Chen, Deng-Kai Chang, Yu-Jia Chen, National Central Mikko Valkama, Tampere University University 10 Adaptive Channel Estimation based on Deep Learning 20 Compensation of Receiver IQ Imbalance in mm-wave Abdul karim Gizzini, ETIS, UMR8051, CY Cergy Paris Université, Hybrid Beamforming Systems ENSEA, CNRS, France; Marwa Chafii, ETIS, UMR 8051, CY Cergy Rachit Mahendra, Indian Institute of Technology Delhi, India; Saif Paris Université, ENSEA, CNRS; Ahmad Nimr, Technische Khan Mohammed, Indian Institute of Technology Delhi; Ranjan K. Mallik, IIT Delhi
Friday, 20 November 2020 IoV, IoT, M2M, Sensor Networks, and Ad-Hoc 4 Dynamic Spectrum Slicing and Optimization in SAG Networking II Integrated Vehicular Networks 1 Computation Offloading with Reliability Guarantee in Feng Lyu, Central South University; Peng Yang, Huazhong Vehicular Edge Computing Systems University of Science and Technology; Huaqing Wu, Conghao Zhou, University of Waterloo; Ju Ren, Central South University, China; Zhongjie He, Hangguan Shan, Zhejiang University; Yuanguo Bi, Yaoxue Zhang, Central South University; Xuemin (Sherman) Shen, Northeastern University; Zhiyu Xiang, Zhejiang University; Zhou Su, University of Waterloo Shanghai University, China; Weihua Wu, Tom H. Luan, Xidian University 5 Eco-Vehicular Edge Networks for Connected 2 Decentralized Subspace Projection for Asymmetric Transportation: A Distributed Multi-Agent Sensor Networks Reinforcement Learning Approach Siavash Mollaebrahim Ghari, Baltasar Beferull-Lozano, Emilio Ruiz Md Ferdous Pervej, Shih-Chun Lin, North Carolina State University Moreno, University of Agder 6 Enhancing ETSI DCC for Multi-Service Vehicular Safety 3 Dynamic Routing in Flying Ad-hoc Networks using Link Communication Duration Based MPR Selection Mohammad Irfan Khan, Eurecom; Jérôme Härri, EURECOM; Yirui Huang, Ruiming Xie, Bowen Gao, Jian Wang, Nanjing Stefania Sesia, Renault Software Labs University
18 November – 16 December 2020 Final Program 25
7 EPDC: An Enhanced Pipelined Data Collection MAC for 8 Off-policy Learning for Remote Electrical Tilt Duty-Cycled Linear Sensor Networks Optimization Fei Tong, Yujian Zhang, Jun Tao, Southeast University; Guanghui Filippo Vannella, KTH Royal Institute of Technology; Jaeseong Wang, Henan University; Xiufang Shi, Zhejiang University; Guang Jeong, Ericsson; Alexandre Proutiere, KTH Royal Institute of Cheng, Southeast University Technology 8 Hybrid Context-aware Message Flooding for Dead Spot 9 Potentials of MIMO and Neural Networks in Industrial Mitigation in V2I Communication Cognitive Networks Ergys Puka, Peter Herrmann, Norwegian University of Science and Abdullah Yaqot, Institut f. Automation und Kommunikation, e.V. Technology - NTNU; Amir Taherkordi, U of Oslo Magdeburg; Danfeng Sun, Institut für Automation und 9 Incentive Mechanism Design for Federated Learning in Kommunikation; Lutz Rauchhaupt, Institut f. Automation und Kommunikation, e.V. Magdeburg the Internet of Vehicles Lim Wei Yang Bryan, Alibaba-NTU JRI; Zehui Xiong, Nanyang 10 Towards scalable zero-shot modulation recognition Technological University, Singapore; Dusit Niyato, Nanyang Wei Xiong, Petko Bogdanov, Mariya Zheleva, University at Albany Technological University; Huang Jianqiang, Hua Xian-Sheng, 11 Transfer Learning-Based Received Power Prediction with Alibaba Group; Miao Chunyan, NTU SCSE, LILY Research Centre Ray-tracing Simulation and Small Amount of 10 Joint Power and Time Allocation of Pilot SchemeSelection Measurement Data for Uplink mMTC in ITSN Masahiro Iwasaki, Takayuki Nishio, Masahiro Morikura, Koji Junliang Zhou, Jian JIAO, Zilin Ni, Shiyi Liao, Harbin Institute of Yamamoto, Kyoto University Technology (Shenzhen); Shaohua Wu, Harbin Institute of 12 User Persona in Personalized Wireless Networks: A Big Technology; Zhang Qinyu, Harbin Institute of Tech. Data-Driven Prediction Framework 11 Joint Random Access Control Scheme based on PRACH Rawan Alkurd, Carleton University; Ibrahim AbuAlhaol, Principal Channel Quality and Access Class Barring Data Scientist / Adjunct Professor; Halim Yanikomeroglu, Carleton Xiaobo Tang, Southwest Jiaotong University University 12 Leveraging the Collective Perception Service for CAM Multiple Antennas and Cooperative Information Aggregation at Intersections Communications II Keno Garlichs, Caglar Kaya, Lars Wolf, Technische Universität 1 LAP-Based FSO-RF Cooperative NOMA Systems Braunschweig Liang Yang, Hunan University; Xiaobo Lei, Jianchao Chen, 13 LSTM-Based Communication Scheduling Mechanism for Guangdong University of Technology Energy Harvesting RSUs in IoVs 2 Learning based Dynamic Codebook Selection for Analog CHAO WANG, Jitong Li, Xiaoman Cheng, Yunhua He, North China Beamforming University of Technology; Limin Sun, University of Chinese qi zhan, samsung semiconductor inc; Hongbing Cheng, Samsung Academy of Sciences; Ke Xiao, North China University of Electronics; Kee-Bong Song, Samsung Semiconductors Inc. Technology 3 Local-Search Based Detector for Decode-and-Forward 14 Maximum Achievable Sum Rate of CRDSA under Total Protocol Cooperative Systems Transmit Power Limitation Issa Chihaoui, University of Tunis El Manar; Mohamed Lassaad Bo Zhao, Guangliang Ren, Xidian University; Xiaodai Dong, Ammari, Paul Fortier, Laval University University of Victoria; Huining Zhang, Xidian University 4 Low-Complexity Wideband Channel Estimation Machine Learning and AI for Communications II forMillimeter-Wave Massive MIMO Systems via Joint 1 Generative Adversarial Method Considering Parameter Learning Communication Transmission Distortion for Neural Long Cheng, Guangrong Yue, Zhiqiang Wang, University of Network Codec Electronic Science and Technology of China; Shaoqian Li, UESTC, Xiaolong Zheng, Chuanchuan Yang, Peking University; Jiqiang China Feng, Chen Xu, Shenzhen University; Ziyu Wang, Peking University 5 Millimeter-Wave MIMO-NOMA Antenna Selection 2 Learning to Denoise and Decode: A Novel Residual Algorithms for Space Information Network Neural Network Decoder for Polar Codes Zeqiong Chen, Jian JIAO, Qiwen Li, Bowen Feng, Harbin Institute Zhiwei Cao, Hongfei Zhu, Yuping Zhao, Dou Li, Peking University of Technology (Shenzhen); Shaohua Wu, Harbin Institute of 3 Light-weight Machine Learning for mmWave Vehicular Technology; Zhang Qinyu, Harbin Institute of Tech. Communications 6 Multi-Polarization Superposition Beamforming with Yitu Wang, Takayuki Nakachi, NTT XPD-Aware Transmit Power Allocation 4 Lottery Hypothesis based Unsupervised Pre-training for Paul Seungcheol Oh, Sean Seok-Chul Kwon, California State Model Compression in Federated Learning University Long Beach Sohei Itahara, Takayuki Nishio, Masahiro Morikura, Koji 7 Multiuser MIMO Precoded Visible Light Communication Yamamoto, Kyoto University Under LED Dynamic Range Constraint 5 Machine Learning-based PHY-authentication for Mobile Lei Zhao, Sun Yat-sen University; Kunyi Cai, Shenzhen Tencent OFDM Transceivers Computer System Co., Ltd.; Ming Jiang, Sun Yat-sen University Abdulsahib Albehadili, the University of Toledo; Osama Hussein, 8 Network-Coded Cooperative MIMO With Outdated CSI University of Toledo; Vijay Devabhaktuni, PNW; Ahmad Y Javaid, and CCI The University of Toledo Ali Reza Heidarpour, Masoud Ardakani, Chintha Tellambura, 6 Modified Dynamic Time Warping with a Reference Path University of Alberta for Alignment of Repeated Drive-Tests 9 Outdoor Experimental Trials of Millimeter-Wave Base Vaclav Raida, Philipp Svoboda, Markus Rupp, TU Wien Station Cooperation with Digital Beamforming in High- 7 NN-based Support Detection of Sparse Signals Mobility Environments for 5G Evolution Abbas Abolfathimomtaz, Amirhosein Soleimanzade, Masoud Tatsuki Okuyama, Nobuhide Nonaka, Satoshi Suyama, Yukihiko Ardakani, University of Alberta Okumura, Takahiro Asai, NTT DOCOMO, INC. 10 Rate Enhancement for Distributed Massive MIMO Systems with Underlay Spectrum Sharing fatemeh rezaei, Chintha Tellambura, University of Alberta; AliAkbar Tadaion, University of Yazd
26 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
