2 IEEE/CIC ICCC 2018 Time/Day Thursday, 16 August 2018 Time/Day Friday, 17 August 2018 Saturday, 18 August 2018 Conference 08:00-08:30 08:00-08:30 Conference Registration Conference Registration Registration Conference Registration Keynote Speech #4: Enabling Future Wireless Services: Welcome Opening Ceremony 08:30-09:00 Workshop-1 Registration 08:30-09:00 From Cognitive Radios to AI-empowered Wireless Networks ( Xin Yuan Hall) (Conference Prof. Ying-Chang Liang Hall 6) University of Electronic Science and Technology of China 09:00-09:30 (Xin Yuan Hall 8:30-9:00) Keynote Speech #1: ICT and Smart City Keynote Speech #5: From Autonomous Vehicles to Autonomous Academician Hequan Wu 09:00 -09:30 Mobility: Challenges and Opportunities Chinese Academy of Engineering Prof. Tao Zhang ( Xin Yuan Hall) National Chiao Tung University (Xin Yuan Hall 9:00-9:30) NI 5G Keynote Speech #2: Service Provisioning in 5G Communication Networks Keynote Speech #6: Evolving 5G and Beyond Workshop-6 Tutorial 1 Tutorial 2 Tutorial 3 Tutorial 4 Roundtable Prof. Weihua Zhuang Director of SDR and Wireless Research, James Kimery 09:30-10:30 (Conference 09:30-10:00 (Conference (Conference (Conference (Conference Meeting University of Waterloo National Instruments Hall 6) Hall 1) Hall 8) Hall 9) Hall 7) (VIP Hall) ( Xin Yuan Hall) (Xin Yuan Hall 9:30-10:00) Keynote Speech #7: Cognitive Industrial Internet of Things and Keynote Speech #3: 5G Wireless Network Technology 5G MTC’s Role Prof. Abbas Jamalipour 10:00-10:30 Prof. Sumei Sun The University of Sydney Institute for Infocomm Research (I2R) ( Xin Yuan Hall) (Xin Yuan Hall 10:00-10:30) 10:30-11:00 Coffee Break 10:30-11:00 Coffee Break Coffee Break Invited-1 Invited-3 Prof. Tony Prof. Zhu NI 5G Workshop-7 Tutorial 1 Tutorial 2 Tutorial 3 Tutorial 4 WCS-1 NGN-1 WCS-4 OCSN-1 SNBD-1 Quek, Kwang- WCS-5 WCS-8 STC-1 WNM-1 PSC-1 Han, Klaus Roundtable 11:00-12:30 (Conference (Conference (Conference (Conference (Conference 11:00-12:30 (Conferen (Conferen (Conference (Conferen (Conference Cheng Chen, (Conferen (Conferen (Conferen (Conferen (Conferen Moessner, Meeting Hall 6) Hall 1) Hall 8) Hall 9) Hall 7) ce Hall 1) ce Hall 5) Hall 7) ce Hall 9) Hall 6) Qinyu Zhang ce Hall 1) ce Hall 5) ce Hall 9) ce Hall 6) ce Hall 7) Yue Gao (VIP Hall) (Conference (Conference Hall 8) Hall 8) 12:30-14:00 Lunch 12:30-14:00 Lunch Lunch Invited-2 Steering Prof. Zhi Ding, NI 5G Workshop-4 Tutorial 5 Tutorial 6 Tutorial 7 Workshop-5 WCS-2 NGN-2 Committee CIT-1 SPC-1 Jianwei Huang, WCS-6 WCS-9 STC-2 WNM-2 SPC-3 WCS-11 Roundtable 14:00-15:30 (Conference (Conference (Conference (Conference (Conference 14:00-15:30 (Conferen (Conferen Meeting (Conferen (Conference Tommy (Conferen (Conferen (Conferen (Conferen (Conferen (Conference Meeting Hall 6) Hall 1) Hall 8) Hall 9) Hall 7) ce Hall 1) ce Hall 5) (Conference ce Hall 9) Hall 6) Svensson ce Hall 1) ce Hall 5) ce Hall 9) ce Hall 6) ce Hall 7) Hall 8) (VIP Hall) Hall 7) (Conference Hall 8) 15:30-16:00 Coffee Break 15:30-16:00 Coffee Break & Poster Session Coffee Break & Poster Session-Demo Industry Panel 16:00-17:00 Steering (Conference NI 5G Workshop-2 Tutorial 5 Tutorial 6 Tutorial 7 Workshop-3 WCS-3 NGN-3 Committee CIT-2 SPC-2 Hall 8) WCS-7 WCS-10 INSTOIS-1 WNM-3 SPC-4 Roundtable 16:00-17:30 (Conference (Conference (Conference (Conference (Conference (Conferen (Conferen Meeting (Conferen (Conference Academic (Conferen (Conferen (Conferen (Conferen (Conferen Meeting Hall 6) Hall 1) Hall 8) Hall 9) Hall 7) ce Hall 1) ce Hall 5) (Conference ce Hall 9) Hall 6) Panel ce Hall 1) ce Hall 5) ce Hall 9) ce Hall 6) ce Hall 7) (VIP Hall) 17:00-18:00 Hall 7) (Conference Hall 8) Best Paper Awards Ceremony for IEEE/CIC ICCC 2018 18:30-21:00 Dinner Buffet (Heyuan Buffet) 18:30-21:00 Banquet (Xin Yuan Hall) The program may re-schedule subject to the situation change. To find the final version please check the website: http://iccc2018.ieee-iccc.org IEEE/CIC ICCC 2018 3

TECHNICAL Sessions TUTORIALS WORKSHOPS STC: Selected Topics in Communications Tutorial 1: Challenges and Solutions for LTE and 5G 1: Millimeter-wave and Massive MIMO in Future Wireless Networks SPC: Signal Processing for Communications based V2X Communications Talker: Wei Xu, Jun Zhu, Kezhi Wang OCSN: Optical Communication Systems and Instructor: Yi Qian 2: 3rd International Workshop on Connecting All Things for Enabling Networks Tutorial 2: Generalized Sparse and Low-Rank Smart Cities (CONTEST) NGN: Next Generation Networking Optimization for Ultra-Dense Networks: Talker: Hongjian Sun, Arumugam Nallanathan, John Thompson, CIT: Communication and Information Theory Models, Algorithms and Theory F. Richard Yu, Chengxiang Wang, Yi Qian, Jie Gong, SNBD: Social Networks and Big Data Instructor: Jun Zhang, Yuanming Shi Zhisheng Niu, Yan Zhang WCS: Wireless Communications Systems Tutorial 3: Orbital Angular Momentum for Wireless 3: Integration of Communication, Computation, and Caching in 5G WNM: Wireless Networking and Multimedia Communications: New Orthogonal Fog Radio Access Networks (3C F-RAN 2018) PSC: Privacy and Security in Communications Dimension for Radio Access Talker: Zhongyuan Zhao, Zhiguo Ding, Zhiyong Chen INSTOIS: Integrated Networks for Space, Instructor: Wenchi Cheng 4: Integrated Aerial and Terrestrial Communication Systems Terrestrial and Oceanic Information Systems Tutorial 4: Spatiotemporal Modeling in Wireless Talker: Yong Zeng, Jie Xu, Jun Zhang Networks: Analysis and Applications 5: Ultra-Reliable and Low-Latency Communications in Wireless Instructor: Tony Q. S. Quek, Howard H. Yang Networks (URLLC) Tutorial 5: Invoking Emerging Analytical Tools for Talker: Zhi Chen, Guodong Zhao NOMA: Matching Theory, Stochastic 6: Space Information Networks Locations of Meeting Rooms Geometry and Machine Learning Talker: Min Sheng, Giovanni Giambene, Lian Zhao, Chunxiao Jiang 1st Floor: Instructor: Arumugam Nallanathan, Zhiguo Ding, 7: International Workshop on Non-Orthogonal Multiple Access Xin Yuan Hall Yuanwei Liu (NOMA) for 5G and IoT Networks VIP Hall Tutorial 6: Recent Advances in Wireless Localization Talker: Yuanwei Liu, Miaowen Wen, Zhiguo Ding, Arumugam 2nd Floor: Instructor: Yuan Shen, Guodong Zhao, Tingting Nallanathan Conference Hall 1 Conference Hall 7 Zhang Conference Hall 5 Conference Hall 8 Tutorial 7: Wireless Channel Models and Standards INDUSTRY & ACADEMIC PANELS Conference Hall 6 Conference Hall 9 Development for 5G and Beyond Industry Panel: 5G - From Idea to Reality

Instructor: Cheng-Xiang Wang

4 IEEE/CIC ICCC 2018

WELCOME MESSAGE FROM THE HONORARY CHAIRS

MESSAGE FROM HONORARY CHAIR

Zhaoxiong Chen Junliang Chen

It is an honor and a pleasure to welcome you on behalf of the Executive Committee and the hosting Beijing University of Posts and Telecommunications to the seventh IEEE/CIC International Conference on Communications in China (ICCC 2018), which is organized under the sponsorship of National Instruments and Baicells Technologies Co., Ltd.

First of all, we would like to thank scientific community for the honorary chairs nomination. We would also like to express the greatest appreciation for the work by all the organizers and volunteers on this important conference.

The conference is supposed to last for three days and a series of exciting programs will be held, including major technical symposiums, industry and academic panels, workshops, tutorials, invited talks, and distinguished keynote speeches. Most of the guests are prestigious experts and scientists with many significant achievements. The conference will be an excellent scientific, networking, and publicity event. It will provide a good opportunity to exchange ideas and share the latest research achievements among world-class experts and young researchers from China and abroad.

Finally, we hope that all of you will enjoy this conference. More importantly, you cannot miss the chance to explore and discover the beauty of Beijing and to experience the great hospitality of this city.

Honorary Chairs - IEEE/CIC ICCC 2018 Zhaoxiong Chen, Junliang Chen, Vice minister of Ministry of Industry and Academician, Chinese Academy of Engineering Information Technology of China, Professor, Beijing University of Posts and President of the China Institute of Telecommunications, China Communications

IEEE/CIC ICCC 2018 5

WELCOME MESSAGE FROM THE GENERAL CO-CHAIRS

MESSAGE FROM HONORARY CHAIR

Ping Zhang Fumiyuki Adachi Yanchuan Zhang Quan Yu

It is a distinct honor to welcome you on behalf of the entire IEEE/CIC ICCC 2018 team to the seventh IEEE/CIC International Conference on Communications in China which is held in the magnificent city of Beijing, China, 16-18 August 2018. It is technically sponsored by the IEEE, IEEE Communications Society (ComSoc), China Institute of Communications (CIC), and technically co-sponsored by Beijing University of Posts and Telecommunications, China.

Recently, all of us have witnessed the remarkable innovations and rapid developments of communications. In particular, IEEE/CIC ICCC 2018 aims at addressing a key theme on “Ubiquitous Network, Intelligence and Society”, which broadly covers all disciplines of communications from fundamental research to emerging applications, including the following ten symposiums: Signal Processing for Communications, Wireless Communications Systems, Optical Communication System and Networks, Privacy and Security in Communications, Social Networks and Big Data, Communication and Information Theory, Wireless Networking and Multimedia, Next Generation Networking, Integrated Networks for Space, Terrestrial and Oceanic Information Systems and Selected Topics in Communications.

In the keynote sessions, the seven world renowned experts from academia and industry Prof. Hequan Wu (Chinese Academy of Engineering, China), Prof. Weihua Zhuang (University of Waterloo, Canada), Prof. Abbas Jamalipour (The University of Sydney, Australia), Prof. Ying-Chang Liang (University of Electronic Science and Technology of China), Prof. Tao Zhang (National Chiao Tung University, TW, China), James Kimery (National Instruments, USA) and Prof. Sumei Sun (Institute for Infocomm Research (I2R), Singapore) will deliver keynote addresses to present the latest and widest possible view on these technical areas.

IEEE/CIC ICCC 2018 has received more than 369 papers in total. To evaluate each submission, a blind review system was used and each paper was reviewed by at least 3 experts from the Technical Program Committee. The selection process followed strict criteria in all symposiums so only 170 papers were accepted. In total, over 160 papers will be orally presented and 10 papers will be presented in the form of poster.

We thank all the authors and speakers for their technical contributions and the attendees for their participation. We are especially thankful to the keynote speakers and invited speakers for sharing their diverse expertise and keen visions in both academia and industry. Thanks also go to the effort and dedication of all organizers and volunteers. We truly hope you will have an intellectually stimulating experience at this conference and enjoy the technical as well as the social programs.

General Co-Chairs - IEEE/CIC ICCC 2018 Ping Zhang (Beijing University of Posts and Telecommunications, China) Fumiyuki Adachi (Tohoku University, Japan) Yanchuan Zhang (China Institute of Communications, China) Quan Yu (Xidian University) 6 IEEE/CIC ICCC 2018

WELCOME MESSAGE FROM THE TPC CO-CHAIRS

MESSAGE FROM TECHNICAL PROGRAM CHAIRS

Zhiyong Feng Shuguang “Robert” Cui Aaron Gulliver

On behalf of the Technical Program Committee, it is our great pleasure to welcome you to the seventh IEEE/CIC International Conference on Communications in China (ICCC 2018), in the magnificent city of Beijing. Under the theme of “Ubiquitous Network, Intelligence and Society”, IEEE/CIC ICCC 2018 brings together researchers to discuss the latest advances in communications. The technical program of ICCC 2018 features 7 world-class keynote speeches, 10 technical symposiums, 7 tutorials, 2 industrial and academic panels, and 7 workshops. In addition, we have 9 invited talks delivered by 9 famous experts from academia and industry.

In this sixth edition of IEEE ComSoc’s flagship conference in China, we have maintained the high quality of the conference. We received 369 paper submissions from about 24 countries and regions. Out of these, 170 papers were accepted and included in the final program, corresponding to an acceptance rate of 46.1%. All the papers were carefully peer reviewed by about 300 TPC members and reviewers, with each paper evaluated by at least three reviewers. Within these accepted papers, we also have 11 invited papers by established experts in their fields. All these papers are organized into about 30 lecture-style oral sessions and 2 interactive poster sessions.

