【IEEE VT-06 Tokyo Chapter 広報】IEEE VTS Distinguished Lecture Tour 講演会開催のご案内
IEEE Vehicular Technology Society (VTS) Distinguished Lecture Tour 講演会開催のご案内
IEEE VTS Tokyo/Japan chapter chairman 山尾 泰
(AWCC, The University of Electro-Communications)
IEEE VTS Tokyo/Japan chapterでは,IEEE Vehicular Technology Society (VTS) Distinguished Lecturerである
米国アーカンサス大学のDr. Jingxian Wuをお招きして,大阪と東京で講演会を実現する運びとなりましたので,ご案内申し上げます.
Distinguished LecturerのDr. Wuは,無線信号処理や分散アンテナシステムに代表される無線通信の研究分野において
世界的に活躍されている著名な研究者のお一人であり,貴重な機会ですので,奮ってご参加くださいますようお願い申し上げます.
【大阪開催】
日時:2019年5月27日(月)10:40~12:00
場所:大阪府立大学 (大阪府堺市中区学園町1-1)B4棟E417室
参加費無料,予約不要
【東京開催】 電気通信大学AWCCと協催
日時:2019年5月28日(火)10:40~12:00
場所:電気通信大学 (東京都調布市調布ヶ丘1-5-1)東3号館3階 301室
参加費無料,予約不要
講師:
Dr. Jingxian Wu, Associate Professor, Department of Electrical Engineering, University of Arkansas, USA
講演タイトル:
Optimum Designs of Wireless Networks with Massively Distributed Antennas and Non-ideal Optical Front-hauls
※講演は英語で行われ通訳はつきません
講演概要:
Employing massively distributed antennas brings radio access points (RAPs) closer to users, thus enables aggressive spectrum reuse that can bridge the gap between the scarce spectrum resource and extremely high connection densities in future wireless systems. Examples include cloud radio access network (C-RAN), ultra-dense network (UDN), and cell-free massive MIMO system. These systems are usually designed in the form of fiber-wireless communications (FWC), where the distributed antennas or RAPs are connected to a central unit (CU) through optical front-hauls. The large number of densely deployed antennas or RAPs requires an extensive infrastructure of optical front-hauls. Consequently, the cost, complexity, and power consumption of the network of optical front-hauls may dominate the performance of the entire system. This talk provides an overview and outlook on the architecture, modeling, design and performance of FWC systems with massively distributed antennas. The complex interactions between optical front-hauls and wireless access links require optimum designs across the optical and wireless domains by jointly exploiting their unique characteristics. It is demonstrated that FWC systems with analog radio-frequency-over-fiber (RFoF) links outperforms its baseband-over-fiber (BBoF) or intermediate-frequency-over-fiber (IFoF) counterparts for systems with shorter fiber length, lower transmission power, and more RAPs, which are all desired properties for future wireless communication systems.
講師略歴:
Jingxian Wu received the B.S. degree in Electrical Engineering from Beijing University of Aeronautics and Astronautics, Beijing, China, in 1998, the M.S. degree in Electrical Engineering from Tsinghua University, Beijing, China, in 2001, and the Ph.D. degree in Electrical Engineering from the University of Missouri, Columbia, in 2005. He is currently an Associate Professor with the Department of Electrical Engineering, University of Arkansas. His research interests mainly focus on statistical signal processing, large scale data analytics, and wireless communications. He served as a symposium or track co-chairs for various international conferences, such as the 2009, 2015, and 2017 IEEE Global Telecommunications Conference, the 2012 and 2019 IEEE International Conference on Communication, the 2017, 2018 IEEE/CIC International Conference on Communications in China, and the 2017 Wireless Communication and Signal Processing Conference, etc. He is appointed as a distinguished lecture by the IEEE Vehicular Technology Society for 2018 and 2019. He is elected as the Vice Chair for the IEEE Communication Society (ComSoc) Signal Processing and Communication Electronics (SPCE) Technical committee in 2018. He is an Associate Editor of the IEEE ACCESS, and served as an Editor of the IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS from 2011 to 2016, and an Associate Editor of the IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY from 2007 to 2011.
問合せ先:
大阪開催: 大阪府立大学 工学研究科 電気情報システム工学分野 林海(lin@eis.osakafu-u.ac.jp)
東京開催; 電気通信大学 先端ワイヤレス・コミュニケーション研究センター(AWCC) 安達宏一(adachi@awcc.uec.ac.jp)
以上