11 Reliable Detection for Spatial Modulation Systems 12 Particle Filter Based Nonlinear Data Detection for Ibrahim Al-Nahhal, Octavia A. Dobre, Memorial University; Salama Frequency Selective mm-Wave MIMO-OFDM Systems Ikki, Lakehead University Preety Priya, Debarati Sen, Indian Institute of Technology Kharagpur 12 Robust Low Complexity Beamforming for Cell-Free 13 Performance Analysis of Energy beamforming over Line- Massive MIMO of-sight links Na Li, Jing Jin, Liang Xia, Qixing Wang, China Mobile Research Danyang Wang, Chintha Tellambura, University of Alberta Institute; Guangyi Liu, China Mobile; Zhuo Chen, Research Institute of China Mobile; Zhenping Hu, China Mobile 14 Polynomial Expansion-Based MMSE Channel Estimation for Massive MIMO-GFDM Systems 13 Space Shift Keying-Based Hybrid FSO/RF System Yanpeng Wang, Paul Fortier, Laval University Shubha Sharma, A.S. Madhukumar, Nanyang Technological University; Swaminathan R, Indian Institute of Technology Indore, 15 Precoder Design for Dynamically Sub-connected Hybrid India Architecture in MU-MISO-OFDM Systems Hongyu Li, Rang Liu, Zihuan Wang, Ming Li, Qian Liu, Dalian 14 Switch-Based Hybrid Analog/Digital Channel Estimation University of Technology for mmWave Massive MIMO Alec Poulin, McGill University; Alireza Morsali, McGill; Benoit 16 Reinforcement Learning-based Energy-Efficient Power Champagne, McGill University Allocation for Underwater Full-Duplex Relay Network with Energy Harvesting Signal Transmission and Reception II Ranning Wang, Esraa A. Makled, Memorial University of 1 Interleaver-Linked Receiver Beamforming with Newfoundland; Animesh Yadav, Syracuse University; Octavia A. Transmitter Channel Equalization in TDD-IDMA-Based Dobre, Memorial University; Ruiqin Zhao, Northwestern Random Access Polytechnical University, Yuto Muroki, Yotaro Murakami, Tokyo University of Science; 17 Resource Allocation in Downlink Multicarrier NOMA Yoshihisa Kishiyama, NTT DOCOMO, INC.; Kenichi Higuchi, Tokyo University of Science under a Fairness Constraint Estela Carmona Cejudo, H. Zhu, Jiangzhou Wang, University of 2 Joint User Association and Power Control for Area Kent Spectral Efficiency Maximization in HetNets 18 Transmission Schemes for Backscatter Aided Wireless Sylvester Boadi Aboagye, Memorial University; Ahmed Mohamed Ali Ibrahim, Carleton University; Ngatched Telex, Octavia A. Dobre, Communications on High Speed Rails Memorial University Zhongzhao Dou, South China University of Technology; Yang Liu, Beijing Institute of Aerospace Control Devices; Wenjing Zhao, 3 Low Complexity Belief Propagation based MIMO Gongpu Wang, Bo Ai, Beijing Jiaotong University; Suili Feng, South Detection with MMSE Pre-cancellation for Overloaded China University of Technology MIMO systems 19 Two-Stage Phase Noise Compensation for CFBMC- Takashi Imamura, Yukitoshi Sanada, Keio University OQAM under Insufficient Cyclic Prefix 4 Low Complexity Constellation Rotation-based SIC Long D. Le, University of Saskatchewan Detection for IM-NOMA Schemes 20 Ultra-Mini Slot Transmission for 5G+ and 6G URLLC Abdullateef Almohamad, Mazen O. Hasna, Qatar University; Saud Network Althunibat, Al-huseein Bin Talal University; Serdar Özyurt, Wonjun Kim, Byonghyo Shim, Seoul National University Electrical and Electronics Engineering, Yildirim Beyazit University; Khalid Qaraqe, TAMU Spectrum Management, Radio Access 5 Low-Complexity Factor Graph-Based Joint Channel Technology, Heterogeneous Networks II Estimation and Equalization for SEFDM Signaling 1 Joint Optimization of the Deployment and Resource Yunsi Ma, Nan Wu, Bin Li, Hua Wang, Beijing Institute of Allocation of UAVs in Vehicular Edge Computing and Technology Networks 6 Maximum Likelihood Channel Path Detection and Yuke Zheng, Bo Yang, Cailian Chen, Shanghai Jiao Tong University MMSE Channel Estimation in OTFS Systems 2 Link-Level Abstraction of IEEE 802.11ay based on Quasi- Vibhutesh Kumar Singh, Mark Flanagan, Barry Cardiff, University Deterministic Channel Model from Measurements College Dublin Neeraj Varshney, Jiayi Zhang, Jian Wang, Anuraag Bodi, Nada 7 Mitigating Cellular Interference in Uplink UAV Golmie, NIST Communications 3 Location-Based Operation Strategy for SIC-enabled D2D Ernest Tan, A.S. Madhukumar, Nanyang Technological University; Communications Rajendra Prasad Sirigina, NTU, Singapore; Anoop Kumar Krishna, Jehyun Heo, Hyunsoo Kim, University of Yonsei; Insik Jung, Yonsei Airbus Group Singapore Pte Ltd University; Joonki Kim, Samsung Electronics Co., Ltd.; Daesik 8 Multi-user Capacity of Cyclic Prefix Direct Sequence Hong, Yonsei University Spread Spectrum with Linear Detection and Precoding 4 Malicious users control and management in cognitive Brent A. Kenney, University of Utah; Arslan J. Majid, Hussein radio networks with priority queues Moradi, Idaho National Laboratory; Behrouz Farhang-Boroujeny, Samuel, Okegbile; Sunil Maharaj, University of Pretoria; Attahiru University of Utah Alfa, University of Manitoba & University of Pretoria 9 New Predistorter Architecture for Hybrid Beamforming 5 Modeling Interference to Reuse Millimeter-wave Transmitter Spectrum to In-Building Small Cells Toward 6G Alexander N. Lozhkin, Toru Maniwa, Fujitsu Ltd Rony Kumer Saha, Ph.D., Research Engr & Postdoc Fellow, Radi & 10 Non-Orthogonal Frequency-Division Multiplexing Based Spec Lab, KDDI Research, Inc. on Eigenvalue Decomposition 6 On Beam-based Channel Reservation for URLLC in Seichiroh Osaki, Tokyo University of Agriculture and Technology; Unlicensed Spectrum Takumi Ishihara, Shinya Sugiura, The University of Tokyo Chen-Chi Chang, National Central University; Sheng-Shih Wang, 11 Outage Performance of Downlink Coordinated Direct and Lunghwa University of Science and Technology; Shiann-Tsong Relay Transmission with NOMA over Nakagami-m Sheu, National Central University Fading Channels 7 Optimization of Transmission Power for NOMA in Lve Han, Nanjing University of Posts and Telecommunications; Wei- Networks with Flying Base Stations Ping Zhu, Concordia University; Lin Min, Nanjing University of Mohammadsaleh Nikooroo, Zdenek Becvar, Czech Technical Posts and Telecommunications University in Prague
18 November – 16 December 2020 Final Program 27
8 Performance Analysis and Improvement on DSRC 11 To Preempt or Not: Timely Status Update in the Presence Application for V2V Communication of Non-trivial Propagation Delay Liu Cao, Hao Yin, Lyutianyang Zhang, University of Washington; Ying Wang, Harbin Institute of Technology (Shenzhen); Shaohua Jie Hu, North Carolina State University Wu, Harbin Institute of Technology; Libo Yang, Jian Jiao, Harbin 9 Performance of Memory and File Size-Aware Caching in Institute of Technology (Shenzhen); Zhang Qinyu, Harbin Institute of Tech. D2D-enabled Small Cell HetNets Okechukwu Emmanuel Ochia, Abraham O. Fapojuwo, University of Wireless Networks: Protocols and Security II Calgary 1 Machine Learning-Based Resource Optimization for D2D 10 Reconfigurable Intelligent Surface Enhanced Cognitive Communication Underlaying Networks Radio Networks Lingting Zhu, Chonghe Liu, Jiantao Yuan, Guanding Yu, Zhejiang Jinglian He, Kaiqiang Yu, Yong Zhou, Yuanming SHI, University ShanghaiTech University 2 Non-orthogonal Multiple Access assisted Mobile Edge 11 Resource Allocation in UAV-Assisted Wireless Networks Computing via Device-to-Device Communications Using Reinforcement Learning Yuan Wu, University of Macau; Liping Qian, Jinyuan Ouyang, Phuong Luong, Mcgill University; Francois Gagnon, Ecole de Weidang Lu, Zhejiang University of Technology; Bin Lin, Dalian Technologie Superieure; Fabrice Labeau, McGill University Maritime University; Zhiguo Shi, Zhejiang University 12 Resource Management in LADNs Supporting 5G V2X 3 Novel Pilot Allocation Random Access Protocol for Communications Integrated Terrestrial-Satellite Networks Ren-Hung Hwang, National Chung-Cheng University; Faysal Liang Xu, Jian JIAO, Fei Wang, Huibin Yang, Harbin Institute of Marzuk, Marek Sikora, Piotr Chołda, AGH University of Science and Technology (Shenzhen); Shaohua Wu, Harbin Institute of Technology; Ying-Dar Lin, National Chiao Tung University Technology; Zhang Qinyu, Harbin Institute of Tech. 13 Rethinking Virtual Link Mapping in Network 4 Optimal Power Allocation for Secure Non-orthogonal Virtualization Multiple Access Transmission Khoa Nguyen, Qiao Lu, Changcheng Huang, Carleton University Weidang Lu, Weicong Wu, Liping Qian, Zhejiang University of Technology; Yuan Wu, University of Macau; Ningning Yu, Liang 14 Study on Communication Parameter Control for LPWA Huang, Zhejiang University of Technology Network using Radio Environment Monitoring Hiroaki Sudo, Kazuhiro Kosaka, Noriyuki GEJOH, Panasonic 5 Performance Evaluation of FILS in a Vehicular Corporation Delay/Disruption Tolerant Network Arata Kato, Shizuoka University; Taka Maeno, Space-Time Vehicle Cooperation and Control, Assisted and Engineering Japan, Inc.; Yasunori Owada, NICT; Goshi Sato, Autonomous Driving II Katsuhiro Temma, Toshiaki Kuri, National Institute of Information 1 