We are confident that you will find the technical program of IEEE/CIC ICCC 2018 very stimulating and inspiring. We warmly invite all of you to join us in interacting with the keynote and invited speakers, and industrial panelists, and more importantly, interacting with all of your peer attendees. A technical program like this would not have been possible without the hard work and devotion of many of our organizing committee members and volunteers. We would like to especially thank the Symposium Chairs, Workshop Chairs, Tutorial Chairs, and Industrial and Academic Panel Chairs for their exceptional work. We would also like to express our sincere thanks to all the TPC members and reviewers for their help in the paper review process.

Finally, we wish to thank all the authors and attendees for participating in the conference. We hope you will have a fruitful and memorable experience at IEEE/CIC ICCC 2018 in Beijing.

TPC Co-Chairs - IEEE/CIC ICCC 2018 Zhiyong Feng (Beijing University of Posts and Telecommunications, China) Shuguang “Robert” Cui (University of California, Davis, USA) Aaron Gulliver (University of Victoria, Canada)

IEEE/CIC ICCC 2018 7

2018 IEEE/CIC ICCC ORGANZING COMMITTEE

2016 IEEE/CIC ICCC COMMITTEES

Honorary Chairs

Zhaoxiong Chen Junliang Chen China Institute of Communications, China Beijing University of Posts and Telecommunications, China General Co-Chairs

Ping Zhang Fumiyuki Adachi Yanchuan Zhang Quan Yu Beijing University of Tohoku University, Japan China Institute of Xidian University, China Posts and Communications, China Telecommunications, China Technical Program Committee Co-Chairs

Zhiyong Feng Shuguang “Robert” Cui Aaron Gulliver Beijing University of Posts and University of California, Davis, USA University of Victoria, Canada Telecommunications, China

8 IEEE/CIC ICCC 2018

Publicity Co-Chairs

Ying Wang Lingyang Song Haijun Zhang Tomohiko Taniguchi Beijing University of Peking University, University of Science and Fujitsu Laboratories Posts and China Technology Beijing, China Ltd., Japan Telecommunications, China Local Organizing Committee Co-Chairs

Jianhua Zhang Shangguang Wang Xiaodong Xu Lin Zhang Beijing University of Posts and Telecommunication, China

Local Organizing Committee Co-Chairs

Qixun Zhang Wenjun Xu Min Xie

Beijing University of Posts and Telecommunication, China

Publication Co-Chair Publication Co-Chair Financial Co-Chair Financial Co-Chair

Li Wang Kan Zheng Jie Wu Bruce Worthman Beijing University of Posts Beijing University of Posts China Institute of IEEE Communications and Telecommunication, and Telecommunication, Communications, China Society, USA China China

IEEE/CIC ICCC 2018 9

Financial Co-Chair Registration Co-Chair Registration Co-Chair Registration Co-Chair

Baoling Liu Xuesong Qiu Mugen Peng Changchuan Yin Beijing University of Posts Beijing University of Posts Beijing University of Posts Beijing University of Posts and Telecommunication, and Telecommunications, and Telecommunications, and Telecommunications, China China China China

Tutorial Co-Chair Tutorial Co-Chair Tutorial Co-Chair

Yiqing Zhou Hyun Kyu Chung Yue Gao Institute of Computing Technology, ETRI, Korea Queen Mary University of Lodon, Chinese Academy of Sciences UK

Workshop Co-Chair Workshop Co-Chair Invited Track Co-Chair Invited Track Co-Chair

Shi Jin Tony Q. S. Quek Zan Li Renping Liu Southeast University, Singapore University of Xidian University, University of Technology China Technology and Design, China Sydney, Australia Singapore

Industry & Academic Panels Co-Chairs

Qihui Wu Guangyi Liu Xinjie Yang Nanjing University of China Mobile Communications, China Ningbo University, China Aeronautics and Astronautics, China

10 IEEE/CIC ICCC 2018

TECHNICAL SYMPOSIUM CO-CHAIRS

TECHNICALSTC: Selected SYMPOSIUM Topics in Communications CO-CHAIRS

Wei Zhang Xiang Cheng Rose Qingyang Hu University of New South Wales, Peking University, China Utah State University, USA Australia

Klaus Moessner Jingxian Wu University of Surrey, UK University of Arkansas, USA

SPC: Signal Processing for Communications

Hai Lin Zhi Quan Andrew Zhang University of Nan Zhao Osaka Prefecture Shenzhen University, Technology Sydney, Australia Dalian University of University, Japan China Technology, China

WCS: Wireless Communications Systems

Tommy Svensson Bo Ai Qimei Cui Chalmers University of Beijing Jiaotong University, China Beijing University of Posts and Technology, Sweden Telecommunications, China

IEEE/CIC ICCC 2018 11

Linglong Dai Min Sheng Tsinghua University, China Xidian University, China OCSN: Optical Communication System and Networks

Jie Zhang Yi Dong Gangxiang Shen Beijing University of Beijing Institute of Technology, China Soochow University, Posts and China Telecommunications, China PSC: Privacy and Security in Communications

Xiaodong Lin Lei Chen Huiming Wang Wilfrid Laurier University, Georgia Southern University, USA Xi’an Jiaotong University, China Canada

Aiqing Zhang Yulong Zou Anhui Normal University, China Nanjing University of Posts and Telecommunications, China

12 IEEE/CIC ICCC 2018

SNBD: Social Networks and Big Data

Qing Yang Yong Cui Zhou Su University of North Texas, USA Tsinghua University, China Shanghai University, China

Sihai Zhang Kuan Zhang University of Science and Technology of China University of Nebraska-Lincoin, USA

CIT: Communication and Information Theory

Baoming Bai Wei Chen Xiao Ma Xidian University, China Tsinghua University, China Sun Yat-sen University, China

Kai Niu Mojtaba Vaezi Beijing University of Posts and Princeton University, Telecommunications, China USA

IEEE/CIC ICCC 2018 13

NGN: Next Generation Networking

Cheng Li Bo Bai Tao Huang Memorial University of Huawei Technologies Co. Ltd., Beijing University of Posts Newfoundland, Hong Kong, China and Telecommunications, Canada China

Wei Li Hongbin Luo Sheng Zhou Northern Illinois Beihang University, China Tsinghua University, China University, USA WNM: Wireless Networking and Multimedia

Miao Pan Giuseppe Araniti Antonino Orsino University of Houston, USA University Mediterranea of Ericsson Research Reggio Calabria, Italy

Xiaoming Tao Zhongshan Zhang Tsinghua University, China University of Science & Technology Beijing, China

14 IEEE/CIC ICCC 2018

INSTOIS: Integrated Networks for Space, Terrestrial and Oceanic Information Systems

Shefeng Yan Fei Ji Zongchuang Liang Institute of Acoustics, Chinese South China University of China Academy of Space Academy of Sciences Technology Technology

Weixiao Meng Yi Qian Harbin Institute of Technology, China University of Nebraska-Lincoln, USA

IEEE/CIC ICCC 2018 15

INTERNATIONAL STEERING COMMITTEE

Chair: Xuemin (Sherman) Shen (University of Waterloo, Canada)

Vice Chairs: Ke Gong (Nankai University, China) Zhen Yang (Nanjing University of Posts and Telecommunications, China)

Members: Kwang-Cheng Chen (University of South Florida, USA) Khaled B. Letaief (Hong Kong University of Science and Technology, Hong Kong, China) Zhisheng Niu (Tsinghua University, China) Tong Song (China Institute of Communications, China) Steve Weinstein (CTTC Consulting, USA) Yinghai Zhang (Beijing University of Posts and Telecommunications, China)

TECHNICAL PROGRAM COMMITTEE MEMBERS

Ali Abedi University of Maine USA

Koichi Adachi The University of Electro-Communications Japan

Bo Ai Beijing Jiaotong University China

Chunyu Ai University of South Carolina Upstate USA University Mediterranea of Reggio

Giuseppe Araniti Italy Calabria

Takuya Asaka Tokyo Metropolitan University Japan Muhammad Reza Kahar Indonesia Institut Teknologi Sumatera

Aziz

Lin Bai Beihang University China

Lu Bai Shandong University China

Paolo Bellavista University of Bologna Italy

Nabil Benamar Moulay Ismail University Morocco

Mustapha Benjillali INPT Morocco

Carmen Botella University of Valencia Spain University of Cassino and Lazio

Stefano Buzzi Italy Meridionale/CNIT

Yunlong Cai Zhejiang University China Harbin Institute of Technology Shenzhen

Bin Cao China Graduate School

16 IEEE/CIC ICCC 2018

Chongqing University of Posts and

Rong Chai China Telecommunications

Zheng Chang University of Jyväskylä Finland

Chen Chen Nanyang Technological University Singapore

Hongbin Chen Guilin University of Electronic Technology China

Jenhui Chen Chang Gung University Taiwan, China

Jieqiong Chen University of Technology Sydney Australia

Ken Chen Université Paris 13 France

Lei Chen Georgia Southern University USA University of Science and Technology of

Li Chen China China

Lin Chen The University of Paris-Sud France

Wei Chen Beijing Jiaotong University China

Xia Chen Beijing Jiaotong University China

Xiao Chen Southeast University China University of Science and Technology of

Xiaohui Chen China China

Zhengchuan Chen Chongqing University China

Zhiyong Chen Shanghai Jiaotong University China

Peng Cheng The University of Sydney Australia

Wenchi Cheng Xidian University China

Xiang Cheng Peking University China

Feng-Tsun Chien National Chiao Tung University Taiwan, China

Woong Cho Jungwon University Korea Network Measurement and Monitoring

Domenico Ciuonzo (NM2), Naples, IT & University of Naples Italy Federico II, IT

Felipe Cruz-Pérez Cinvestav-IPN Mexico Beijing University of Posts and

Qimei Cui China Telecommunications

Yong Cui Tsinghua University China

Kanapathippillai Cumanan University of York United Kingdom Nanjing University & State Key Laboratory

Haipeng Dai China for Novel Software Technology

Klaus David University of Kassel Germany

Na Deng Dalian University of Technology China

Boya Di Peking University China Army Engineering University of PLA &

Guoru Ding China Southeast University

Haichuan Ding University of Florida USA

IEEE/CIC ICCC 2018 17

Wenbo Ding Georgia Institute of Technology USA

Anming Dong Qilu University of Technology China Beijing University of Posts and

Chao Dong China Telecommunications

Xiaodai Dong University of Victoria Canada Nanjing University of Posts and

Yi Dong China Telecommunications Nanjing University of Posts and

Yunquan Dong China Telecommunications

Zhicheng Dong Tibet University China

Qinghe Du Xi'an Jiaotong University China

Zhengfeng Du Shandong University China

Chao Fang Chalmers University of Technology Sweden

Wei Feng Tsinghua University China

Miguel Franklin de Castro Federal University of Ceará Brazil

Liqun Fu Xiamen University China

Xiaoying Gan Shanghai Jiaotong University China

Feifei Gao Tsinghua University China

Xinyu Gao Tsinghua University China

Yue Gao Queen Mary University of London United Kingdom

Zhen Gao Beijing Institute of Technology China

Zhenzhen Gao Xi'an Jiaotong University China

Alireza Ghasempour ICT Faculty USA

Jie Gong Sun Yat-Sen University China

Xiaowen Gong Auburn University USA Southern University of Science and

Yi Gong China Technology

Zijun Gong Memorial University of Newfoundland Canada

Ali Gorcin Yildiz Technical University Turkey

Javier Gozalvez Universidad Miguel Hernandez de Elche Spain Beijing University of Posts and

Yu Gu China Telecommunications

Ke Guan Beijing Jiaotong University China

Yassine Hadjadj-Aoul University of Rennes 1 France Institute of Automation, Chinese Academy

Shuangshuang Han China of Sciences

Kazunori Hayashi Osaka City University Japan

Danping He Beijing Jiaotong University China

Yejun He Shenzhen University China

18 IEEE/CIC ICCC 2018

Huazhong University of Science and

Xiaojun Hei China Technology Beijing University of Posts and

Weijun Hong China Telecommunications Beijing University of Posts and

Yanzhao Hou China Telecommunications

Chen Hu Tsinghua University China

Chih-Lin Hu National Central University Taiwan, China University of Electronic Science and

Jie Hu China Technology of China

Jingzhi Hu Peking University China Huazhong University of Science and

Xiaoya Hu USA Technology

Cheng Huang University of Waterloo Canada

Jie Huang Shandong University China

Kaibin Huang The University of Hong Kong Hong Kong, China

Nuo Huang Southeast University China Nanjing University of Posts and

Ruochen Huang China Telecommunications Nanjing University of Posts and Guan Gui China Telecommunications Huawei Technologies, Mathematical and Maxime Guillaud France Algorithmic Sciences Lab Chongtao Guo Shenzhen University China Linke Guo Binghamton University USA Shuaishuai Guo Shandong University China Shandong University of Science & Yinjing Guo China Technology Shengqian Han Beihang University China Institute of Automation, Chinese Academy Shuangshuang Han China of Sciences Zhu Han University of Houston USA Gerhard Hancke City University of Hong Kong Hong Kong, China Biao He University of California, Irvine USA Hongliang He Xi'an Jiaotong University China Yejun He Shenzhen University China Yubei He Shandong University China Huazhong University of Science and Xiaojun Hei China Technology Paul Ho Simon Fraser University Canada Xuemin Hong Xiamen University China Jingzhi Hu Peking University China IEEE/CIC ICCC 2018 19

Kekai Hu Intel USA Huazhong University of Science and Xiaoya Hu China Technology Kun Hua Lawrence Technological University USA Chih-Wei Huang National Central University Taiwan, China University of Electronic Science and Chuan Huang China Technology of China Jie Huang Shandong University China Nuo Huang Southeast University China Nanjing University of Posts and Ruochen Huang China Telecommunications Shenzhen Institutes of Advanced Xiaoxia Huang China Technology, Chinese Academy of Sciences

Muhammad Ali Imran University of Glasgow United Kingdom Beijing University of Posts and

Lei Ji China Telecommunications

Fan Jiang Memorial University of Newfoundland Canada

Xiaohong Jiang Future University-Hakodate Japan

Yili Jiang University of Nebraska-Lincoln USA Norwegian University of Science and

Yuming Jiang Norway Technology (NTNU),

Jiping Jiao Xiamen University China

Ruicheng Jiao Tsinghua University China

Caihong Kai Hefei University of Technology China Kyung Hee University & Shanto Mariam

Rossi Kamal Korea University of Creative Technology

Megumi Kaneko National Institute of Informatics Japan

Babak Hossein Khalaj Sharif University of Technology Iran

Evgeny Khorov IITP RAS Russia

Donghyun Kim Kennesaw State University USA

Rakhesh Kshetrimayum Indian Institute of Technology Guwahati India

Thomas Kunz Carleton University Canada

Yee Wei Law University of South Australia Australia

Xianfu Lei Southwest Jiaotong University China

Chunguo Li Southeast University China

Fudong Li University of Alberta Canada

Guangkai Li Beijing Jiaotong University China

Hao Li University of Western Ontario Canada Nanjing University of Science and

Jun Li China Technology

Lixin Li Northwestern Polytechnical University China 20 IEEE/CIC ICCC 2018

Meng Li Wilfrid Laurier University Canada

Min Li Macquarie University Australia

Ming Li University of Texas at Arlington USA Beijing University of Posts and

Na Li China Telecommunications University of Electronic Science and

Qiang Li China Technology of China

Qihao Li University of Oslo Norway

Wei Li Northern Illinois University USA

Wenjie Li Queen's University Canada

Xuenheng Li Dalian University of Technology China Huazhong University of Science and

Yuzhou Li China Technology

Yong Liao Chongqing University China

David Lin National Chiao Tung University Taiwan, China

Hai Lin Osaka Prefecture University Japan

Yun Lin Harbin Engineering University China

Marco Listanti University of Rome "La Sapienza" Italy

An Liu Zhejiang University China Singapore University of Technology and

Chenxi Liu Singapore Design

Dongxiao Liu University of Waterloo Canada

Junyu Liu Xidian University China

Liang Liu National University of Singapore Singapore

Liu Liu Beijing Jiaotong University China University of Science and Technology of

Qi Liu China China

Runzi Liu Xidian University China

Ye Liu University of Oxford United Kingdom

Yuan Liu South China University of Technology China Beijing University of Posts and

Yunfeng Liu China Telecommunications

Tat Lok The Chinese University of Hong Kong Hong Kong, China

Chengnian Long Shanghai Jiao Tong University China

Yan Long Southwest Jiaotong University China

Weidang Lu Zhejiang University of Technology China

Yanhui Lu Zhengzhou University China

Tom H. Luan Xidian University China

Chung-Horng Lung Carleton University China

Xiliang Luo ShanghaiTech University China IEEE/CIC ICCC 2018 21

University of Science and Technology of

Min Lv China China

Guoyu Ma Beijing Jiaotong University China

Shaodan Ma University of Macau China

Xiao Ma Sun Yat-sen University China

Michele Magno ETH Zurich and University of Bologna Switzerland Hong Kong University of Science and

Yuyi Mao Hong Kong, China Technology

Natarajan Meghanathan Jackson State University USA Kohat Univerisity of Science & Technology

Amjad Mehmood Pakistan Kohat & IIT

Weixiao Meng Harbin Institute of Technology China

Guowang Miao KTH Royal Institute of Technology Sweden

Talha Mir Tsinghua University & BUITEMS China

Klaus Moessner University of Surrey United Kingdom

Robert Morelos-Zaragoza San Jose State University USA

Amitava Mukherjee Globsyn Business School, Kolkata India

Mithun Mukherjee Northeastern University, Shenyang China

Shahid Mumtaz Instituto de Telecomunicações Portugal

Telex M. N. Ngatched Memorial University of Newfoundland Canada

Jianbing Ni University of Waterloo Canada Beijing University of Posts and

Gaofeng Nie China Telecommunications Beijing University of Posts and

Kai Niu China Telecommunications Qingdao University of Science and

Qiuna Niu China Technology

Maxwell Omwenga University of Tennessee at Chattanooga USA

Antonino Orsino Ericsson Research Finland

Gaofeng Pan Southwest University China

Peng Pan Hangzhou Dianzi University China

Ai-Chun Pang National Taiwan University Taiwan, China

Al-Sakib Khan Pathan Southeast University Bangladesh

Charly Poulliat INP - ENSEEIHT Toulouse France

Javier Prieto University of Salamanca Spain

Chenhao Qi Southeast University China

Liping Qian Zhejiang University of Technology China

Jingping Qiao Shandong Normal University China Beijing University of Posts and

Xiaoqi Qin China Telecommunications 22 IEEE/CIC ICCC 2018

University of Science and Technology of

Xiaowei Qin China China

Zhi Quan Shenzhen University China Singapore University of Technology and

Tony Q. S. Quek Singapore Design

Danda Rawat Howard University USA

Hao Ren UESTC China Institut Mines-Telecom -- Telecom

Eric Renault France SudParis & Samovar UMR CNRS 5157

Taneli Riihonen Tampere University of Technology Finland

Carlos Rolim Federal University of Rio Grande do Sul Brazil

Mohamed Sadik ENSEM / UH2C Morocco

Wiroonsak Santipach Kasetsart University Thailand

Mamoru Sawahashi Tokyo City University Japan COMSATS Institute of Information

Nadir Shah Technology & Sino-German Joint Software Pakistan Institute

Vinod Sharma Indian Institute of Science India

Changyang She University of Sydney Australia

Wenqian Shen Tsinghua University China

Yuan Shen Tsinghua University China

Jianfeng Shi Southeast University China Singapore University of Technology and

Long Shi Singapore Design

Xiufang Shi Zhejiang University China

Yuanming Shi ShanghaiTech University China Beijing University of Posts and

Zhongwei Si China Telecommunications

Dirk Slock EURECOM France

Houbing Song Embry-Riddle Aeronautical University USA

Xiaoshi Song Northeastern University China

Ruoyu Su Memorial University Canada

Zhou Su Shanghai University Shanghai Tokyo University of Agriculture and

Shinya Sugiura Japan Technology

Yongliang Sun Nanjing Tech University China

Himal Suraweera University of Peradeniya Sri Lanka

Mehrdad Taki University of Qom Iran

Jingbo Tan Tsinghua University China

Sovanna Tan University of Paris 12 France

IEEE/CIC ICCC 2018 23

Jie Tang South China University of Technology China

Wenjuan Tang South Central University China

Xiao Tang Xi'an Jiaotong University China

Feng Tian Shaanxi Normal University China

Jie Tian Shandong Normal University China

Xiaohua Tian Shanghai Jiao Tong University China

Theodoros Tsiftsis Jinan University China

Quoc-Tuan Vien Middlesex University United Kingdom Wroclaw University of Science and

Krzysztof Walkowiak Poland Technology

Bichai Wang Tsinghua University China

Bin Wang Wright State University USA

Dawei Wang Northwestern Polytechnical University China Zhengzhou Information Science and

Ding Wang China Technology Institute

Fanggang Wang Beijing Jiaotong University China

Gang Wang Intelligent Fusion Technology, Inc. USA

Gongpu Wang Beijing Jiaotong University China

Haibo Wang Beijing Jiaotong University China

Hui-Ming Wang Xi'an Jiaotong University China National Mobile Communications

Jiaheng Wang China Research Lab, Southeast University

Jie Wang Dalian Maritime University China Nanjing University of Posts and

Jin-Yuan Wang China Telecommunications

Jintao Wang Tsinghua University China

Kezhi Wang Northumbria University United Kingdom

Lifeng Wang University College London United Kingdom

Pengfei Wang Peking University China Beijing University of Posts and

Qiang Wang China Telecommunications

Rui Wang Tongji University China Beijing University of Posts and

Shangguang Wang China Telecommunications Beijing University of Posts and

Siye Wang China Telecommunications

Wei Wang The University of New South Wales Australia

Wei Wang Zhejiang University China

Xianbin Wang Western University Canada

Xijun Wang Xidian University China

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Xin Wang Fudan University China

Yinlu Wang Southeast University China Singapore University of Technology and

Zhe Wang Singapore Design Beijing University of Posts and

Qing Wei China Telecommunications

Sixiao Wei Intelligent Fusion USA Beijing University of Posts and

Zhiqing Wei China Telecommunications

Celimuge Wu The University of Electro-Communications Japan

Jingxian Wu University of Arkansas USA

Minghua Xia Sun Yat-sen University China Nanjing University of Posts and

Ding Xu China Telecommunications Beijing University of Posts and

Jin Xu China Telecommunications Chongqing University of Posts and

Peng Xu China Telecommunications

Sai Xu Harbin Institute of Technology China

Wei Xu Southeast University China Beijing University of Posts and

Wenjun Xu China Telecommunications Beijing University of Posts and

Xiaodong Xu Telecommunications & Wireless China Technology Innovation Institute Institute of Acoustics, Chinese Academy of

Shefeng Yan China Sciences

Anjia Yang Jinan University China

Chungang Yang Xidian University China

Howard Yang SUTD Singapore Beijing University of Posts and

Hui Yang China Telecommunications

Kai Yang Beijing Institute of Technology China

Lu Yang University of New South Wales Australia

Nan Yang The Australian National University Australia

Qing Yang University of North Texas USA

Wendong Yang Army Engineering University of PLA China

Xinjie Yang Ningbo University China Beijing University of Posts and

Yang Yang China Telecommunications

Zhutian Yang Harbin Institute of Technology China

Rugui Yao Northwestern Polytechnical University China IEEE/CIC ICCC 2018 25

Shanghai Research Center for Wireless

Huiyue Yi China Communications

Tomoki Yoshihisa Osaka University Japan

Guanding Yu Zhejiang University China Beijing University of Posts and

Xinlei Yu China Telecommunications

Wang Yuanjie Beijing Jiaotong University China Singapore University of Technology and

Chau Yuen Singapore Design Basrah University College of Science and

Yasser Zahedi Iraq Technology

Sherali Zeadally University of Kentucky USA

Chao Zhai Shandong University China

Daosen Zhai Northwestern Polytechnical University China

Aiqing Zhang Anhui Normal University China

Baoxian Zhang University of Chinese Academy of Sciences China

Bo Zhang National University of Defense Technology China

Chen Zhang Memorial University of Newfoundland Canada

Guanglin Zhang Donghua University China University of Science and Technology

Haijun Zhang China Beijing

J. Andrew Zhang University of Technology Sydney Australia

Jiayi Zhang Beijing Jiaotong University China The Hong Kong University of Science and

Jun Zhang Hong Kong, China Technology Beijing University of Posts and

Kezhong Zhang Telecommunications & HiSilicon China Technologies Co. Ltd.

Kuan Zhang University of Nebraska-Lincoln USA Beijing University of Posts and

Ningbo Zhang China Telecommunications Beijing University of Posts and

Qixun Zhang China Telecommunications

Rongqing Zhang Colorado State University USA

Shun Zhang Xidian University China

Shunqing Zhang Shanghai University China

Shuowen Zhang National University of Singapore Singapore University of Science and Technology of

Sihai Zhang China China

Weile Zhang Xi'an Jiaotong University China Beijing University of Posts and

Xuefei Zhang China Telecommunications 26 IEEE/CIC ICCC 2018

Yimin Zhang Temple University USA University of Electronic Science and

Yuan Zhang China Technology of China Beijing University of Posts and

Zhi Zhang China Telecommunications Beijing University of Posts and

Long Zhao China Telecommunications

Nan Zhao Dalian University of Technology China Beijing University of Posts and

Zhongyuan Zhao China Telecommunications

Xiaolong Zheng Tsinghua University China Huazhong University of Science and

Yi Zhong China Technology

Haibo Zhou Nanjing University China Nanjing University of Posts and

Liang Zhou China Telecommunications

Sheng Zhou Tsinghua University China

Xiangwei Zhou Louisiana State University USA

Yiqing Zhou Chinese Academy of Science China

Hongzi Zhu Shanghai Jiao Tong University China Beijing University of Posts and

Konglin Zhu China Telecommunications Nanjing University of Aeronautics and

Qiuming Zhu China Astronautics

Xu Zhu University of Liverpool United Kingdom Nanjing University of Posts and

Yulong Zou China Telecommunications

IEEE/CIC ICCC 2018 27

WELCOME OPENING CEREMONY

WELCOME OPENING CEREMONY August 17, Friday, 8:30-9:00, Xin Yuan Hall

Chair: Tong Song, Vice Secretary of China Institute of Communications

1. Welcome Message From Zhaoxiong Chen (Vice Minister of Industry and Information Technology of P.R.C., Director of China Institute of Communications) 2. Welcome Message From IEEE ComSoc (Prof. Xuemin’Sherman’ Shen, Vice President) 3. Welcome Message From Beijing University of Posts and Telecommunications (Jianwei Wu, Secretary) 4. Welcome Message From General Co-Chairs (Prof. Ping Zhang) 5. Best Paper Awards Ceremony for IEEE/CIC ICCC 2018 (Chair: Ping Zhang, Awarder: Tong Song) 6. Best Paper Awards Ceremony for China Communications (Chair: Ping Zhang, Awarder: Jianhua Lu)

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KEYNOTE SPEECH #1 Chair: Wenbo Wang, Zhiyong Feng, BUPT, China

Prof. Hequan Wu Chinese Academy of Engineering, China. Date: Friday, 17 August, 2018 Time: 9:00-9:30 Room: Xin Yuan Hall

ICT and Smart City Biography: Wu Hequan, an expert in optical fiber transport network and broadband information network, was born in January 1943 in Guangzhou. He graduated from the Department of Wireline Communications, Wuhan Institute of Post and Telecommunications, Wuhan, China in 1964. After graduation he began his research work in the field of wireline communication system at the China Academy of Post and Telecommunications (CAPT) in Beijing (1964-1969). He continued his R&D work in the Meishan Communication Equipment Factory of State Administration of Telecommunications in Sichuan (1969-1975), the 9th Research Institute of Ministry of Post and Telecommunications in Chongqing (1975-1979) and the 5th Research Institute of MPT in Chengdu (1979-1994). Since 1994 he joined the China Academy of Telecommunications Technology (CATT). He is now vice president and chief engineer of CATT. He was elected the academician of Chinese Academy of Engineering (CAE) in 1999 and vice president of CAE in June 2002. Wu Hequan is one of earliest core technologists to do research on digital communication technology in China. He has undertaken to study on optical fiber transmission system and digital communications network and manage R&D projects for a long time. He was in charge of many projects of the State Key S&T Plan and the State High-Tech R&D Programme (863 Programme) on optical fiber communication system. Many communications equipments and systems successfully developed for domestic first time and the industrialization was promoted as the achievements of the projects managed by him. PCM30 pulse coded modulation communication terminal device development project in which he is the chief designer won the prize of National Science Congress in 1978. He actively participated in the project of “the national important domain technology policy research — — communications technology policy. "He obtained the first-grade prize of National Science and Technology Progress in 1987. As R&D project director he led and organized the cooperation of 5th Research Institute of MPT with the Post and Telecommunications Industry Corporation. The development of 155Mb/s and 622Mb/s SDH optical fiber communications system have completed and the achievement industry has realized in the cooperation project. The project

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awarded first-grade prize of Science and Technology Progress of MPT in 1997 and second-grade prize of National Science and Technology Progress in 1998. Wu Hequan has also received many honorary titles from the government, such the National Mid- and Young Specialist with Outstanding Contribution (1991), the State-Level Excellent Technology Staff (1997) and the Outstanding Contributor to 863 Programme (2001). He continuously three times assumed the director of communications technology experts group of 863 Programme and currently takes on vice director of Supervisory Committee of 863 Programme. He has assigned as Member of China Advisory Committee for State Informatization and an Adviser of S&T Committee of the Ministry of Information Industry. Wu Hequan also is pluralistic professor in Tsinghua University and some universities and a doctoral teacher in Beijing University of Post and Telecommunications.