DDPG-based Resource Management for MEC/UAV- and Communications Technology; Mineo Takai, Osaka Assisted Vehicular Networks University/UCLA; Susumu Ishihara, Shizuoka University Haixia Peng, Xuemin (Sherman) Shen, University of Waterloo 6 Power Optimization in Two-way AF Relaying SWIPT 2 Feedforward Filter Design for CACC with N-Vehicle based Cognitive Sensor Networks Look Ahead: A Frequency Domain Approach for Further Cheng Yang, Weidang Lu, Guoxing Huang, Liping Qian, Zhejiang Optimization of Radio Resource Usage University of Technology; Bo Li, Harbin Institute of Technology (Weihai); Yi Gong, Southern University of Science and Technology Andres Villamil, Arturo Gonzalez, Technische Universität Dresden; Norman Franchi, Gerhard Fettweis, TU Dresden 7 QoE-Aware Coordinated Caching for Adaptive Video 3 Network Anomaly Detection in Cars based on Time- Streaming in High-speed Railways Meilin Gao, Bo Ai, Yong Niu, Beijing Jiaotong University Sensitive Ingress Control Philipp Meyer, Timo Häckel, Franz Korf, Thomas Schmidt, 8 Secrecy Rate Performance of Cache-enabled Millimeter Hamburg University of Applied Sciences Wave Cellular Networks 4 Prediction-based Transmission-Control Codesign for Okechukwu Emmanuel Ochia, Ahmed F. Darwesh, Abraham O. Fapojuwo, University of Calgary Vehicle Platooning Yuying Hu, Cailian Chen, Jianping He, Bo Yang, Shanghai Jiao 9 Secure Transmission in Underlay D2DCommunications Tong University Using Optimal Relay Selection 5 Probabilistic Time-To-Collision:Correlation of Driver Majid Khoshafa, Memorial University of Newfoundland; Ngatched Gaze and Surrounding Objects Telex, Memorial University; Mohamed Hossam Ahmed, Memorial University of Newfoundland Nico Epple, University of Applied Sciences Ingolstadt 10 Security Analysis of Network-Oblivious Internet-Wide 6 Reinforcement Learning for Accident Risk-Adaptive V2X Scan for IEEE 802.11ah Enabled IoT Networking Shikhar, Yuichi Kawamoto, Nei Kato, Tohoku University Seungmo Kim, Georgia Southern University; Byung-Jun Kim, Virginia Tech 11 Smart Contract-based Protocol for Efficient Project 7 Security Threat Analysis of Automotive Infotainment Scheduling in Industrial Internet Peng Liu, Yanjun Peng, Tingting Fu, Hangzhou Dianzi University Systems Junko Takahashi, Makoto Iwamura, Masashi Tanaka, NTT Secure 12 Spatial Indexing for System-Level Evaluation of 5G Platform Laboratories Heterogeneous Cellular Networks 8 Sensor Data Integrity Verification for Autonomous Roohollah Amiri, Boise State University; Eren Balevi, The University of Texas at Austin; Jeff Andrews, University of Texas at Vehicles Using Spread 3D Dither QIM Austin; Hani Mehrpouyan, Boise State University Raghu Changalvala, Hafiz Malik, University of Michigan, Dearborn 13 TCP Congestion Control Performance on a Highway in a 9 Software Failures Prediction in Self-Driving Vehicles Vajiheh Abedi, Shiraz University; Mehrdad H. Zadeh, Kettering Live LTE Network University; Javad Dargahi, Pedram Fekri, Concordia University Mark Akselrod, Leibniz Universität Hannover; Markus Fidler, Leibniz University of Hannover 10 The integration of multiple test benches for functional 14 Throughput Optimization of Intelligent Reflecting verification of the cooperative ADAS Hyunah Kang, Hyundai Autron; JaeHoon Lim, Hyundai Autron Ltd. Surface Assisted User Cooperation in WPCNs Yuan Zheng, Suzhi Bi, Shenzhen University; Yingjun Zhang, Chinese University of Hong Kong; Hui Wang, Shenzhen University
28 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
15 Traffic Off-Loading over Uncertain Shared Spectrums 9 Gamified Approach on Participatory D2D with End-to-End Session Guarantee Communication in Cellular Networks Ruyi Xiao, Xuanheng Li, Dalian University of Technology; Miao Yu Nakayama, Tokyo University of Agriculture and Technology; Pan, University of Houston; Nan Zhao, Dalian University of Masaru, Onodera; Yoshito Tobe, Aoyama Gakuin University Technology; Fan Jiang, Xi'an University of Posts and 10 Interference Classification Using Deep Neural Networks Telecommunications; Xianbin Wang, The University of Western Jianyuan Yu, Virginia Tech; Mohammad Alhassoun, KFUPM; R. Ontario Michael Buehrer, Virginia Tech 16 Wireless D2D Network Link Scheduling based on Graph 11 Interference Management with Beamforming Utilizing Embedding Spectrum Database for Micro Operators Jingyun Fu, Ning Ma, Mingqiao Ye, Mengyuan Lee, Guanding Yu, Tetsuki Taniguchi, Takeo Fujii, The University of Electro- Zhejiang University Communications Recent Results II 12 Interweave Shared-Use Model for Dynamic Spectrum 1 Deep Learning Based Channel Estimation for Intelligent Access in Millimeter-Wave Mobile Systems for 6G Reflecting Surface Aided MISO-OFDM Systems Rony Kumer Saha, Ph.D., Research Engr & Postdoc Fellow, Radi & Shiyu Liu, Ming Lei, Ming-Min Zhao, Minjian Zhao, Zhejiang Spec Lab, KDDI Research, Inc. University 13 Iterative Hybrid Precoding and Combining for Partially- 2 Deep Neural Network based Path Loss Analysis of Connected Massive MIMO mmWave Systems Magnetic Induction Communication Systems in Lihua Pang, Wenjie Wu, Xi'an University of Science and Underwater Pipeline Technology; Yang Zhang, Xidian University; Wenrong Gong, Wentao Zhou, Korea University Minghao Shang, Anyi Wang, Xi'an University of Science and 3 Effect of Retransmissions on the Performance ofC-V2X Technology Communication for 5G 14 Joint Association, Transmission Power Allocation and Donglin Wang, Raja Sattiraju, Technical University of Positioning of Flying Base Stations Considering Limited Kaiserslautern; Anjie Qiu, Technical University Kaiserslautern; Backhaul Sanket Partani, Technische University Kaiserslautern; Hans Pavel Mach, Zdenek Becvar, Mehyar Najla, Czech Technical D.Schotten, Technical University of Kaiserslautern University in Prague 4 Energy Efficient Full-Duplex Communication Systems 15 Joint Positioning-Communications: Constant-Information with Reconfigurable Intelligent Surface Ranging for Dynamic Spectrum Access Jingwen Zhao, Chen Ming, Southeast University; Mingzhe Chen, Sharanya Srinivas, Andrew Herschfelt, Alex Chiriyath, Daniel W. Princeton University; Zhaohui Yang, King's College London; Yinlu Bliss, Arizona State University Wang, Binghao Cao, Southeast University; M, Shikh-Bahaei, King's College London 16 Lane-Change Initiation and Planning Approach for Highly Automated Driving on Freeways 5 Evaluation of opportunistic access strategies for vehicular Salar Arbabi, Shilp Dixit, University of Surrey; Ziyao Zheng, E ́cole networking over TVWS Polytechnique de l’Universite ́ de Nantes; David Oxtoby, Jaguar Adriana Arteaga, Pablo Palacios Játiva, University of Chile; Sandra Land Rover Limited; Alexandros Mouzakitis, Jaguar Land Rover; Céspedes, Cesar A. Azurdia-Meza, Universidad de Chile Saber Fallah, University of Surrey 6 Experimental evaluation of beamforming on UAVs in 17 Learning Based Trajectory Design for Low-Latency cellular systems Communication in UAV-Enabled Smart Grid Networks Tomasz Izydorczyk, Michel Massanet Ginard, Aalborg University; David Lee, SWUST; Xin Wang, Smart Grid Anhui Electric Power Simon Svendsen, Nokia Bell Labs, Aalborg, Denmark; Gilberto Research Institute Berardinelli, Preben Mogensen, Aalborg University 18 LiDAR point cloud analysis for vehicle contour estimation 7 Exploiting Fog Computing with an Adapted DBSCAN for using polynomial approximation and curvature Traffic Congestion Detection System breakdown Maycon Peixoto, Edson Motta, Adriano Maia, Mariese Conceição Gerald Joy Sequeira, Shahabaz Afraj, Technische Hochschule Alves dos Santos, UFBA; Wellington Viana Lobato Junior, Ingolstadt; Manasi Surve, Universität Siegen; Thomas Brandmeier, University of Campinas; Leandro Villas, UNICAMP Technische Hochschule Ingolstadt 8 Fully Convolutional Neural Networks for Automotive 19 LTE-V2X performance evaluation for cooperative Radar Interference Mitigation collision avoidance (CoCA) systems Ristea Nicolae Catalin, Andrei Anghel, University Politehnica of Arturo Guizar, CEA Leti; Valérian Mannoni, Federico Poli, CEA; Bucharest; Radu Tudor Ionescu, University of Bucharest Benoît Denis, CEA-Leti Minatec; Vincent Berg, CEA 20 Maximize Potential Reserved Task Scheduling for URLLC Transmission and Edge Computing Peiyuan Guan, Deng Xiaoheng, Central South University