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KEYNOTE SPEECH #2 Chair: Wenbo Wang, Zhiyong Feng, BUPT, China

Prof. Weihua Zhuang Broadband Communications Research (BBCR) Group Department of Electrical and Computer Engineering University of Waterloo Date: Friday, 17 August, 2018 Time: 9:30-10:00 Room: Xin Yuan Hall

Service Provisioning in 5G Communication Networks Abstract: The fifth generation (5G) communication networks will accommodate a wide range of emerging services with diverse service quality requirements. The network will integrate a variety of network resources and technologies to support high transmission rate and to enhance quality of experience to mobile users. The traditional one-size-fits-all network architecture cannot efficiently meet the needs of different services, due to the poor scalability, limited adaptability, and inflexibility. Network function virtualization (NFV) enabled by software defined networking (SDN) technology is a promising approach for an agile and flexible 5G networking infrastructure. In this presentation, we will provide an overview of several recent studies for 5G networks, including dynamic radio resource slicing in wireless network virtualization, computing and transmission resource allocation in the core network, and how to establish a customized virtual network topology for multicast services. We will conclude this presentation with a brief discussion of some open research topics.

Biography: Dr. Weihua Zhuang has been with the Department of Electrical and Computer Engineering, University of Waterloo, Canada, since 1993, where she is a Professor and a Tier I Canada Research Chair in Wireless Communication Networks. She is the recipient of 2017 Technical Recognition Award from IEEE Communications Society Ad Hoc & Sensor Networks Technical Committee, one of 2017 ten N2Women (Stars in Computer Networking and Communications), and a co-recipient of several best paper awards from IEEE conferences. Dr. Zhuang was the Editor-in-Chief of IEEE Transactions on Vehicular Technology (2007-2013), Technical Program Chair/Co-Chair of IEEE VTC Fall 2017 and Fall 2016, and the Technical Program Symposia Chair of the IEEE Globecom 2011. She is a Fellow of the IEEE, the Royal Society of Canada, the Canadian Academy of Engineering, and the Engineering Institute of Canada. Dr. Zhuang is an elected member in the Board of Governors and VP Publications of the IEEE Vehicular Technology Society.

IEEE/CIC ICCC 2018 31

KEYNOTE SPEECH #3 Chair: Wenbo Wang, Zhiyong Feng, BUPT, China

Prof. Abbas Jamalipour School of Electrical and Information Engineering, The University of Sydney, Australia Fellow of the IEEE, Fellow of IEICE, Fellow of IE Australia Date: Friday, 17 August, 2018 Time: 10:00-10:30 Room: Golden Olive Hall

Wireless Powered and Traffic Control Towards 5G Cellular Networks Abstract: Power consumption and spectrum efficiency have been the main focuses in development of new technologies for all generations of wireless cellular communications. With the emergence of bandwidth hungry applications running on large-screen smart phones, a new focus is evolving for future 5G and Internet-of-Things (IoT) networks: Efficient traffic control. Traffic control is becoming a critical design factor in unavoidably ultra-dense cellular and mixed cellular-noncellular wireless network scenarios. Ultra-dense networks are to overcome the problem of increasing per-user capacity and

spectral efficiency by making cells smaller and bringing base stations closer to mobile hosts. With the emergence of highly delay sensitive applications such as connected vehicles and driverless cars, we need to make sure that while spectrum and energy are used efficiently, traffic load is also controlled well and the network delay is kept at extremely low levels. In this talk, the three factors of power, spectrum, and traffic load will therefore become the basis for the introduction of critical technologies to facilitate reliable and scalable operation of the 5G and IoT networks.

Biography: Abbas Jamalipour is the Professor of Ubiquitous Mobile Networking at the University of Sydney, Australia, and holds a PhD in Electrical Engineering from Nagoya University, Japan. He is a Fellow of the IEEE, IEICE of Japan, and the Institution of Engineers Australia; an ACM Professional Member, and an IEEE Distinguished Lecturer. He has authored six technical books, eleven book chapters, over 450 technical papers, and five patents, all in the area of wireless communications. He was the Editor-in- Chief IEEE Wireless Communications, Vice President-Conferences and a member of Board of Governors of the IEEE Communications Society, and has been an editor for several journals. He was a General Chair or Technical Program Chair for a number of conferences, such as IEEE GLOBECOM2018, ICC2014, PIMRC2012, and WCNC2010. Dr. Jamalipour is an elected member of the Board of Governors, Executive Vice-President, Chair of Fellow Evaluation Committee, and the Editor-in-Chief of the Mobile World, IEEE Vehicular Technology Society. He is recipient of a number of prestigious IEEE awards and 15 Best Paper Awards. He is one of the highly cited authors in the field of cellular networks.

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KEYNOTE SPEECH #4 Chair: Shuguang “Robert” Cui, University of California, Davis, USA

Prof. Ying-Chang Liang University of Electronic Science and Technology of China (UESTC), China. IEEE Fellow & Highly Cited Researcher Date: Friday, 18 August, 2018 Time: 8:30-9:00 Room: Xin Yuan Hall

Enabling Future Wireless Services: From Cognitive Radios to AI- empowered Wireless Networks Abstract: Future wireless communications are expected to support the explosive growth of mobile traffic and complex application scenarios. To meet this challenging requirement, wireless networks should be operated in smarter ways in resource utilization, network operation, and service provisioning. There have been extensive studies on cognitive radio in the past two decades, and more recently on deploying AI technologies to wireless networks. This talk will focus on some recent results on how to deploy cognition and AI technologies in the design of cellular and future wireless networks.

Biography: Dr Ying-Chang Liang (F’11) is a “Thousand Talent Programme” Professor at the University of Electronic Science and Technology of China (UESTC), China, where he leads the Center for Intelligent Networking and Communications (CINC). He was a Professor in University of Sydney, Australia, and a Principal Scientist and Technical Advisor in the Institute for Infocomm Research (I2R), Singapore. His research interest lies in the general area of wireless networking and communications, CR, DSA, Internet-of-Things, artificial intelligence and machine learning techniques. Dr Liang was elected a Fellow of the IEEE for contributions to cognitive radio communications, and was also recognized by Thomson Reuters (Now Clarivate Analytics) as a Highly Cited Researcher from 2014-2017. He received the Institute of Engineers Singapore (IES)’s Prestigious Engineering Achievement Award in 2007, and the IEEE Standards Association’s Outstanding Contribution Appreciation Award in 2011. He has also received numerous paper awards, with the recent ones including IEEE ICC Best Paper Award in 2017, IEEE ComSoc’s TAOS Best Paper Award in 2016, and IEEE Jack Neubauer Memorial Award in 2014. Dr Liang is Founding Editor-in-Chief of IEEE JSAC – Cognitive Radio Series, and key founder of the new journal IEEE TCCN. He was the Chair of IEEE

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Communications Society Technical Committee on Cognitive Networks, and served as Guest/Associate Editor of IEEE TWC, IEEE JSAC, IEEE SPM, IEEE TVT, and IEEE TSNPN. He was also an Associate Editor- in-Chief of the World Scientific Journal on Random Matrices: Theory and Applications. Dr Liang was a Distinguished Lecturer of the IEEE Communications Society and the IEEE Vehicular Technology Society, and served as TPC Chair and Executive Co-Chair of IEEE Globecom’17.

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KEYNOTE SPEECH #5 Chair: Shuguang “Robert” Cui, University of California, Davis, USA

Tao Zhang National Chiao Tung University Date: Saturday, 18 August, 2018 Time: 9:00-9:30 Room: Xin Yuan Hall

From Autonomous Vehicles to Autonomous Mobility: Challenges and Opportunities Abstract: Autonomous vehicles are coming. However, many more fundamental challenges remain to be addressed before self-driving vehicles can become practical in real-world environments. Furthermore, enabling vehicles to drive themselves is only the first step toward making them practical and realizing their full potential for advancing mobility and transportation. Autonomous vehicles will bring profound disruptions to technologies, business models, industry landscapes, policies and regulations. In this talk, I will discuss the challenges we face, the disruptions we may expect, and the opportunities we should seize now for the emerging world of autonomous vehicles.

Biography: Dr. Zhang co-founded, and is a Board Director for the Open Fog Consortium. He is the CIO and a Board Governor of the IEEE Communications Society. He co-founded and was a founding Board Director for the Connected Vehicle Trade Association. Dr. Zhang holds 50 US patents and has co- authored two books, Vehicle Safety Communications: Protocols, Security and Privacy (2012) and IP- Based Next Generation Wireless Networks (2004), both published by John Wiley & Sons. He co- founded the IEEE Communications Society Technical Sub-Committee on Vehicular Networks and Telematics Applications and served as its Chair from 2013 to 2015. He is a founding steering committee member of the IEEE Symposium on Edge Computing and the IEEE International Conference on Collaboration and Internet Computing. He was a co-founder and founding general chair and steering committee vice chair of the International Conference on Collaborative Communications (CollaborateCom). Tao has been serving on the editorial boards or as a guest editor for numerous leading technical journals. He has served on the industry advisory boards for multiple research organizations, has been an adjunct professor at multiple universities, and a frequent invited speaker at international conferences and industry events. He is now a Chair Professor of National Chiao Tung University.

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KEYNOTE SPEECH #6 Chair: Shuguang “Robert” Cui, University of California, Davis, USA

Mr. James Kimery National Instruments Date: Saturday, 18 August, 2018 Time: 9:30-10:00 Room: Xin Yuan Hall

Evolving 5G and Beyond Abstract: With the release of the first 5G draft in December 2017, what is next? The 3GPP did address many of the key objectives outlined by the industry for 5G with the initial specification. However, there is much work left to do. Expected challenges include commercialization, testing and enabling application ecosystems beyond 4G. In addition, wireless research enters a new phase; one that may radically depart from the path outlined by LTE many years ago. 5G has opened new research vectors in further evolving the physical layer, upper layers and even network topologies to fully fulfill the promise of a truly connected world. This talk will review the road to 5G, the challenges ahead, and introduce possible research areas necessary to advance wireless communications into the next decade.

Biography: James Kimery is the Director of Marketing for National Instruments Wireless Research and SDR initiatives. In this role, James is responsible for company’s 5G strategy encompassing both research and business initiatives. In this role, James leads NI’s RF and Communications Lead User program which works with leading researchers across the world to accelerate the transition from theory to prototype. James also manages the company’s software defined radio business including the Ettus Research subsidiary acquired by NI in 2010. In 2014, James chaired the IEEE Globecom industry committee which was held in Austin, Texas. Prior to joining NI, James was the Director of Marketing for Silicon Laboratories’ wireless division. As Director, the wireless division grew revenues exceeding $250M (from $5M) and produced several industry innovations including the first integrated CMOS RF synthesizer and transceiver for cellular communications, the first digitally controlled crystal oscillator, and the first integrated single chip phone (AeroFONE). AeroFONE was voted by the IEEE as one of the top 40 innovative ICs ever developed. James also worked at National Instruments before transitioning to Silicon Labs and led many successful programs including the concept and launch of the PCI eXtensions for Instrumentation (PXI) platform. James was a founding

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member of the VXIplug&play Systems Alliance, VISA working group, and PXI System Alliance. He has authored over 40 technical papers and articles covering a variety of wireless and test and measurement related topics. James holds degrees from the University of Texas at Austin (MBA) and Texas A&M University (BSEE).

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KEYNOTE SPEECH #7 Chair: Shuguang “Robert” Cui, University of California, Davis, USA

Prof. Sumei Sun Communications and Networks Cluster, Institute for Infocomm Research, Agency for Science, Technology, and Research Date: Saturday, 18 August, 2018 Time: 10:00-10:30 Room: Xin Yuan Hall

Cognitive Industrial Internet of Things and 5G MTC’s Role

Abstract: Industrial internet of things (IIoT), by providing connectivity to machines, robots, and sensors, etc, enables data intelligence-assisted information technology (IT) and operation technology (OT) convergence. In IIoT, multi-disciplinary research on communications, storage, computing and data analysis, control and management, and security, as well as cross-disciplinary system-level design optimization is needed, with built-in autonomous learning and adaptation capabilities.

In this talk, we will start with a brief introduction to IIoT, and then share the IIoT research and design challenges. A design approach will then be proposed to overcome these challenges, under the theme of cognitive IIoT in which the device and the network will build up learning capabilities for context- aware resource, interference, and mobility management, automated fault detection and recovery, and robust connectivity; multi-modal security detection capability is incorporated into the device and network for real-time anomaly and security detection and management. The interactive and cooperative edge-cloud analytics will also be introduced to enable low-latency real-time actionable insight and robust feature engineering. Finally, the 5G’s role, especially the 5G machine-type communications (MTC), from both the massive MTC aspect, and the ultra-reliable low latency communications (uRLLC) aspect, will be discussed.

Biography: Sumei SUN has been with the Institute for Infocomm Research (I2R) since 1995. She is now Head of the Communications and Networks Cluster, and the lead principal investigator of the Industrial IoT Research Program at the Agency for Science, Technology, and Research (A*STAR) in Singapore, working toward developing competitive solutions to bridge gaps from research to industry in the digital transformation journey.

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Dr Sun has authored and co–authored more than three hundred technical papers in prestigious IEEE journals and conferences. She’s inventor and co-inventor of thirty granted patents and over thirty patent applications, many of which have been licensed to industry. She is a Fellow of the IEEE, a Distinguished Speaker in the IEEE Vehicular Technology Society, and Vice Director of IEEE ComSoc Asia Pacific Board (2016-2019). She’s also the Wireless Systems Work Group Chair of Singapore Infocomm Media Development Authority’s Telecommunications Standards Advisory Committee (TSAC) during 2015 – 2018, and Services and Digital Economy Technology Roadmap Workgroup Chair for Future Communications and Internet of Things.

IEEE/CIC ICCC 2018 39

INVITED TALKS

Invited Session-1 Session Chair: Jianhua Zhang Date: Friday, 17 August, 2018 Time: 11:00-12:30 Room: Conference Hall 8 (2F)

Speaker: Kwang-Cheng Chen, University of South Florida, USA ([email protected]) Title: Ultra-Low Latency Mobile Networking by Artificial Intelligence Abstract: Autonomous (or unmanned) vehicles (AVs) merge as one major paradigm shift of the industry and human society, while introducing much more

challenging in wireless networks beyond the connected Speaker: Tony Quek, Singapore University of vehicles. After the technology for single intelligent Technology and Design, SG ([email protected]) vehicle becoming mature, the real challenge comes Title: Designing Pricing Mechanism in Sharing Economy from reliable, safe, real-time operation of autonomous Abstract: Sharing economy has been disrupting vehicles in massive scale or smart manufacturing by various industries such as transportation, housing, food robots. To achieve such multi-scale control, effective delivery, and professional services. Dynamic pricing is cloud computing, edge computing, and on-board used as a key tool in the sharing economy to incentivize computing, functions in real-time to interact with volatile participant-provided-supply to meet demand. environments and other agents like vehicles and robots. In this talk, we provide a framework for the design of Low-latency networking in the order of milliseconds is optimal pricing mechanism for sharing economy, where inevitably wanted to ensure successful computing and owners and renters come from a homogeneous pool of control in this most challenging Internet of Things. By users. In particular, we design a dynamic pricing introducing fog computing and proactive network mechanism to allocate resources such that social association, realizing virtual cell by integrating open- welfare is maximized. Since the platform has no control loop radio transmission and error control, and over participants’ decision and has incomplete innovating anticipatory mobility management through knowledge on participants’ payoff functions, it cannot machine learning, we demonstrate a new avenue optimize social welfare centrally. As such, we propose a toward ultra-low latency mobile networking to enable decentralized mechanism, such that the equilibrium massive operation of autonomous vehicles, robots, and point of our algorithm is the optimal allocation of the smart manufacturing. non-convex social welfare maximization problem. Our simulation results illustrate that our algorithm converges to the optimal solution and is robust to system disruptions that might occur in practice.

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learning algorithms are both computation-and- memory intensive, which makes it highly difficult to implement the requisite computations on a single device of limited computation, memory, and energy resources. Wireless distributed computing presents new opportunities by pooling computation and storage resources among devices. For low-latency applications, the key bottleneck lies in the exchange of Speaker: Qinyu Zhang, Harbin Institute of Technology， intermediate results among mobile devices for data CN ([email protected]) shuffling. To improve communication efficiency therein, Title: Network Protocols for Future Deep Space we propose a co-channel communication model and Exploration design transceivers by exploiting the locally computed Abstract: In the next two decades, humans are going intermediate values as side information. A low-rank to experience a grand age of deep-space exploration, optimization model is proposed to maximize the especially in Mars and Lunar spaces. These relatively achieved degrees-of-freedom (DoF) by establishing the frequent and long-term activities provides the interference alignment condition for data shuffling. opportunity, and at the same time, demands the Overcoming the weakness of current approximations, necessity for a true interplanetary networks as an we develop an efficient difference-of-convex algorithm essential infrastructures for future deep space to solve the formulated low-rank optimization problem exploration. In this talk, we try to provide a picture and by proposing a novel DC representation for the rank a perspective in the current network protocol function. Numerical experiments demonstrate that the architectures for future deep space internetworking. proposed DC approach can substantially improve the communication efficiency. Invited Session-2 Session Chair: Wei Zhang Date: Friday, 17 August, 2018 Time: 14:00-15:30 Room: Conference Hall 8 (2F)

Speaker: Jianwei Huang, The Chinese University of Hong Kong, CN/HK (ncel.ie.cuhk.edu.hk) Title: Economic Thinking of Communication Networks Abstract: Today’s communication networks are highly complex, carry heterogeneous traffic in diverse environments, and are often owned by multiple profit- making entities. To successfully maintain, optimize, and

upgrade such large distributed networks, it is important Speaker: Zhi Ding, University of California, Davis, USA to design new economic incentive mechanisms as well ([email protected]) as develop new technologies. The market deregulation Title: Data Shuffling in Wireless Distributed Computing of the telecommunication industry in many countries via Low-Rank Optimization makes such economic consideration even more urgent, Abstract: Intelligent mobile platforms such as smart as there are often conflicting goals between the vehicles and drones have recently become the focus of regulators and the commercial operators. In this talk, attention for onboard deployment of machine learning we will first illustrate how economics can help us better mechanisms to enable low latency decisions with low understand the networking industry reality, predict risk of privacy breach. However, most such machine IEEE/CIC ICCC 2018 41 user behaviors, envision new network services, and also can handle the security aspects. This talk will provide policy recommendations. Then we will focus on introduce some key research topics we are working on the case study of incentive mechanisms for user- in this field at Chalmers and within the EU H2020 provided networks (UPNs). 5GPPP 5GCAR project (https://5gcar.eu/).

Invited Session-3 Session Chair: Bo Ai Date: Saturday, 18 August, 2018 Time: 11:00-12:30 Room: Conference Hall 8

Speaker: Tommy Svensson, Chalmers University of Technology, SE ([email protected]) Title: Integrated Moving Networks – Mutual Opportunities for Connected Vehicles and Mobile Networks Abstract: The usage of broadband services via mobile devices is steadily becoming increasingly important. With 5G, users will expect the connected society to be available with no limitations, and users will make use of Speaker: Zhu Han, University of Houston, USA bandwidth-demanding services like augmented reality ([email protected]) and virtual office applications, also when on the move. Title: Big Data Analysis and Cross-Layer Optimization In this context, future vehicles and transportation for Communications, Caching and Computing (C^3) systems may play an important role in wireless Networks networks by providing additional communications Abstract: The recent advances of computing, caching, capabilities and becoming an integrated part of the and communication (C^3) can have significant impacts communications infrastructure to improve capacity and on the future network design. In addition, there are coverage of the operator driven mobile networks. That many new technologies for big data analysis and cross- is, in order to serve vehicular users effectively, one layer optimization. In this talk, we limit our scope to promising solution is to deploy moving base stations on three specific cases, while want to give insights. First, a the vehicles to form moving networks. However, the new formulation for bandwidth allocation and routing potential of moving base stations is not only to problem is formulated for wireless network effectively serve in-vehicle users, but also to serve out- virtualization, and the decomposition algorithms are of-vehicle users by acting as cooperative ad-hoc small constructed using the alternating direction method of cell base stations in generalized heterogeneous mobile multipliers that can be implemented in a parallel and networks. Such integrated moving network nodes can distributed fashion. Second, the caching based D2D also be used to efficiently support cloud-assisted communication scheme is investigated by taking social driving and more general mobile edge computing ties among users and common interests into solutions. Integrated moving network nodes also have consideration, and the hypergraph and matching the potential to be important enablers for realizing frameworks are employed for optimization. Third, we ultra-reliable communication links between vehicles consider mobile social networks together with C^3 and between mobile devices of other traffic networks using deep learning to study social networks participants in order to assist autonomous driving and and a novel deep reinforcement learning approach to new V2X services based on 5G mobile communications automatically make a decision for optimally allocating networks, which has the potential to substantially the network resources. improve traffic safety and efficiency, provided that we 42 IEEE/CIC ICCC 2018

has made an innovative licence-exempt spectrum sharing on the ultra-high frequency (UHF) TV bands in January 2016, which is the first of its kind worldwide. These spectra of 320MHz bandwidth have enabled the transition from research on cognitive radio theory into practical applications. Furthermore, the millimeter- wave (mm-wave) spectrum on 28GHz, 39GHz, 60GHz Speaker: Klaus Moessner, University of Surrey, UK with at least 1GHz bandwidth are being considered to ([email protected]) be further utilized to cope with high data rate wireless Title: Delivering high capacity in the below 6GHz bands applications and services demanded by users. The Abstract: The future mobile and fixed networks have satellite and radar applications are co-existing in these reached a point of unprecedented change as each mm-wave spectra, and thus any license-exempt use of attempt to meet the insatiable demand for data that is this spectra must first ascertain that the spectra to be essentially driven by new applications and new types of used is not already in use by the so called "primary communication need points/terminals. To be able to users". Therefore, sensing from several hundreds of meet the demand for hugely increased capacity, super- MHz bandwidth in UHF to GHz bandwidth in mm-wave fast connectivity that is delivered at any spot in the to gain a clear access to these spectra is critical, while world and the seemingly seamless delivery of services resulting in formidable and complex challenge on the requires a range of new technologies and new Nyquist-rate analog-to-digital sampling. approaches. This speech will deliver an introduction to the problems that we face delivering the capacity This talk presents a new approach to design GHz promised for 5G and beyond networks, and bandwidth sensing (GBSense) systems to overcome the concentrates on the aspects of capacity provision in the bottleneck of Nyquist-rate sampling by developing sub- bands below 6GHz. Nyquist sampling algorithms and repurposing the existing expertise of smart antennas and reconfigurable transmission lines. The GBSense offers new creative and implementable possibilities over a framework of real-time experimental platform without requiring Nyquist-rate sampling. The GBSense gives users access to a flexible hardware platform and application software that enables real-time over the air GHz bandwidth signal sensing, analysis and communication at both sub-6GHz and mm-wave frequency bands. Speaker: Yue Gao, Queen Mary University of London, UK ([email protected]) Industry-Panel: 5G - From Idea to Reality Title: GBSense: GHz Bandwidth Sensing System from Session Chair: Guangyi Liu Smart Antennas to Sub-Nyquist Signal Processing Abstract: Data rate for exchanging mobile information Date: Friday, 17 August, 2018 among people, machines and things has been Time: 16:00-17:30 exponentially increasing over the past decade. These Room: Conference Hall 8 (2F) data rates are empirically linked to radio spectrum availability. The exorbitant auction prices, e.g., £2.3 Billion for 4G spectrum in the UK, highlights the Topics: strength of the competitive market forces but also the 1. From Concept to Standard: At the moment 3GPP Rel-15 5G standard is to be frozen, scarcity of this precious resource. Driven by the scarcity the industrial experts are invited to review the vision of spectrum, the UK communications regulator (Ofcom) and concept of the 5G, share the observation of the gap IEEE/CIC ICCC 2018 43 between 5G vision and standard, investigate the and research of mobile communication technologies. potential new technologies as 5G enhancement to He started working at Samsung Electronics in 2003 in fulfill the extremely challenging requirements. standard and research work of TD-SCDMA and WCDMA 2. From Standard to commercial network: with the main focus on physical layer key technology With the release of 5G standard, the industrial experts research and performance requirements. Then he led are invited to discuss how to make 5G ecosystem mature and successful from, including how to deploy the 3GPP standard activities and strategy in Samsung 5G network (SA/NSA), how to enable 5G slicing, how to China including RAN1, RAN3 and RAN4 standardization. develop the vertical marketing et al. Since 2015, he has been leading the overall standard and research activities in Samsung China which cover next generation cellular technology research, 3GPP standardization and China domestic standardization. Dr. Sun holds a Doctorate in Signal and Information Processing at Harbin Institute of Technology in China.

Speaker: Guangyi Liu, 5G Director, CTO of Wireless and Device department, China Mobile Research Institute Bio: Guangyi Liu [M] received his M.S. and Ph.D. degrees in circuits and systems from Beijing University of Posts and Telecommunications in 2000 and 2006, respectively. Since 2006, he has been working for the Speaker: Hai Tang, Director of Standards, Guangdong China Mobile Research Institute (CMRI). Now he is the OPPO Mobile Telecommunications Corp., Ltd. 5G director of CMRI and chief technical officer of Bio: Mr. Tang Hai is Director of Standards and head of Wireless and Device Department of CMRI. He is leading Standards Research Center of Guangdong OPPO Mobile the 5G’s standardization, industrialization and field trial. Telecommunications Co., Ltd. He is in charge of the He has also led the world first 3D-MIMO cellular (LTE, 5G), IoT and other standardization commercialization in 2.6GHz TD-LTE with 128 antennas. activities. Mr. Tang is a senior standardization worker. He was granted an outstanding winner special award of Before joining OPPO in 2015, he worked for China national science and technology innovation by Chinese Mobile Communications Corp. and Datang government in 2017 due to his distinguished Telecommunication Group for extensive period of time. contribution on TD-LTE. Mr. Tang served as Vice Chairman of 3GPP TSG RAN during 2009-2013.