Saturday, 21 November 2020 Airborne and Maritime Mobile Systems and 3 Energy-Awareness Dynamic Trajectory Planning for Services UAV-Enabled Data Collection in mMTC Networks 1 A Study on MIMO Interference Canceller for Reverse- Lingfeng Shen, Ning Wang, Zhengzhou University; Jun Chen, Link in HAPS Multi-Gateways Jingxin Wang, McMaster University; Xiaomin Mu, Zhengzhou University; Kon Max Wong, McMaster University Takafumi Fujii, Yoshichika Ohta, Teruya Fujii, Softbank Corp. 4 Intelligent Resource Allocation in UAV-Enabled Mobile 2 Deep Q-Network Based Dynamic Movement Strategy in a Edge Computing Networks UAV-Assisted Network Meng Wang, Harbin Institude of Technology; Shuo Shi, Harbin Xukai Zhong, Yiming Huo, Xiaodai Dong, University of Victoria; Institute of Technology; Shushi Gu, Harbin Institute of Technology Zhonghua Liang, Changan Univeristy (Shenzhen); Ning Zhang, Texas A&M University-Corpus Christi; Xuemai Gu, Harbin Institute of Technology
18 November – 16 December 2020 Final Program 29
5 MAV-DTLS toward Security Enhancement of the UAV- 4 Comparative Performance Evaluation of mmWave 5G GCS Communication NR and LTE in a Campus Scenario Lamia Chaari, ISIMS; Sana Chahbani, Digital Research Center of Miead Tehrani-Moayyed, Northeastern University; Francesco Sfax (CRNS); Jihene Rezgui, Laboratoire Recherche Informatique Restuccia, Stefano Basagni, Northeastern University, Institute for the Maisonneuve (LRIMa) Wireless Internet of Things 6 Meteorologically Introduced Impacts on Aerial Channels 5 Conformal Multi-Service Antenna Arrays: Hybrid In Situ and UAV Communications and Signal of Opportunity (SoOP) Calibration Mengan Song, Chang'an University; Yiming Huo, Tao Lu, Xiaodai Sharanya Srinivas, Daniel W. Bliss, Arizona State University Dong, University of Victoria; Zhonghua Liang, Changan Univeristy 6 Design of Antenna Configuration for Interference Control 7 Multi-agent Reinforcement Learning for Green Energy in MmWave V2V Communication Systems Powered IoT Networks with Random Access Yue Yin, Tokyo Institute of Technology; Haoze Chen, Rice Mengqi Han, Luis Arocas Del Castillo, Sami Khairy, IIT; Xuehan University; Zongdian Li, Tokyo Institute of Technology; Ryuichi Chen, Lin Cai, Illinois Institute of Technology; Bin Lin, Dalian Fukatsu, Tokyo Institue of Technology; Tao Yu, Kei Sakaguchi, Maritime University; Fen Hou, University of Macau Tokyo Institute of Technology 8 Network NOMA for Co-existence of Aerial and 7 Energy Efficient mmWave NOMA Downlink Multi-Relay Terrestrial Users System for ITSN Wee Kiat New, Universiti Teknologi Malaysia; Bruce Leow, Yizhi He, Jian JIAO, Zeqiong Chen, Harbin Institute of Technology University Teknologi Malaysia; Keivan Navaie, Lancaster (Shenzhen); Shaohua Wu, Harbin Institute of Technology; Weiqiang University; Zhiguo Ding, UMIST Wu, Shenzhen Polytechnic; Zhang Qinyu, Harbin Institute of Tech. 9 Obstacle Avoidance Algorithm Based on Human 8 EVM-based Performance Evaluation of Co-channel Experience Knowledge Interference Mitigation using Spatial Filtering for Digital Hao Jiang, Yushan Li, Xuda Ding, Jianping He, Shanghai Jiao Tong MIMO Receivers University Sajad Golabighezelahmad, Eric Klumperink, Bram Nauta, University 10 Outage Performance of HAP-UAV FSO Links with of Twente Gaussian Beam and UAV Hovering 9 Impact of UAV Rotation on MIMO Channel Space-Time Minh Q. Vu, University of Aizu, Japan; Thanh V. Pham, University Correlation of Aizu; Dang The Ngoc, Posts & Telecommunications Institute of Zhangfeng Ma, Bo Ai, Beijing Jiaotong University; Ruisi He, Beijing Technology; Anh T. Pham, University of Aizu JTU; Gongpu Wang, Zhangdui Zhong, Mi Yang, Beijing Jiaotong 11 Performance Analysis of Satellite Server Mobile Edge University; Junhong, Wang; Yujian Li, Beijing Jiaotong University Computing Architecture 10 Packet Error Rate Based Validation Method for an Taeyeoun Kim, Jihwan Choi, DGIST OpenStreetMap Geometry-Based Channel Model 12 Performance Evaluation of Aerial Relaying Systems for Stefan Zelenbaba, Austrian Institute of Technology; Benjamin Improving Secrecy in Cellular Networks Rainer, Austrian Institute of Technology GmbH; Markus Hofer, AIT Austrian Institute of Technology; Anja Dakić, Austrian Institute of Aly Sabri Abdalla, Mississippi State University; Bodong Shang, Technology; David Löschenbrand, Thomas Zemen, AIT Austrian Virginia Tech; Vuk Marojevic, Mississippi State University; Lingjia Institute of Technology Liu, Virginia Tech 13 Q-learning Based Delay Sensitive Routing Protocol for 11 Reproducing High-Speed Train Channel with the Multi- Maritime Search and Rescue Networks Probe Anechoic Chamber Method Hao Sun, Beijing University of Posts and Telecommunications; Zhen Wang, Bin Lin, Dalian Maritime University Guiming Wei, Xiang Zhang, China Academy of Information and 14 Topological optimization algorithm for HAP assisted Communications Technology; Yong Li, Beijing University of Posts multi-unmanned ships communication and Telecommunications Tingting Yang, Huapeng Cao, Zhongxun Yin, Xin Sun, Dalian Maritime University Electric Vehicles, Vehicular Electronics, and Intelligent Transportation 15 Trajectory Optimization for Large-scale UAV-Assisted 1 Alternative Approach to In Operando Impedance RSUs in V2I Communication Estimation in Vehicular Power Networks Ribao Cai, Yijia Feng, Dazhi He, Yin Xu, Shanghai Jiao Tong Marian Patrik Felder, Jürgen Götze, TU Dortmund University University; Yu Zhang, Wei Xie, Academy of Broadcasting Science 2 An LS-SVM control method for path following of Antenna Systems, Propagation, and RF Design autonomous ground vehicles 1 60 GHz Multipath Propagation Analysis and Inference Qian Shi, Hui Zhang, Beihang University for an Indoor Scenario Sarankumar Balakrishnan, University at Buffalo; Syed Hashim Ali 3 AutoC2X: Open-source software to realize V2X Shah, New York University; Liangxiao Xin, Sony Corporation of cooperative perception among autonomous vehicles America; Mohamed Abouelseoud, Sony R&D Center US, San Jose Manabu Tsukada, the University of Tokyo; Takaharu Oi, Akihide Ito, lab; Kazuyuki Sakoda, Sony R&D Center Japan, Tokyo lab; Ken Mai Hirata, Hiroshi Esaki, The University of Tokyo Tanaka, Sony Corporation; Christopher Slezak, Sundeep Rangan, 4 Cost-efficient UAV Deployment for Content Fetching in Shivendra Panwar, New York University Cellular D2D Systems 2 A Three-Dimensional Geometry-based Stochastic Model Lei Luo, Chongqing University of Posts and Telecommunications; for Air-to-Air UAV Channels Rong Chai, CQUPT Yan Zhang, Beijing Institute of Technology; Yuxuan Zhou, Carnegie 5 Deep Spatio-Temporal Residual Networks for Connected Mellon University; Zijie Ji, Kun Lin, Zunwen He, Beijing Institute of Urban Vehicular Traffic Prediction Technology Hanlin Wu, Haibo Zhou, Nanjing University; Jiwei Zhao, NanJing 3 Channel Modeling Algorithm for TVWS-based IEEE University; Yunting Xu, Ting Ma, Yiyang Bian, Nanjing University 802.22 WRAN System in Rural Areas 6 EV Charging Recommendation Concerning Preemptive Ruiting Ouyang, Kyoto University; Takeshi Matsumura, National Service and Charging Urgency Policy Institute of Information and Communications Technology; Keiichi Shuohan Liu, Yue Cao, Wenjie Ruan, Prof Qiang Ni, Lancaster Mizutani, Hiroshi Harada, Kyoto University University; Michele Nati, IOTA Foundation; Chakkaphong Suthaputchakun, Bangkok University
30 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
7 Fast Bootstrapping for Reinforcement Learning-Based 9 Mobile Energy Resource Allocation for Distribution Traffic Signal Control Systems Using Queueing Theory System Resilience Against Earthquakes Maxime Tréca, Institut Vedecom; Julian Garbiso, Vedecom; Wenlong Shi, Peng Zhuang, Hao Liang, University of Alberta Dominique Barth, Université de Versailles SQY; Mahdi Zargayouna, 10 On the Performance of Code-Domain NOMA for SIN Université Gustave-Eiffel with Superimposed Pilot Scheme 8 Joint Offloading and Resource Allocation for Scalable Junliang Zhou, Jian JIAO, Harbin Institute of Technology Vehicular Edge Computing (Shenzhen); Weizhi Wang, Peng Cheng Laboratory; Tao Yang, Wei Wu, Harbin Institute of Technology; Qie Wang, Harbin Institude Harbin Institute of Technology (Shenzhen); Shaohua Wu, Harbin of Technology; Wu Xuanli, Harbin Institute of Technology; Ning Institute of Technology; Zhang Qinyu, Harbin Institute of Tech. Zhang, Texas A & M University-Corpus Christi 11 PBFT-based ordering service for IoT domains 9 Looking into the Path Future: Extending CAMs for Jelena Misic, Vojislav Misic, Ryerson University; Xiaolin Chang, Cooperative Event Handling Beijing Jiaotong University; Haytham Qushtom, Ryerson University, Tobias Renzler, Michael Stolz, Daniel Watzenig, Graz University of Toronto, Canada Technology 12 Performance Analysis for Cache-enabled Cellular 10 Modifying Network Guided Vehicle for Repeatable Networks with Cooperative Transmission EcoCAR ACC Energy Testing Tianming Feng, Shuo Shi, Harbin Institute of Technology; Shushi Trevor Crain, Argonne National Laboratory Gu, Harbin Institute of Technology (Shenzhen); Ning Zhang, Texas A & M University-Corpus Christi; Wei Xiang, James Cook 11 Multi-agent Optimization for Frequency Regulation University; Xuemai Gu, Harbin Institute of Technology through Vehicle-to-Grid Applications Mohamed El-Hendawi, Zhanle Wang, University of Regina 13 Reliability Optimization of End-to-End Access Process of Railway Mission Critical Video Service 12 Online Re-routing for Vehicle Breakdown in Residential Yaojia Yu, Wenyi Jiang, Bin Sun, Qingqing Wang, Jianwen Ding, Waste Collection Beijing Jiaotong University Muhilan, Violet R. Syrotiuk, Arizona State University IoV, IoT, M2M, Sensor Networks, and Ad-Hoc 13 Regenerative Braking Control with Gear Downshifting for Energy Efficiency and Motion Stability Improvement Networking III of an Electrical-four-wheel-drive Hybrid Vehicle 1 Momentum-Based Online Cost Minimization for Task Chunming Li, Zhibin Shuai, Jiangtao Gai, Guangming Zhou, Offloading in NOMA-Aided MEC Networks Yaoheng Li, Yi Yuan, China North Vehicle Research Institute Zewei Jing, Qinghai Yang, Xidian University; Meng Qin, Peking University; Kyung Sup Kwak, Inha University 14 Requirements on Delay of VRU Context Detection for Cooperative Collision Avoidance 2 Multigroup Multicast Transmission via Intelligent Michel Morold, University of Kassel; Quang-Huy Nguyen, Reflecting Surface Paderborn University; Marek Bachmann, Klaus David, University of Ding Li, Qiaochu An, Yuanming SHI, Yong Zhou, ShanghaiTech Kassel; Falko Dressler, TU Berlin University 15 Toward Contextual and Personalized Interior Experience 3 Multi-Objective Optimization Modeling of Clustering- in a Vehicle: Predictive Preconditioning Based Agricultural Internet of Things Alvin Chin, Jilei Tian, BMW Technology Corporation; Johann P. Emmanuel Effah, Worcester Polytechnic Institute; Ousmane Thiare, Prenninger, BMW Group Gaston Berger University, Senegal; Alexander Wyglinsky, Worcester Polytechnic Institute, MA Future Trends and Emerging Technologies 4 Noisy Demixing: Convex Relaxation Meets Nonconvex 1 A DDoS attack detection based on deep learning in Optimization software-defined Internet of things Shaoming Huang, Shanghaitech University; Yong Zhou, Yuanming Jiushuang Wang, Ying Liu, Wei Su, Huifen Feng, Beijing Jiaotong SHI, ShanghaiTech University University 5 Nondeterministic Mobility based Incentive Mechanism 2 A Virtual Coupling Approach based on Event-triggering for Efficient Data Collection in Crowdsensing Control for CBTC systems under Jamming Attacks Guoying Zhang, Fen Hou, University of Macau; Lin Gao, Harbin Shuomei Ma, Bing Bu, Hongwei Wang, Beijing Jiaotong University Institute of Technology, Shenzhen; Guanghua Yang, JiNan 3 Adaptive Task Allocation for Multi-agent Cooperation University; Lin Cai, Illinois Institute of Technology with Unknown Capabilities 6 On the Feasibility of In-Device Multiplexed Unlicensed Jialun Li, Yushan Li, Shanghai Jiao Tong University; Yulai Weng, D2D Communications University of Pennsylvania; Jianping He, Shanghai Jiao Tong Vishnu Rajendran, Gautham Prasad, Lutz Lampe, University of University British Columbia; Gus Vos, Sierra Wireless Inc. 4 An Evolutionary Game Assisted Spectrum Sharing 7 Optimal Status Update in IoT Systems: An Age Blockchain Framework for Internet of Vehicles ofInformation Violation Probability Perspective Dou Hu, Haibo Zhou, Ting Ma, Nanjing University; Kai Yu, NanJing Limei Hu, Zhengchuan Chen, Chongqing University University; Nan Cheng, Xidian University 8 Physical Context-Aware Communication Control Method 5 Antenna Location Design for Line-of-Sight for Efficient AGV Operation Communications Kosei Kobayashi, Takanori Iwai, NEC Corporation Jangwook Moon, Samsung; Hongbing Cheng, Samsung Electronics; Kee-Bong Song, Samsung Semiconductors Inc. 9 Piggyback-Based Distributed MAC Optimization for V2X 6 Average Reward Reinforcement Learning for Optimal Sidelink Communications Fei Peng, Zhiyuan Jiang, Shunqing Zhang, shugong xu, Shanghai On-route Charging of Electric Buses University Wenzhuo Chen, Hao Liang, University of Alberta 10 Preliminary Performance Benchmarking of OLSRd2 7 Design of 5G Wireless Communications in the High-speed Using Emulated TDMA MANETs and an ODR Railway Scenario Yann Maret, Jean-Frederic Wagen, University of Applied Sciences of Baofeng Duan, Cuiran Li, Jianli Xie, Lanzhou Jiaotong University Western Switzerland 8 Edge-Cloud Resource Trade Collaboration scheme in Mobile Edge Computing WangWei, Central South University, China; Yongmin Zhang, Central South University
18 November – 16 December 2020 Final Program 31
11 Scalable Modulation based Computation Offloading in 11 Cooperative Validation of CAM Position Information Vehicular Edge Computing System Using C-V2X Wenjie Li, Beijing Jiaotong University; Ning Zhang, Texas A & M Fabian Eckermann, Philipp Gorczak, Christian Wietfeld, TU University-Corpus Christi; Qiuyan Liu, China United Network Dortmund University Communications Corporation Limited; Weiyang Feng, Ruirui Ning, 12 Cross-Layer Interference Modeling and Performance Siyu Lin, Beijing Jiaotong University Analysis in FMCW Radar Multiple Access Network 12 Simulation Model of Bluetooth Passive Scanning for Sian Jin, Sumit, Roy, University of Washington Vehicular Traffic Monitoring 13 Data-Correlation-Based Sensor Localization for Safa Boudabous, Julian Garbiso, Vedecom; Shabbir Ali, Institut Vedecom; Jun ZHANG, Houda LABIOD, Télécom ParisTech Environment Sensing with Non-Geotagged Data Shino Shiraki, Yuto Ohashi, Shigeo Shioda, Chiba University 13 SnB: Reduction of Consecutive Message Reception 14 Proposal for a Compressive Measurement-Based Acoustic Failures in C-V2X Communications Taeju Park, Kang G. Shin, University of Michigan Vehicle Detection and Identification System Billy Dawton, Shigemi Ishida, Yuki Hori, Masato Uchino, Yutaka 14 Three-side Dynamic Task Offloading for Smart Roads Arakawa, Kyushu University Enabled Vehicular Edge Computing 15 Slow-Time FDA-MIMO Radar Space-Time Adaptive Yunpeng Wang, Quyuan Luo, Changle Li, Zhao Liu, Yilong Hui, Xidian University Processing Cai Wen, Lin Wang, Northwest University; Yan Huang, Southeast 15 Wake-up Control for Wireless Sensor Networks University; Guimei Zheng, Air Force Engineering University Collecting top-k Data with Temporal Correlation 16 Synchronized Uplink Time of Arrival Localization: A Junya Shiraishi, Hiroyuki Yomo, Kansai University Measurement-driven Evaluation Positioning, Navigation and Sensing Keerthi Priya Dasala, Rice University; Mike MacDonald, Dragan 1 2-D high precision DOA estimation based on SVM Samardzija, Bell Labs, Nokia yulonggao, Chen Wang, wei wang, Xu Bai, Harbin Institute of 17 Vehicular Dead Reckoning Based on Machine Learning Technology and Map Matching 2 5G Communication Signal Based Localization with a Lucas de Carvalho Gomes, Federal University of Rio de Janeiro; Luis Single Base Station Henrique M K Costa, UFRJ Yiwen Li, Zaichen Zhang, Liang Wu, Southeast University Recent Results III 3 A Descriptor Enhanced Recurrent Neural Network For 1 Mitigation of Human EMF Exposure in a Cellular Indoor Localization Wireless System Ahmed Elmoogy, Xiaodai Dong, Tao Lu, University of Victoria; Imtiaz Nasim, Florida International University; Seungmo Kim, Robert Westendorp, Kishore Reddy, Fortinet Georgia Southern University 4 A Novel Gain Control Method Based On Extremum 2 Multipath Routing with Erasure Coding in Underwater Envelope For High Speed Array GPR Delay Tolerant Sensor Networks Xu Bai, XueRong Luo, Shizeng Guo, Long Wang, Hao Chen, Zunli Kou, Chan Wang, Ming Lei, Zhejiang University Hongtao Mi, Lidong Liu, Mingjie Ji, yulonggao, Harbin Institute of Technology 3 Multi-user MIMO using ZF-based Multiplexing Coordinated with User-wise Spatial Diversity 5 An Improved Particle Filter for UAV Passive Tracking Fumiyuki Adachi, Ryo Takahashi, Tohoku University Based on RSS Jun Gao, Hui Zhao, Beijing University of Posts and 4 New Fast Nodes for 3X3 Kernel Polar Codes Telecommunications Maryam Haghighi Ardakani, University of Alberta; Muhammad Hanif, Thompson Rivers University; Masoud Ardakani, Chintha 6 An over-the-air CFO-assisted synchronization algorithm Tellambura, University of Alberta for TDOA-based localization systems 5 Optimal Coverage Analysis of a Cellular Device-to-Device Zohreh