Speaker: Chengjun Sun, Senior Director, Beijing Samsung Telecom R&D Center Speaker: Hao Guan, Manager of 5G architecture and Bio: Dr. Sun is currently a Senior Director and Head of specification, Nokia Shanghai Bell Standard and Research Team at Beijing Samsung Bio:Hao Guan is leading 5G Architecture & Specification Telecom R&D Center in China, responsible for standard Beijing in Mobile Networks Edge Cloud Engine. She is 44 IEEE/CIC ICCC 2018 responsible for 5G’s Architecture & Specification Speaker: Yin Liu, Head of China Radio Research Lab, development to ensure Nokia innovation leadership Ericsson Northeast Asia also in the future. Before this, Hao was leading Mobile Bio: Ms. Dr. Yin LIU, received her PhD degree at Dept. End to End Research Beijing Lab in Nokia Bell Labs. The EE, Technical University Kaiserslautern, Germany in research team focus on key techniques of 5G and LTE. 2005 and Bachelor degree in Dept. of Automation, Meanwhile Hao lead Nokia’s Asia 5G activities from Tsinghua University, China, in 1999 respectively. She internal research and external collaboration with joined Ericsson Research in 2005. She has worked as Sr. operators, partners and universities. Her technique researcher, Sr. product manager, Head of Northeast focus area including 5G radio, 3GPP/LTE network Technology RAN and Head of China Radio Research Lab evolution and interference management. Hao started of Ericsson Research. She has been focusing on her industrial telecoms career from 1999 and she advanced research studies, technology trials and received M.S.(1996) and Ph.D.(1999) in Electrical standardization, e.g., 5G and related applications. Engineering from Northern Jiaotong University.

Academic-Panel Session Chair: Shidong Zhou Date: Friday, 17 August, 2018 Time: 17:00-18:00 Room: Conference Hall 8 (2F)

IEEE/CIC ICCC 2018 45

WORKSHOPS

The Seventh IEEE/CIC ICCC International Workshop Date: Thursday, 16 Aug. 2018 Room: Conference Hall 6 (2F)

Workshop-1 Millimeter-wave and Massive MIMO in Future Wireless Networks Session Chair: Wei Xu Time: 08:30-09:30, 16 Aug. 2018

Spatio-temporal Correlated Channel Feedback for Massive MIMO Systems Yao Ge; Zhimin Zeng; Tiankui Zhang; Yuanwei Liu

Energy-Efficient Hybrid Precoding for mmWave Massive MIMO Systems Weiwei Dong; Tiankui Zhang; Zhirui Hu; Yuanwei Liu; Xiao Han

An Optimized Symmetric Accumulated Cross-Correlation Method of Parameter Estimation for ISAR Motion Compensation Jiayin Xue; Xiao Han; Qinyu Zhang

Low Complexity Hybrid Precoding Algorithm in Millimeter Wave MIMO Systems Ye Wang; Weixia Zou

Orthogonal Polarizations Based Channel Estimation for Dual-polarized Massive MIMO Under Pilot Contamination Li Han; Fangfang Liu; Chunyan Feng; Shulun Zhao

Two-Layer Beamforming for Virtual Cell in Ultra Dense Network Xiusha An; Changyin Sun; Fan Jiang

Beam Selection for Beam Refinement Procedure in Multi-cell Millimeter-Wave Massive MIMO Systems Leiqin Yan; Hongwen Yang; Yushu Zhang

Workshop-2 3rd International Workshop on Connecting All Things for Enabling Smart Cities (CONTEST) Session Chair: Hongjian Sun Time: 16:30-17:30, 16 Aug. 2018

Energy Hub Scheduling Method with Voltage Stability Considerations Minglei You; Weiqi Hua; Mahmoud Shahbazi; Hongjian Sun

Dynamic Virtual UE in Ultra Dense Networks: Forming Procedure and Design Insight

46 IEEE/CIC ICCC 2018

Muchu Niu; Hongtao Zhang Dynamic Offloading Scheduling Scheme for MEC-enabled Vehicular Networks Hansong Wang; Xi Li; Hong Ji; Heli Zhang

A Distance-Sensitive Distributed Repulsive Sleeping Strategy for Densely-Deployed Small Cells in Green Cities Yanhua He; Liangrui Tang; Zhenyu Zhou

A Blind Source Separation Approach Based on Normalized Convex Perimeter Liu Yang; Hang Zhang; Yang Cai; Liming Hu

An Energy-Efficient User Association Scheme Based on Robust Optimization in Ultra-Dense Networks Chenming Ma; Fangfang Liu; Zhimin Zeng; Shulun Zhao

Filtered-OFDM for Visible Light Communications Yanyan Wang; Ying Wei; Wensheng Zhang; Chengxiang Wang

A Connectivity-Aware Caching Algorithm for Vehicular Content Centric Networks with Cache-Enabled Vehicles Sangsha Fang; Hongning Mao

Practical Neighbor Discovery in Multi-carrier Ad Hoc Networks with Directional Antennas Yunfeng Liu; Zebing Feng; Zhiyong Feng

Multiple Resource Units Allocation and Scheduling with QoS Guarantees for NB-IoT systems Yating Gao; Ningbo Zhang; Guixia Kang

A Contract-Based Mobile Charging Scheme for Wireless-Powered Sensors in Industrial Internet of Things Networks Li Jiang; Yi Liu; Chao Yang; Jiawen Kang; Xuzhen Zhu

Traffic Load Based Adaptive Almost Blank Subframe Optimization in LTE-U and WiFi Coexisted Systems Zhijian Guo; Qixun Zhang; Yifei Cai; Zhiyong Feng; Wei Li

Multiple Attribute Handover in 5G HetNets Based on an Intuitionistic Trapezoidal Fuzzy Algorithm Mengyuan Liu; Yibo Huan; Qixun Zhang; Wei Lu; Wei Li; T. Aaron Gulliver

Workshop-4 Integrated Aerial and Terrestrial Communication Systems Session Chair: Yong Zeng Time: 14:00-15:30, 16 Aug. 2018

UAV Air-Ground Channel Ray Tracing Simulation Validation César Calvo Ramírez; Zhuangzhuang Cui; Cesar Briso; Ke Guan; David W Matolak

Space-Time Spectrum Sharing for Unmanned Aerial Vehicle Networks Xiaolan Chen; Zhiqing Wei; Hui Tian; Zhiyong Feng

IEEE/CIC ICCC 2018 47

Judgement-based Joint SLM and PTS Algorithm for PAPR Suppression of Radar Communication Integrated System Hong Zhao; Weixia Zou

3D UAV Placement and Resource Allocation in Software Defined Cellular Networks Chunyu Pan; Changchuan Yin; Jian Yu; Nahida Kiran

Performance Analysis of Three-Dimensional MIMO Antenna Arrays for UAV channel Yuming Bi; Jianhua Zhang

Localization of WiFi Devices Using Unmanned Aerial Vehicles in Search and Rescue Yunpeng Sun; Xiangming Wen; Zhaoming Lu; Tao Lei; Shan Jiang

Deployment of UAV and Interference Coordination in UAV-assisted Cellular Networks Xuanguang Hu; Xin Zhang; Dacheng Yang

Workshop-6 Space Information Networks Session Chair: Min Sheng Time: 09:30-10:30, 16 Aug. 2018

Performance Evaluation of Double-edge Satellite Terrestrial Networks on OPNET Platform Peng Wang; Jiaxin Zhang; Xing Zhang; Liangjingrong Liu; Yuanjun Wang; Le Ouyang

A Transfer Learning Method For Ship Recognition In Multi-Optical Remote Sensing Satellites Hongbo Li; Bin Guo; Tong Gao; Hao Chen; Shuai Han

An Evaluation Method for Technical Condition of Ground-Based TT&C Network Bo Ren; Jianping Liu; Ming Wang; Tao Wu; Long Wen

Dynamic Bandwidth Scheduling for Multi Protocol Convergence Fiber Channel Network Shaojun Wu; Yueying Zhan; Kuangyi Qiao; Jianhua He; Xiang Chang; Liqian Wang

An automatic target acquisition algorithm based on the shape characteristics for LEO satellite Hanqiu Li

Improving Integrated Terrestrial-Satellite Network Utilization using Near-Optimal Segment Routing Guiting Zhong; Jian Yan; Linling Kuang

NDN-Based Multimedia Content Distribution in Space-Ground Integration Network Junfeng Lyu; Yulong Chen; Yang Cao

Workshop-7 International Workshop on Non-Orthogonal Multiple Access (NOMA) for 5G and IoT Networks Session Chair: Yuanwei Liu Time: 11:00-12:30, 16 Aug. 2018 48 IEEE/CIC ICCC 2018

Diversity Enhancing for Downlink Cooperative Non-Orthogonal Multiple Access Systems Dehuan Wan; Fang-Jiong Chen; Fei Ji; Hua Yu; Yun Liu

Practical Power Allocation Schemes for Cooperative Relay Networking with NOMA Wei Duan; Jaeho Choi; Haiyang Yu; Jinjuan Ju

User Fairness Non-orthogonal Multiple Access (NOMA) in Millimeter-Wave Communications Lipeng Zhu; Jun Zhang; Zhenyu Xiao; Xianbin Cao

A Sparse Superposition Multiple Access Scheme and Performance Analysis for 5G Wireless Communication Systems Zhang Kai; Jin Xu; Changchuan Yin; Weiqiang Tan; Chunguo Li

On the Performance of Multi-Relay Cellular Networks with NOMA Wei Duan; Qiang Sun; Guo-An Zhang; Li Jin; Jinjuan Ju

Study of the Symbol Error Rate/Bit Error Rate in Non-orthogonal Multiple Access (NOMA) Systems Weijia Han; Yu Wang; Di Tang; Ronghui Hou; Xiao Ma

Dynamic QoS-Aware Resource Allocation for Narrow Band Internet of Things Wei Chen; Heli Zhang; Hong Ji; Xi Li

Uplink Grant-free Multi-codebook SCMA Based on High-overload Codebook Grouping Hanyuan Huang

A Universal Receiver for Uplink NOMA Systems Xiangming Meng; Yiqun Wu; Chao Wang; Yan Chen

The Seventh IEEE/CIC ICCC International Workshop Date: Thursday, 16 August Room: Conference Hall 7 (2F)

Workshop-3 Integration of Communication, Computation, and Caching in 5G Fog Radio Access Networks (3C F-RAN 2018) Session Chair: Zhongyuan Zhao Time: 16:00-17:30, 16 Aug. 2018

Resource Allocation for Computation Offloading in Fog Radio Access Networks Shuqing Bu; Tiezhu Zhao; Zhenping Yin

IEEE/CIC ICCC 2018 49

On the Design of OFDM-Based Simultaneous Wireless Information and Power Transfer in Fog-Radio Access Networks Chunhua Liu; Yong Li; Zhendong Mao; Tong Sha

A Matching Game Approach for Joint Resource Allocation and User Association in Fog Radio Access Networks Xueyan Cao; Chunjing Hu; Shi Yan

Distributed Reinforcement Learning for Quality-of-Service Routing in Wireless Device-to-device Networks Dongyu Liu; Zexu Li; Zeyu Hu; Yong Li

Edge Computing Sever Selection in Fog Radio Access Network Xile Shen; Xiaoshi Song; Xiangbo Meng; Chao Jia

Performance Analysis of Outage and Average Sum Rate of Sparse Code Division Multiple Access in Fog Radio Access Networks Yi Gu; Mingfeng Xu; Zhendong Mao; Yuan Ai; Shuqing Bu

R-CNN Object Detection Inference With Deep Learning Accelerator Yuxin Qian; Hongli Zheng; Dazhi He; Zhexi Zhang; Zongpu Zhang

Adaptive Vehicle Cooperative Positioning System With Uncertain GPS Visibility and Neural Network- based Improved Approach Siyuan Liu; Dazhi He; Yin Xu; Chao Zhang; Suibin Sun; Dongyu Ru

Deep Reinforcement Learning Based Coded Caching Scheme in Fog Radio Access Networks Yangcheng Zhou; Mugen Peng; Shi Yan; Yaohua Sun

Task Allocation for Multi-APs with Mobile Edge Computing Peng Sun; Heli Zhang; Hong Ji; Xi Li

Joint Beamforming and Clustering Optimization of Hybrid-Energy-Powered eRRHs in F-RANs Binghong Liu; Mugen Peng; Zheng Zhou

Two-stage update strategy for edge caching deployment based on access information in Ultra Dense Network Xueyong Yu; Miaomiao Qu; Taibao Wang; Zhu Hongbo

QoS-aware resource reallocation based on flow priority in software defined network Kaiming Liu; Qijie Yuan; Yuanan Liu

50 IEEE/CIC ICCC 2018

Workshop-5 Ultra-Reliable and Low-Latency Communications in Wireless Networks (URLLC) Session Chair: Zhi Chen Time: 14:00-15:30, 16 Aug. 2018

Research on Ultra-Reliable and Low-Latency Wireless Communications in Smart Factory with Finite Block-Length Yang Long; Yanan Gao; Tao Yang Low Complexity Detection Algorithm for Generalized Precoding Aided Spatial Modulation Yu Guo; Wenxiu Wu; Zhechen Zhu; Jia Hou

A Game Theory Scheme Combined with the Interference Region in Cellular D2D Heterogeneous Networks Tingting Zhong; Tao Peng; Yating Zhang

Dynamic Resource Sharing Scheme across Network Slicing for Multi-tenant C-RANs Zhang Jian; Wu Muqing; Ma Ruiqiang; Wan Xiusheng

A Novel PAPR Reduction Algorithm Based on SLM Technique in UFMC Systems Zhang Yu; Kaiming Liu; Yuanan Liu

An Improved DSED Energy-Efficient Algorithm for Software-Defined Wireless Sensor Networks Zhihao Zhao; Wu Muqing; Jiangwei Shen