Ebadi, Cedric Hannotier, Universite libre de Bruxelles; Heidi Steendam, Ghent University; Francois Horlin, Universite libre de Communication Network Bruxelles; François Quitin, Université Libre de Bruxelles Darsi Jaswanth, Soumya Prakash Dash, Indian Institute of Technology Bhubaneswar; Sandeep Joshi, Samsung R&D Institute 7 Automatic Device-Location Association based on Bangalore, India Received Signal Strength Measurements 6 Optimum Sensor Value Transmission Scheduling for Yulong Wang, Beijing University of Posts and Telecommunications, CSIRO; Shenghong Li, CSIRO, Marsfield, Australia; Wei Ni, Linear Wireless Networked Control Systems CSIRO; David Abbott, Mark Johnson, CSIRO, Marsfield, Australia; Kilian Kiekenap, Anja Klein, TU Darmstadt Guangyu Pei, Boeing, Seattle, USA; Mark Hedley, CSIRO, 7 PC-Signal-Based PAPR Reduction Using Null Space in Marsfield, Australia MIMO Channel for MIMO-OFDM Signals under 8 Beam AoD-based Indoor Positioning for 60 GHz Frequency-Selective Fading Channel MmWave System Leon Yamaguchi, Tokyo University of Science; Nobuhide Nonaka, Zhong-Ting Tsai, National Chiao Tung University; Li-Hsiang Shen, NTT DOCOMO, INC.; Kenichi Higuchi, Tokyo University of National Chiao Tung University (NCTU); Kai-Ten Feng, National Science Chiao Tung University 8 Performance Analysis of DF based Mixed Triple Hop RF- 9 Communication-Radar Integrated System Using 5G FSO-UWOC Co-operative System OFDM Signal and Mismatched Filter Reception PALLAB SARMA, Indian Institute of Information Tecchnology Hayato Watabe, University of Electro-Communications; Tomoki Guwahati; Rima Deka, Indian Institute of Information Technology Abe, Yasushi Yamao, The University of Electro-Communications Guwahati; Sanya Anees, Indian Institute of Information Tecchnology Guwahati 10 Cooperative LIDAR Object Detection via Feature Sharing in DeepNetworks 9 Performance evaluation for co-channel coexistence Ehsan Emad Marvasti, Arash Raftari, Amir Emad Marvasti, Yaser P. between ITS-G5 and LTE-V2X Fallah, University of Central Florida; Rui Guo, Toyota Motors North Pierre Roux, Valérian Mannoni, CEA America; Hongsheng Lu, TOYOTA InfoTechnology Center USA
32 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
10 Post-Reception Compensation Performance of Blind 5 Reflecting the Light: Energy Efficient Visible Light Nonlinear Compensator with Equalizer against Memory Communication with Reconfigurable Intelligent Surface Nonlinear Distortion Binghao Cao, Chen Ming, Southeast University; Zhaohui Yang, Hiroki Ito, Takeo Fujii, Yasushi Yamao, The University of Electro- King's College London; Minghui Zhang, Jingwen Zhao, Southeast Communications University; Mingzhe Chen, Princeton University 11 Practical Evaluation of LoRa under Co-Technology 6 Scalability Analysis of Context-Aware Multi-RAT Car-to- Interference Cloud Communication Tallal El-Shabrawy, The German University of Cairo; Phoebe Johannes Güldenring, Christian Wietfeld, TU Dortmund University Edward, Mohamed ashour, German University in Cairo; Joerg 7 Simplified Performance Analysis of OWC System Over Robert, FAU Erlangen-Nuernberg Atmospheric Turbulence with Pointing Error Recent Results IV Kartik Wardhan, Syed Mohammad Zafaruddin, BITS Pilani 1 Preamble-Based Packet Detection in Wi-Fi:A Deep 8 Spectrum sharing between RLANs and Fixed Satellite Learning Approach Services in the 6 GHz band Vukan Ninkovic, Dejan Vukobratovic, University of Novi Sad; Nadia Yoza-Mitsuishi, Peter Mathys, University of Colorado Boulder Aleksandar Valka, Dejan Dumic, Methods2Business 9 UAV-based FSO Systems using SC-QAM Signaling over 2 Preliminary Performance Baseline Testing for DSRC and Fading Channels with Misalignment C-V2X Thang Nguyen, Thanh V. Pham, University of Aizu; Dang The Ngoc, Anjan Rayamajhi, Abey Yoseph, Animesh Balse, Zhitong Huang, Posts & Telecommunications Institute of Technology; Anh T. Pham, Edward M. Leslie, Leidos Inc University of Aizu 3 Quasi-Constant-Amplitude OFDM for Wireless 10 User Group Selection Method in Multiuser MIMO- Communication Systems OFDM Transmission with Adaptive PAPR Reduction Yuyuan CHANG, Kazuhiko Fukawa, Tokyo Institute of Technology Using Null Space in MIMO Channel 4 Recent Results on Proportional Fair Scheduling for Shyunsei Shin, Tokyo University of Science; Nobuhide Nonaka, mmWave-based Industrial Wireless Networks NTT DOCOMO, INC.; Kenichi Higuchi, Tokyo University of Jiteng Ma, University of Bristol; Adnan Aijaz, Toshiba Research Science Europe Ltd; Mark Beach, University of Bristol
Workshops W1 - Machine Learning for Sensing, Communication and Networking in IoT Session 1 Session 2 Welcome Welcome Waleed Ejaz, Thompson Rivers University; Shree Krishna Sharm, Waleed Ejaz, Thompson Rivers University; Shree Krishna Sharm, University of Luxembourg University of Luxembourg 1 Semi-Supervised Deep Learning Based Wireless 1 A Self Organised Workload Classification and Scheduling Interference Identification for IIoT Networks Approach in IoT-Edge-Cloud Ecosystem Jiajia Huang, Institute for Infocomm Research, A*STAR Research Amritpal Singh, Chandigarh University; Gagangeet Singh Aujla, Entities Newcastle University; Rasmeet Singh Bali, Chandigarh University; 2 Uncertainty-aware RAN Slicing via Machine Learning Prabhjot Kaur Chahal, Thapar Institute of Engineering and Technology; Maninderpal Singh, Chandigarh University Predictions in Next-Generation Networks Raouf Abozariba, Birmingham City University; Muhammad Kamran 2 Energy-Efficient Multihop Routing Framework for NAEEM, Solent University; Md Asaduzzaman, Staffordshire Cluster-based Agricultural Internet of Things (CA-IoT) University; Mohammed N. Patwary, Birmingham City University Emmanuel Effah, Worcester Polytechnic Institute 3 Estimation of Missing Data in Intelligent Transportation 3 Multi-band sub-GHz technology recognition on NVIDIA's System Jetson Nano Bahareh Najafi, Saeideh Parsaeefard, Alberto Leon-Garcia, Jaron Fontaine, Adnan Shahid, Robbe Elsas, Amina Seferagic, University of Toronto University of Ghent; Ingrid Moerman, Ghent University - imec; Eli 4 Deep Learning-Assisted Detection of PUE and Jamming De Poorter, University of Ghent Attacks in Cognitive Radio Systems 4 A Fingerprint Localization Method in Collocated Massive Mehmet Ali Aygül, Haji Furqan Madni, Mahmoud Nazzal, Istanbul MIMO-OFDM Systems Using Clustering and Gaussian Medipol University; Huseyin Arslan, University of South Florida Process Regression Closing Remarks Seyedeh Samira Moosavi, Paul Fortier, Laval University Waleed Ejaz, Thompson Rivers University; Shree Krishna Sharm, Closing Remarks University of Luxembourg Waleed Ejaz, Thompson Rivers University; Shree Krishna Sharm, University of Luxembourg
W2 - The 2nd Workshop on 5G and Beyond Technologies for Ultra-Dense Environments Session 1 Welcome Keynote: Dense Spectrum Utilization with Spectrum Haesik Kim, VTT; Kenta Umebayashi, Tokyo University of Database for 5G Agriculture and Technology Takeo Fujii, The University of Electro-Communications
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Session 2 2 Experimental Verification of Shadowing Classification for 1 Comparison Study of RF Beamforming Schemes in Radio Map Hybrid Precoding for Cell-free mmWave massive MIMO Keita Katagiri, The University of Electro-Communications; Koya UDN System Sato, Tokyo University of Science; Kei Inage, Tokyo Metropolitan Seung-Eun Hong, Electronics and Telecommunications Research College of Industrial Technology; Takeo Fujii, The University of Institute Electro-Communications 2 Design of Millimeter-wave UAV Base Station for Access 3 Joint Multilayered User Clustering and Scheduling for 5G Link Advanced Ultra-dense RAN Masanori Ozasa, Jin Nakazato, Kousuke Hirata, Khanh Tran Gia, Kei Ryo Takahashi, Hidenori Matsuo, Fumiyuki Adachi, Tohoku Sakaguchi, Tokyo Institute of Technology University 3 Hybrid Millimeter-Wave Massive MIMO Systems with 4 Contention-based Grant-free Transmission with Low CSI Overhead and Few-Bit DACs/ADCs Independent Multi-pilot Scheme Asil Koc, Tho Le-Ngoc, McGill University Zhifeng Yuan, Weimin Li, Li Zhigang, Yihua Ma, Yuzhou HU, ZTE Corporation 4 On Optimizing the Secrecy Performance of RIS-Assisted Cooperative Networks Session 3 Abdullateef Almohamad, Ayman Al-Kababji, Anas Tahir, Tamer Closing Remarks Khattab, Mazen O. Hasna, Qatar University Haesik Kim, VTT; Kenta Umebayashi, Tokyo University of Agriculture and Technology Session 3 1 A Theoretical Framework Toward Realizing Spectral and Energy Efficiencies of 6G Mobile Networks Rony Kumer Saha, KDDI Research, Inc.
W3 - Multi-Sensor Positioning and Navigation for Connected & Autonomous Vehicles Session 1 Session 3 1 Welcome 1 Generalizable Sequential Camera Pose Learning Using Aboelmagd Noureldin, Royal Military College of Canada; Amr El- Surf Enhanced 3D CNN Wakeel, Queen’s University/RMCC Ahmed Elmoogy, Xiaodai Dong, Tao Lu, University of Victoria; 2 Keynote 1 Robert Westendorp, Kishore Reddy, Fortinet Naser El-Sheimy, University of Calgary 2 Linear-PoseNet: A Real-Time Camera Pose Estimation 3 Keynote 2 System Using Linear Regression and Principal Rakesh Kumar, General Motors Component Analysis Ahmed Elmoogy, Xiaodai Dong, Tao Lu, University of Victoria; Session 2 Robert Westendorp, Kishore Reddy, Fortinet 1 A Quaternion Based Error State Kalman Filter for Attitude Estimation Using Low-cost MEMS MARG 3 Robust RGB-D SLAM for Dynamic Environments Based Sensors on YOLOv4 Hanxiao Rong, Harbin Engineering University; Alex Ramirez- Wei Ding, University of Calgary Serrano, University of Calgary; Lianwu Guan, Harbin Engineering 2 Performance Analysis of MEMS-based RISS/PPP University; Xiaodan Cong, Heilongjiang Academy of Sciences Integrated Positioning for Land Vehicles 4 Visual Odometry/Inertial Integration for Enhanced Land Mohamed Elsheikh, University of Calgary; Aboelmagd Noureldin, Queen’s University; N.El-Sheimy, University of Calgary; Michael J. Vehicle Navigation in GNSS Denied Environment Abanob Salib, Mohamed Moussa, Adel Moussa, N.El-Sheimy, Korenberg, Queen's University University of Calgary 3 Integration of Electronic Scanning Radars with Inertial Technology for Seamless Positioning in challenging GNSS Session 4 Environments 1 Particle Filter Based Localization of Access Points Using Marwan A. Rashed, Queen’s University; Mohamed Elhabiby, Public Direction of Arrival on Mobile Robots Works Department, Ain Shams University; Umar Iqbal, Mississippi Ravi Parashar, Ramviyas Parasuraman, University of Georgia State University; Michael J. Korenberg, Queen's University; 2 Testing Vehicle-to-Vehicle Relative Position and Attitude Aboelmagd Noureldin, Royal Military College, Canada Estimation using Multiple UWB Ranging 4 Wheel-based Aiding of Low-cost IMU for Land Vehicle Ehab Ghanem, University of British Columbia - Okanagan; Kyle Navigation in GNSS Challenging Environment O'Keefe, University of Calgary; Richard Klukas, University of Mohamed Moussa, Adel Moussa, University of Calgary; M. British Columbia - Okanagan Elhabiby, Public Works Department Ain Shams University Cairo, 3 Mobility Models and the Performance of Location-based Egypt; N.El-Sheimy, Department of Geomatics University of Calgary Routing in VANETs 5 A Seamless Indoor and Outdoor Low-cost Integrated Waheeda Jabbar, Robert Malaney, University of New South Wales Navigation System Based on LIDAR/GPS/INS 4 Intersection Mobility for Polaris Car Ningbo Li, Lianwu Guan, Yanbin Gao, Harbin Engineering Amna Mazen, Mohan Krishnan, Mariam Faied, Utayba Mohammed, University, China Mark Paulik, University of Detroit Mercy Session 5 Closing Remarks Aboelmagd Noureldin, Royal Military College of Canada; Amr El- Wakeel, Queen’s University/RMCC
34 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
W4 - Intelligent Communication Network Technologies (ICNET2020) Session 1 Sciences and Technology (NUST), Pakistan; Syed Ali Hassan, Welcome National University of Sciences and Technology; Sobia Jangsher, Syed Hassan Ahmed, JMA Wireless; Muhammad Toaha Raza Khan, Institute of Space Technology, Islamabad, Pakistan Kyungpook National University 4 Efficient Mode Selection for D2D Communication in Keynote Presentation Industrial IoT Networks Muhammad Toaha Raza Khan, Kyungpook National University Furqan Jameel, Muhammad Usman Sheikh, Aalto University; Riku Jäntti, Department of Communications and Networking, Aalto Session 1 University; Muhammad Ikram Ashraf, Ericsson Research, Finland; 1 Adaptive Sensor Data Transmission Scheduling Scheme Johan Torsner, Ericsson Finland for Smart Home Networks 5 Intelligent Target Coverage in Wireless Sensor Networks YongTak Yoon, JangSoo Lee, JinHo Lee, Kyungpook National with Adaptive Sensors University; Kim Beomjoon, Yalew Zelalem Jembre, Keimyung Junaid Akram, School of Computer Science, The University of University Sydney, Aus; Athman Bouguettay, School of Computer Science, The 2 An End-to-end Intelligent Network Resource Allocation University of Sydney, Australia; Haider Rizvi, Department of in IoV: A Machine Learning Approach Computer Science, Bahria College, Islamabad, Pakistan; Malik Afaq Muhammad, Talha Ahmed Khan, Khizar Abbas, Wang-Cheol Muhammad Saad, Kyungpook National University; Dongkyun Kim, Song, Jeju National University Kyungpook National University, South Korea 3 BLOCK-ML: Blockchain and Machine Learning for Session 3 UAV-BSs Deployment Closing Remarks Asad Aftab, National University of Sciences and Technology Syed Hassan Ahmed, JMA Wireless; Muhammad Toaha Raza Khan, (NUST), Pakistan; Nouman Ashraf, TSSG, Waterford Institute of Kyungpook National University Technology; Hassaan Khaliq Qureshi, National University of
W5 - Technology and Standardization Evolution for 5G New Radio Session 1 Session 4 1 Welcome 1 TDOA Localization Scheme with NLOS Mitigation Peiying Zhu, Huawei Technologies; Halim Yanikomeroglu, Carleton Wuyang Jiang, Baogang Ding, Shanghai University of Engineering University; Ivo Maljevic, TELUS / University of Toronto; Jiyong Science Pang, Shaobo Wang, Huawei Technologies Co. Ltd. 2 Strategy of Relay Selection and Cooperative Jammer 2 Keynote Presentation Beamforming in Physical Layer Security Vincent Wong, University of British Columbia Ming Zhang, Yong Shang, Yaohuan Zhao, Peking University, China Session 2 3 Dynamic NOMA/OMA for V2X Networks with UAV 1 5G Resource scheduling for Low-latency Communication: Relaying a Reinforcement Learning Approach Omid Abbasi, Sahand University of Technology; Halim Qian Huang, École de technologie supérieure; Xianzhong Xie, Yanikomeroglu, Carleton University; Afshin Ebrahimi, Sahand Chongqing University of Posts and Telecommunications; Bo Rong, University of Technology; Nader Mokari, Tarbiat Modares Communications Research Centre Canada; Kadoch Michel, Ecole de University; Mohamed Alzenad, Huawei Canada Co., Ltd technologie superieure 4 GNC-MAC: Grouping and Network Coding-assisted 2 Deep Learning Based Equalizer for MIMO-OFDM MAC for Reliable Group-casting in V2X Systems with Insufficient Cyclic Prefix Yue Li, Hamed Mosavat-Jahromi, Lin Cai, University of Victoria; Yan Sun, Huawei Technology; Chao Wang, Huawei Technologies; Lei Lu, Huawei Technologies Co., LTD Huan Cai, Southeast University; Chunming Zhao, National Mobile 5 Multi-functional Coexistence of Radar-Sensing and Communications Research Lab., Southeast University; Yiqun Wu, Communication Waveforms Yan Chen, Huawei Mehmet Mert Sahin, Huseyin Arslan, University of South Florida 3 Enabling Massive Access of IoT by Superposition Bloom Session 5 Filter and Compressed Sensing Zhe Luo, Fan Wang, Huawei Technologies; Mengying Ding, Yan Keynote Presentation Chen, Huawei Jianglei Ma, Huawei Technologies 4 Polar Coding and Sparse Spreading for Massive Session 6 Unsourced Random Access 1 An Enhanced Discontinuous Reception Mechanism for Mengfan Zheng, Imperial College London; Yongpeng Wu, Shanghai Power Saving in 5G Jiaotong University; Wenjun Zhang, Shanghai Jiao Tong University Feng Yi, Yuting Ji, Zeli Lao, Jiaheng Wang, Southeast University 5 Study of AI based CSI feedback under the 3GPP channel 2 A Countrywide Licensed Full Spectrum Allocation model Method for Millimeter-Wave Mobile Systems for 6G Wenqiang Tian, Jiejiao Tian, Yingpei Huang, OPPO; Jiajia Guo, Rony Kumer Saha, Ph.D., Research Engr & Postdoc Fellow, Radi & Southeast University; Yun Fang, Wenhong Chen, OPPO Research Spec Lab, KDDI Research, Inc. Institute, Beijing, China.; Shi Jin, Southern University; Hao Lin, 3 Data Driven Network Slicing from Core to RAN for 5G OPPO R&D, France; Jia Shen, OPPO Broadcasting Services Session 3 Ao Yu, École de technologie supérieure; Kadoch Michel, Ecole de Keynote Presentation technologie superieure; Bo Rong, Communications Research Centre Ivo Maljevic, TELUS / University of Toronto Canada; Mohamed Cheriet, École de technologie supérieure