Clustering Algorithm Based on Extending Dynamic Subnetwork Scheme for Software-Defined Wireless Sensor Networks Jiangwei Shen; Wu Muqing; Zhihao Zhao

IEEE/CIC ICCC 2018 51

TUTORIALS

Tutorial-1: Challenges and Solutions for LTE and 1. Motivation for 4G LTE based V2X 5G based V2X Communications Communications (20 minutes) Time: 09:00-12:30, Aug. 16, Thursday  DSRC based V2X communications Room: Conference Hall 1 (2F)  LTE based V2X communications and the advantages Instructor(s): 2. LTE V2X infrastructure and operating scenarios (60 minutes)  4G LTE V2X communication model  3GPP LTE V2X communication architecture  Operating scenarios 3. Challenges and solutions in 4G and 5G for supporting V2X communications (60 minutes)  Physical layer structure  Synchronization Yi Qian  Resource allocation University of Nebraska-Lincoln, USA  Security and privacy  Multimedia broadcast multicast services Abstract: A wide variety of work has been down in vehicle-to-everything (V2X) communications to 4. Open research issues for future 5G based V2X enable various applications for road safety, traffic communications (30 minutes) efficiency and passenger infotainment. Although  Emerging 5G technologies and V2X IEEE 802.11p used to be considered as the main communications technology for V2X, new research trends  Vehicular cloud computing nowadays are considering cellular technology as  Vehicular fog computing the future of V2X due to its rapid development and  Security and privacy in 5G V2X ubiquitous presence. This tutorial surveys the communications recent development and challenges on 4G LTE and 5. Conclusion (10 minutes) 5G mobile wireless networks to support efficient V2X communications. In the first part, we highlight Tutorial-2: Wireless Channel Models and the technical motivations of 4G LTE for V2X communications. In the second part, we explore Standards Development for 5G and Beyond the LTE V2X architecture and operating scenarios Time: 09:00-12:30, Aug. 16, Thursday being considered. In the third part, we discuss the Room: Conference Hall 8 (2F) challenges and the new trends in 4G and 5G for supporting V2X communications such as physical Instructor(s): layer structure, synchronization, resource allocation, security, multimedia broadcast multicast services (MBMS), as well as possible solutions to these challenges. Finally, we discuss some open research issues for future 5G based V2X communications. The tutorial is organized as follows (Intended length of the tutorial: half-day): 52 IEEE/CIC ICCC 2018

to 5G. New channel characteristics are then analyzed for some challenging 5G scenarios, including massive MIMO, millimetre wave, V2V, and HST communication channels. We will also review 9 standard 5G channel models in terms of their capabilities and drawbacks. A more general three-dimensional (3D) non-stationary 5G channel model is proposed, extending from the 4G standardized WINNER II channel model with additional features supporting 3D extension, Cheng-Xiang Wang mmWave bands, space-time non-stationarity, Heriot-Watt University, UK massive MIMO, high mobility, and V2V scenarios. It is shown that the proposed 5G channel model Abstract: To meet the challenging requirements of has statistical properties agreeing well with supporting greatly enhanced spectrum efficiency, corresponding channel measurements and is energy efficiency, data rate, connection density, expected to serve as a good basis for future and mobility, as well as reduced latency, fifth standardized (B)5G channel models. Future generation (5G) wireless communication networks research challenges and trends for (B)5G channel need to employ dramatically new network measurements and models will be discussed in the architecture and key technologies. These include end of the tutorial. massive multiple-input multiple-output (MIMO), millimetre wave (mmWave) communications, The tutorial is organized as follows (Intended high-speed train (HST) communications, vehicle- length of the tutorial: half-day): to-vehicle (V2V) communications, and ultra-dense 1. 5G Requirements, Cellular Architecture, and networks. The standardization activities of 5G Key Technologies wireless communication networks are still going on, with a full-scale rollout projected in the next 2. Evolution of Wireless Channel Models from 2G few years. However, forthcoming releases of 5G to 5G will not fully be able to meet all diverse, but often 3. 5G Channel Model Requirements and New contradictory requirements, of the future. Beyond Channel Characteristics 5G (B5G) networks, expected to be developed over the next decade, will have to offer higher data 4. Massive MIMO Channel Measurements and rates, improved coverage, and better cost Models efficiency, resource utilization, security, 5. mmWave Channel Measurements and Models adaptability, and scalability, as compared to 5G. 6. V2V Channel Measurements and Models For the design, performance evaluation, and 7. High-Speed Train Channel Measurements and optimization of 5G and B5G wireless Models communication systems, realistic channel models with good accuracy-complexity-flexibility trade-off 8. 9 Standardized 5G Channel Models are indispensable. The proposed tutorial is 9. A More General 3D Non-Stationary 5G Channel intended to offer a comprehensive and in-depth Model crash course to communication professionals and academics, aiming to address recent advances and 10. Future Research Challenges and Trends for future challenges for (B)5G channel measurements (B)5G Communications and Channel Models and models. The tutorial will start with illustrating 11. Conclusions the evolution of wireless channel models from 2G

IEEE/CIC ICCC 2018 53

Tutorial-3: Invoking Emerging Analytical Tools for dramatically increased in recent years with the NOMA: Matching Theory, Stochastic Geometry emergence of smart phones, tablets, and various new applications. It is hence crucial to increase and Machine Learning network capacity to accommodate these Time: 09:00-12:30, Aug. 16, Thursday bandwidth consuming applications and services. Room: Conference Hall 9 (2F) Non-orthogonal multiple access (NOMA), which has been recently proposed for the 3rd generation Instructor(s): partnership projects long-term evolution advanced (3GPP-LTE-A), constitutes a promising technology of enhancing the spectral efficiency and achieving massive connectivity challenges in 5G networks by accommodating several users within the same orthogonal resource block, via multiplexing at different power levels. By doing so, significant spectral efficiency enhancement can be attained over conventional orthogonal multiple access (OMA) techniques. The aim of the tutorial is to provide an introduction for NOMA for Arumugam Nallanathan addressing three critical issues, which are Queen Mary University of London, UK compatibility, security and sustainability, combining with some of our research contributions in this field. More importantly, emerging analytical tools, such as matching theory, stochastic geometry, and machine learning are invoked to study NOMA. This tutorial will take a comprehensive and coordinated approach in presenting the ways of realizing the potential advantages for NOMA in next general wireless systems and identify promising research opportunities for the future.

Zhiguo Ding The tutorial is organized as follows (Intended Lancaster University, UK length of the tutorial: half-day):

1. Background and Basics for Wireless Communications – present the basics, challenges, recent progress, and open issues for next generation communication systems:  Brief History of Wireless Standardization: provide a comprehensive overview of the mobile communication evolutions with the focus on the state-of-the-art of multiple access techniques;

Yuanwei Liu  Challenges: present new requests, open Queen Mary University of London, UK issues and research challenges for next generation mobile communications; Abstract: Mobile data traffic, especially mobile video traffic and small-size IoT packets, has 54 IEEE/CIC ICCC 2018

 Key solutions for multiple access: survey implementation issues and corresponding the most important technological solutions potential solving approaches for non-orthogonal multiple access.  Error Propagation in SIC  Channel Estimation Error and Complexity 2. NOMA Basics – discuss the Basic Principles of for NOMA power-domain NOMA.  Security Provisioning for NOMA  Key Techniques of NOMA  Maintaining the Sustainability of NOMA  Identifying OMA and NOMA with RF Wireless Power Transfer  Main advantages of NOMA  State-of-the-art for Standardization of  Investigating NOMA from an Information NOMA Theoretic Perspective  Downlink and Uplink NOMA Transmission 8. Practical Forms of NOMA – classify the practical forms of NOMA also into single- 3. NOMA Combined with Multiple Antennas carrier and multiple-carrier NOMA Techniques – present the application of  Single-Carrier NOMA multiple antenna techniques on NOMA  Multi-Carrier NOMA  Cluster-Based MIMO-NOMA  Beamformer-Based MIMO-NOMA  Massive-MIMO-NOMA Tutorial-4: Spatiotemporal Modeling in Wireless Networks: Analysis and Applications 4. Interplay between NOMA and Cooperative Communications – present promising Time: 09:00-12:30, Aug. 16, Thursday cooperative NOMA technologies and the Room: Conference Hall 7 (2F) application of NOMA in cooperative networks.  Cooperative NOMA Instructor(s):  NOMA in Cooperative Transmission Based Networks 5. Resource Management in NOMA Networks – present resource controlling in terms of power controlling and user/resource allocation.  Power Allocation for NOMA  User Scheduling in Dynamic Cluster/Pair Based Hybrid MA Networks  Software-Defined NOMA Network

Architecture Tony Q. S. Quek 6. NOMA Invoking Other Technologies towards Singapore University of Technology and Design, SG 5G – consider co-existence of NOMA with other 5G proposals  NOMA in HetNets  NOMA in Millimeter Wave Communications  NOMA and Cognitive Radio Networks  NOMA-Based Device-to-Device Communication 7. Implementation Challenges and Standardization of NOMA – identify some

Howard H. Yang IEEE/CIC ICCC 2018 55

Singapore University of Technology and Design, SG temporal dynamic of different transmitters are highly coupled, i.e., the activation or silence of one Abstract: The fifth-generation wireless network is base station can affect the queueing status of base coming into reality. Along with the rapid progress station located in proximity to it, which in turns will of wireless industry, conventional macro base change the related delay. As such, purely stations are now overlaid by another tier consists understanding the impact from one single of access points that are small size, low power, and dimension of the network, either it is spatial or densely deployed. Such heterogeneous network temporal, is not sufficient, and both the academic architecture reduces the distance between and industry are calling for a model that is able to transmitters and receivers, and, with an upgraded simultaneously capture the impact from both transmission scheme, e.g., the millimeter wave spatial and temporal aspects. In this tutorial, we communication, at the base stations, will greatly will first provide the background about basic boost up data rate, enlarge capacity, and reduce models for wireless networks in spatial and transmission delay. As a result, a number of new temporal domain. Based upon these models, we techniques are emerging, including the Internet- will elaborate in details on several advanced of-Things (IoT), autonomous vehicles, and improvements that end up in useful Unmanned Aerial Vehicles (UAVs). In addition to spatiotemporal network models. We will also the increasing volume of the connected devices, introduce different applications of the the content flowing through the network is also spatiotemporal model, that facilitates the design largely switching from the traditional text/voice of various wireless technologies. messages to multimedia-oriented applications. These new trends not just flourish the blossom of The tutorial is organized as follows (Intended wireless industry, but also impose many challenges length of the tutorial: half-day): for the network operators, e.g., how to connect a vast amount of devices while still guarantee the The tutorial is mainly divided into three parts. delay to be within certain range across the network, 1. In the first part, we introduce the necessary especially when there are high degrees of background about spatiotemporal wireless fluctuations in both spatial and temporal domain. network modeling, where we mainly discuss

the current progress based on queuing Before any adequate response can be given, the network and the basic results from stochastic primary requirement for network operators will be geometry, as well as the limitations of these to attain a full understanding of the joint effect tools. from two fundamental aspects of wireless network, i.e., the spatial locations of base stations and the 2. In the second part, we will introduce three temporal dynamic of traffic, because the former different modeling schemes that were recently determines the deployment strategy and the latter proposed, including the bounding approach affects the employed transmission technology. based on favorable/dominant system Conventionally, the impacts related to topological argument, the Geo/PH/1 queue modeling, aspect in wireless network has been well light-traffic steady state approximation, and investigated by leveraging tools from stochastic the recently proposed meta-distribution based geometry, and the temporal traffic dynamics are modeling. thoroughly explored via the models based on 3. In the last part, by adopting the spatiotemporal queuing theory. However, neither of these tools modeling result, we discuss the design of allows one to take into account the effect from the clustering in Dynamic TDD systems, delay other domain, and hence they lack a complete analysis of different traffic scheduling schemes treatment in the modeling purpose. On the other in small cell networks, and traffic-aware base hand, with the dense deployment of access points, station association schemes. Throughout this 56 IEEE/CIC ICCC 2018

tutorial, the goal is to introduce the spatiotemporal modeling method and extend its applications into the design of future wireless systems.

Tutorial-5: Recent Advances in Wireless Localization Time: 14:00-17:30, Aug. 16, Thursday Room: Conference Hall 1 (2F)

Instructor(s): Tingting Zhang Shenzhen Graduate School, Harbin Institute of Technology (HIT), CN

Abstract: In this tutorial, we provide an overview for the recent advances in wireless localization, in particular from the physical-layer perspective of theory and algorithm design. Starting from the basic models and concepts of wireless localization, we overview the state-of-the-art results on cooperative network localization and array-based network localization. Then, we introduce network Yuan Shen operation techniques for efficient wireless Tsinghua University, CN localization in both noncooperative and cooperative scenarios. A typical example is then discussed to preserve location privacy using proper power allocation strategies. High accuracy and efficient vehicle localization methods are also discussed. Finally, we introduce the recent advances in PHY-layer security in wireless localization.