18 November – 16 December 2020 Final Program 35
4 Rate-Splitting Multiple Access: A New Frontier for the Session 7 PHY Layer of 6G 1 Closing Remarks Onur Dizdar, Yijie Mao, Imperial College London; Wei Han, Peiying Zhu, Huawei Technologies; Halim Yanikomeroglu, Carleton Huawei, Shanghai; Bruno Clerckx, Imperial University; Ivo Maljevic, TELUS / University of Toronto; Jiyong 5 Radio Interoperability in 5G and 6G Multiradio Base Pang, Shaobo Wang, Huawei Technologies Co. Ltd. Station Marko Leinonen, Markku Jokinen, Nuutti Tervo, Olli Kursu, Aarno Pärssinen, University of Oulu
W6 - Network-assisted Collaborative Automated Driving Session 1 Franke, Joynext; Michael Philipp, NXP; Michael Klöppel-Gersdorf, 1 Welcome Fraunhofer IVI; Mathias Haberjahn, Joynext; Erik Gruschka, IAV; Hongsheng Lu, Rui Guo, Toyota Motor North America, InfoTech Gerhard Fettweis, TU Dresden Labs 3 Joint Optimal Relay Selection and Power Control for 2 W6 Keynote - Cooperative Perception On Edge Reliable Broadcast Communication in Platoon Qing Yang, University of North Texas Qingji Wen, Binjie Hu, South China University of Technology Session 2 4 OrbWeaver: Towards Comparable High-Load V2X 1 Distributed Cooperative Localization Framework via Simulations Consensus Optimization Keno Garlichs, Alexander Willecke, Andreas-Christian Hagau, Lars Wolf, Technische Universität Braunschweig Mahmoud Ashour, Pennsylvania State University; Ahmed Hamdi Sakr, Toyota Motor North America R&D; Rui Guo, Toyota Motors Session 3 North America 1 Closing Remarks 2 IVS-KOM: A Reference Platform for Heterogeneous ITS Hongsheng Lu, Rui Guo, Toyota Motor North America, InfoTech Communications Labs Richard Jacob, TU Dresden; Matthias Gay, Fraunhofer IVI; Markus Dod, Sven Lorenz, MUGLER AG; Alexander Jungmann, IAV; Lars
W8 - IEEE Vehicular Technology Society Workshop on Urban Air Mobility Session 1 2 Efficient UAV Placement Strategy for Guaranteed QoS 1 Welcome Demand Kamesh Nameduri, University of North Texas Kirtan Gopal Panda, Shrayan Das, IIT kharagpur; Debarati Sen, Indian Institute of Technology Kharagpur 2 Keynote 1: Paths to Autonomous Vehicle Operations for Urban Air Mobility 3 Multi-UAV Placement Strategy for Disaster-Resilient Ella Atkins, University of Michigan Communication Network Mansi Peer, Indraprastha Institute of Information Technology, Delhi; 3 Machine Learning-Assisted UAV Operations with UTM: Vivek Bohara, IIIT-Delhi; Anand Srivastava, IIIT DELHI Requirements, Challenges, and Solutions Aly Sabri Abdalla, Vuk Marojevic, Mississippi State University Session 3 4 Hybrid Aerial Underwater Robotic System (HAUCS): the 1 Keynote 3 Philip Hall, RelmaTech Inc. Initial Instruments Development and Deployment Bing Ouyang, Paul Wills, Yanjun Li, Casey Den Ouden, Florida 2 Determining and communicating weather risk in the new Atlantic University drone economy Apoorva Bajaj, Brenda Philips, Eric Lyons, David Westbrook, Session 2 Michael Zink, UMass Amherst / CASA Engineering Research Center 1 Keynote 2: Towards a Seamless Integration of Drones in Beyond 5G Wireless Networks 3 A Path from Device-to-Device to UAV-to-UAV Walid Saad, Virginia Tech Communications Varaprasad Karamchedu 4 W8 Closing Remarks Kamesh Nameduri, University of North Texas
W9 - Real-time data processing in Industrial and IoT Applications Session 1 2 NRCS-CE: A Noise-Resistance UWB Channel Estimation 1 Welcome Method for WSN and IoT Applications Abdellah Chehri, University of Quebec – UQAC; Gwanggil Mingyang Wu, Harbin Institute of Technology Jeon,Incheon National University; Ahmad Awais, University of 3 QoE-VS: A Cross-Layer QoE-Aware Video Streaming Milan Platform Using Software-Defined Radio Session 2 Mohammad Nazmus Sadat, University of Cincinnati; Erwin Vargas- 1 A Robustness Comparison of Measured Narrowband CSI Alfonso, University of Cicinnati; Rui Dai, university of cincinnati; vs RSSI for IoT Localization Ziqian Huang, Yiling Fu, Sunmeng Lin, University of Cincinnati Ahmed Abdel Ghany, university of Rennes; Bernard Uguen, IETR / CNRS / Université Rennes-I; Dominique Lemur, Université Rennes-I
36 2020 92nd IEEE Vehicular Technology Conference VTC2020-Fall
Session 3 Abdellah Chehri, University of Quebec – UQAC; Gwanggil 1 Closing Remarks Jeon,Incheon National University; Ahmad Awais, University of Milan
W10 - New Network Architecture Powering Internet-of-Things Session 1 Session 2 1 Welcome 1 Promoting Network Automation for Heterogeneous Xuemin (Sherman) Shen, University of Waterloo; Shen Yan, Huawei Networks Collaboration Technologies Co., Ltd; Quan Yu, Pengcheng Lab Du Chen, Deyun Gao, Wei Quan, Qianpeng Wang, Gang Liu, 2 Keynote Hongke Zhang, Beijing Jiaotong University John Day, Boston University Metropolitan College 2 Comparison of single- and multiple entry point PBFT for Session 2 IoT blockchain systems 1 Fast-INT: Light-weight and Efficient In-band Network Jelena Misic, Vojislav Misic, Ryerson University; Xiaolin Chang, Beijing Jiaotong University Telemetry in Programmable Data Plane Fucong Yang, Wei Quan, Beijing Jiaotong University; Nan Cheng, 3 A Real-time Virtual Reality Adaptive Streaming System Xidian University; Deyun Gao, Ziheng Xu, Beijing Jiaotong Songyuan Zhao, Tongji University; Bin Tan, Jinggangshan University University; Jun Wu, Fudan University; Haoqi Ren, Zhifeng Zhang, Tongji University 2 Directed Percolation Routing for Ultra-Reliable and Low- Latency Services in Low Earth Orbit (LEO) Satellite 4 Managing Multicast Membership for Software Defined Networks Data Center Network Junhao Hu, Lin Cai, University of Victoria; ChengCheng Zhao, Yang Cheng, Dan Li, Jing Zhu, Hongnan Liu, Tsinghua University; Zhejiang University; Jianping Pan, University of Victoria Kai Chen, Hongkong University of Science and Technology; JIanping Wu, Tsinghua University 3 Prediction of Network Traffic Load on High Variability Data Based on Distance Correlation Session 4 Lo Pang Yun Ting, National Cheng Kung University; Tiago Koketsu 1 Closing Remarks Rodrigues, Tohoku University; Nei Kato, Tohoku University; Kun- Xuemin (Sherman) Shen, University of Waterloo; Shen Yan, Huawei Ta Chuang, National Cheng Kung University Technologies Co., Ltd; Quan Yu, Pengcheng Lab 4 Trust-driven Distributed Self-collaborative Security Architecture of IoT Based on Blockchain and Smart Contracts Hongzhe Li, Southwest Jiaotong University; Sirun Xu, AgilePhotonics Technology Co., Ltd; Saifei Li, GuangCheng Sun, Xiaowei Zhang, Lianshan Yan, Southwest Jiaotong University
18 November – 16 December 2020 Final Program 37 VTC2020-Spring thanks Huawei for their continuing support