The tutorial is organized as follows (Intended length of the tutorial: half-day):

Guodong Zhao 1. Introduction (0.5 hour) Univ. of Electronic Sci. and Tech. of China (UESTC),  Motivation and background CN  System models for wireless localization  Common wireless localization techniques 2. Theoretical Framework for Wireless Localization (1 hour)  Non-cooperative wireless localization  Spatiotemporal cooperative wireless localization  Localization with antenna arrays

IEEE/CIC ICCC 2018 57

3. Joint Power and Spectrum Allocation for ShanghaiTech University, CN wireless localization 0.75 hour)  Joint power and bandwidth allocation Abstract: (JPBA) Ultra-dense network (UDN) is a promising  JPBA for asynchronous cooperative technology to further evolve wireless networks localization networks and meet the diverse performance requirements  Location privacy protection using resource of 5G networks. With abundant access points, allocation approaches. each with communication, computation and storage resources, UDN brings unprecedented 4. Physical Layer Security in Wireless Localization benefits, including significant improvement in (0.75 hour) network spectral efficiency and energy efficiency,  Motivation and Backgrounds greatly reduced latency to enable intelligent  PHY-layer spoofing attack detection and mobile applications, and the capability of localization providing massive access for Internet of Things (IoT)

devices. However, such great promises come with Tutorial-6: Generalized Sparse and Low-Rank formidable research challenges. To design and Optimization for Ultra-Dense Networks: Models, operate such complex networks with various types Algorithms and Theory of resources, efficient and innovative Time: 14:00-17:30, Aug. 16, Thursday methodologies will be needed. This motivates the Room: Conference Hall 8 (2F) recent introduction of highly structured and generalizable models for network optimization. Instructor(s): This tutorial shall present recent advances in structured sparse and generalized low-rank techniques for optimizing UDNs, with a comprehensive coverage including modeling, algorithm design, and theoretical analysis. Through motivating applications (e.g., mobile edge caching and wireless distributed learning), the powerfulness of this set of tools will be demonstrated, and their abilities in solving key design problems in UDNs will be highlighted. A special attention is paid on algorithmic approaches Jun Zhang to deal with nonconvex objective functions and The Hong Kong University of Science and constraints, as well as computational scalability. Technology, CN/HK The tutorial is organized as follows (Intended length of the tutorial: half-day): 1. Overview 2. Sparse Optimization for UDNs 3. Low-Rank Optimization for UDNs 4. Conclusions

Tutorial-7: Orbital Angular Momentum for

Wireless Communications: New Orthogonal Yuanming Shi Dimension for Radio Access 58 IEEE/CIC ICCC 2018

Time: 14:00-17:30, Aug. 16, Thursday order OAM transmission, degree of freedom in Room: Conference Hall 9 (2F) mode domain as well as orthogonally of OAM mode. Finally, the applications of OAM based

wireless communication are also discussed. Instructor(s):

The tutorial is organized as follows (Intended length of the tutorial: half-day): 1. Background of OAM  What is OAM based wireless communication: back ground and motivation  Mode domain versus frequency/time domain

Wenchi Cheng 5. Fundamental Theory of Using OAM for Xidian University, CN Wireless Communications Abstract: It is now very difficult to use the  High Spectrum efficiency radio vortex traditional plane-electromagnetic (PE) wave based wireless communication: multiple-mode wireless communications to satisfy the ever-lasting OAM signal generation / adaptation / capacity demand growing. Fortunately, the reception; electromagnetic (EM) wave possesses not only  Long distance radio vortex wireless linear momentum, but also angular momentum, communication: OAM beam converging; which includes the orbital angular momentum  Mobility issues regarding radio vortex (OAM). The orbital angular momentum (OAM), wireless communication which is a kind of wave front with helical phase and  OAM versus MIMO: degree of freedom, has not been well studied yet, is another important orthogonally, and capacity; property of EM wave. The OAM-based vortex wave  Anti-Jamming: Mode hopping; has different topological charges, which are  Orthogonal mode division multiplexing; independent and orthogonal to each other,  Concentric UCAs based low-order OAM. bridging a new way to significantly increase the 6. Application of Using OAM for Wireless capacity of wireless communications. This Communications proposal will be discussing the fundamental theory  Mode-division-multiple-access based MAC of using orbital angular momentum (OAM) for protocol for radio-vortex wireless networks wireless communications. This proposal would  OAM for ultra-dense networks start with the background introduction on what is OAM based wireless communication and how OAM is important in current and future wireless communications. Then, the fundamental theory of OAM will be elaborated on in details, including OAM versus MIMO, OAM signal generation/reception, and OAM beam converging. Moreover, we would also like to share our latest research progress regarding how to apply OAM into wireless communications, including mode modulations, OAM mode convergence, mode hopping, OAM based MIMO, orthogonal mode division multiplexing, concentric UCAs based low- IEEE/CIC ICCC 2018 59

ICCC2018 TECHNICAL PROGRAM

List Estimation-aided Successive-Cancellation List Conference Hall 9 Decoding of Polar Codes Time: 11:00 -12:30, 17 Aug. 2018 Hongxu Jin; Rong Ke Liu OCSN Sequential Scheduling for Belief-Propagation SESSION CHAIR: Hui Yang Demodulation of Rate Compatible Modulation

Huilian Zhang; Shaoping Chen Wide-range Dimmable Clipped Flip-OFDM For

Indoor Visible Light Communications An Efficient Construction Method for Ultra- Liang Wu; Lingkai Kong; Zaichen Zhang; Jian Dang; Reliable Finite Length Analog Fountain Codes Huaping Liu Zixuan Huang; Zhang Ke; Jian Jiao; Lianqin Li;

Shaohua Wu; Qinyu Zhang Sparsity-based Channel Estimation in Visible Light

Communication Location Design of Multiple Cyclic Redundancy Chong Zhang; Huiqin Du; ZuJian Wu Checks for Polar Codes in Successive Cancellation

List Decoding Diversity Combining for ACO-SCFDM in Intensity- Hongxu Jin; Rong Ke Liu Modulated and Direct-Detection Systems

Liu Shuangyue; Ji Zhou; Guo Mengqi; Tang Xizi; Zhang Tiantian; Qi Jia; Xu Xuekai; Yueming Lu; Time: 16:00 -17:30, 17 Aug. 2018 Yaojun Qiao CIT2 SESSION CHAIR: Chen Qiu Joint Optimal Beamforming and Sensing Interval design for Energy Efficient Cognitive Small Cell Product of κ-μ and α-μ Distributions and Their Guangyue Lu; Ma Yujiao; Boyang Liu; Yuxi Qiang; Composite Fading Distributions Fuhui Zhou He Huang; Chaowei Yuan

Novel Resource Allocation Scheme based on Performance of Power Allocation and Iterative Carrier Aggregation for Improving Cell-edge Receiver in SM-VLC System with Block Markov Performance Superposition Transmission Yaning Fan; Ying Wang; Ruijin Sun; Junwei Zhao Shengxiao Chen; Meiying Ji; Xiao Ma

Time: 14:00 -15:30, 17 Aug. 2018 Modeling and Performance Analysis of Statistical CIT1 Priority-based Multiple Access Protocol Ming Yang; Qi Zhang; Yuliang Tu; Hui Yu SESSION CHAIR: Chen Qiu

Dynamic Spectrum Access in Cognitive Radio A Modified Unquantized Fano Sequential Networks Using Deep Reinforcement Learning Decoding Algorithm for Rateless Spinal Codes and Evolutionary Game Rong Sun; Tingting Wang; Jingwei Liu Peitong Yang; Lixin Li; Jiaying Yin; Huisheng Zhang;

Wei Liang; Wei Chen; Zhu Han Piggybacking Belief Propagation Decoding for

Rateless Codes Based on RA Structure Universal Filtered Multi-carrier Based Multi-user Rong Sun; Meng Zhao; Jingwei Liu; Jingyuan Sun; Simultaneous Wireless Information and Power Hao Guan; ZhuYan Zhao Transfer Downlink System 60 IEEE/CIC ICCC 2018

Min Chen; Zidong Han; Xiaoyang Li; Yi Gong; Liang Na Xing; Zong Qun; Bailing Tian; Liqian Dou; Qing Qian Wang

Time: 11:00 -12:30, 18 Aug. 2018 When Automated Vehicles Meet Non-Signalized STC1 Intersections: A Collision-Free Scheduling Solution SESSION CHAIR: Wenchi Cheng Yunting Xu; Haibo Zhou; Bo Qian; Hanlin Wu; Zhijian Zhang; Sherman Shen Mode Hopping for Anti-Jamming in Cognitive Radio Networks A Discrete-Time Mean Field Game in Multi-UAV Wenchi Cheng; Zan Li; Feifei Gao; Liping Liang; Wireless Communication Systems Hailin Zhang Yang Xu; Lixin Li; Zihe Zhang; Kaiyuan Xue; Zhu Han

A Dynamic Power Allocation Scheme in Power- BEM-based EKF-RTSS Channel Estimation for Domain NOMA using Actor-Critic Reinforcement Non-stationary Doubly-selective Channel Learning Xuanfan Shen; Yong Liao; Xuewu Dai; Daotong Li; Shaomin Zhang; Lixin Li; Jiaying Yin; Wei Liang; Xu Kai Liu Li; Wei Chen; Zhu Han

A Novel Non-Orthogonal Multiple Access Based Delaunay Triangulation Based Cognitive Information Compression for Cognitive Radio On Maximum Welch Bound Equality Networks Zhanji Wu; Xuanbo Shao Chenyang Han; Zhiqing Wei; Zhiyong Feng; Wei Li

M-SAMP: A Low-complexity Modified SAMP Time: 16:00 -17:30, 18 Aug. 2018 Algorithm for Massive MIMO CSI Feedback INSTOIS Yong Liao; Ling Chen; Yuanxiao Hua; Shumin Zhang; SESSION CHAIR: Jianfei Tong Xuanfan Shen; Yi Hu Regional LEO Satellite Constellation Design Based Distributed Resource Allocation and Computation on User Requirements Offloading Scheme for Cognitive Mobile Edge Ji Jiang; Shi Yan; Mugen Peng Computing Networks with NOMA Fan Jia; Heli Zhang; Hong Ji; Xi Li Cognitive Satellite Terrestrial Relay Networks with Hardware Impairments and Outdated CSI Time: 14:00 -15:30, 18 Aug. 2018 Kefeng Guo; Kang An; Daoxing Guo; Yuzhen Huang; STC2 Bangning Zhang SESSION CHAIR: Chenyang Han Joint Random Pilot and Multi-Slot Access in LEACH-FIS: An Improved LEACH Based on Fuzzy Massive MIMO for Space Information Networks Inference System in MWSNs Yongfan Zhou; Hongguang Zhang; Libiao Zhang; Xiaoyu Suo; Jian Jiao; Zhang Ke; Yunyu Sun; Bihua Tang; Yuanan Liu Shaohua Wu; Qinyu Zhang

Network Formation Game for Routing in Max-min Analog Beamforming for High Altitude Unmanned Aerial Vehicle Networks Platforms Communication Systems IEEE/CIC ICCC 2018 61

Tong Jianfei; Yang Lu; Donglei Zhang; Gaofeng Cui; Time: 11:00 -12:30, 17 Aug. 2018 Weidong Wang WCS4 SESSION CHAIR: Xiaotian Zhou Backtracking Algorithm based Multi-Relay Selection in High Altitude Platforms System Joint Impact of Hardware Impairments and Tingting Wang; Yang Lu; Donglei Zhang; Gaofeng Imperfect CSI on Cooperative SWIPT NOMA Cui; Weidong Wang Multi-Relaying Systems Xingwang Li; Jingjing Li; P. Takis Mathiopoulos; Di Low-Complexity Shorten MSR Code for Limited Zhang; Lihua Li; Jin Jin Bandwidth Systems Ke Li; Shushi Gu; Ye Wang; Qinyu Zhang Cooperative NOMA Based VLC/RF System with Simultaneous Wireless Information and Power Conference Hall 8 Transfer Xiaotian Zhou; Shanshan Li; Haixia Zhang; Yujie Time: 14:00 -15:30, 18 Aug. 2018 Wen; Yu Han; Dongfeng Yuan WCS11 SESSION CHAIR: Qimei Cui Energy-Efficient Resource Optimization with

Wireless Power Transfer for Secure NOMA Cognitive Radio-Inspired NOMA Relaying Systems Networks with Imperfect CSI over Nakagami-m Lei Lei; Zheng Chang; Yun Hu; Tapani Ristaniemi; Fading Yaxiong Yuan; Symeon Chatzinotas Qinghai Li; Qian Wang; Jianhua Ge; Chensi Zhang

SWIPT Assisted NOMA for Coordinated Direct and Adaptive Power Allocation for D2D Assisted Cooperative Relaying System with NOMA Relay Transmission Fan Jiang; Guan Huang; Wei Liu; Changyin Sun Ying Guo; Yongzhao Li; Yan Li; Wenchi Cheng; Hailin Zhang Accurate Energy-Efficient Power Control for Uplink NOMA Systems under Delay Constraint Optimum Fairness for Non-Orthogonal Multiple Bowen Cai; Yu Chen; Qimei Cui; Xiaoxuan Zhu; Yang Access Yang Ting Qi; Wei Feng; Yunfei Chen; Youzheng Wang

Optimal Power Allocations for Relay-assisted Time: 11:00 -12:30, 18 Aug. 2018 NOMA-based 5G V2X Broadcast/Multicast PSC Communications SESSION CHAIR: Chen Qiu Zhiqing Wang; Jiewen Hu; Gang Liu; Zheng Ma

Throughput Optimization Based on Optimal and Robust AN-aided Precoding Design Simultaneously Decoding and Accessing in for Cognitive MIMOME Wiretap Channels Cognitive NOMA System Tiantian Hu; Jun Xiong; Dongtang Ma; Qiucheng Xiaopeng Liang; Qian Deng; Fan Yang Shan

Conference Hall 7 62 IEEE/CIC ICCC 2018

Secrecy Performance Analysis of Uplink NOMA in IoT Networks FPGA-Based Real-time Interference Alignment Zhongwu Xiang; Weiwei Yang; Yueming Cai; Verification System Yunpeng Cheng; Heng Wu; Meng Wang Zhixin Sun; Shun Zhang; Hongyan Li; Tingting Cui; Hao Qiu Design and Analysis of Secure Quantum Network System with Trusted Repeaters Optimal Waveform Design for Dual-functional Yao Zhang; Qiang Ni MIMO Radar-Communication Systems Longfei Zhou; Fan Liu; Chang Tian; Christos Optimal Relay Selection for Wireless Relay Masouros; Ang Li; Wei Jiang; Wu Luo Channel with External Eavesdropper: a NN-based Approach Energy Efficiency and Spectral Efficiency Tradeoff Zhixiang Deng; Qian Sang; Yuan Gao; Cai Chang for Multicarrier NOMA Systems with User chun Fairness Yan Zuo; Xu Zhu; Yufei Jiang; Zhongxiang Wei; Jointly Design of Beamforming and AN in SWIPT- Haiyong Zeng; Tong Wang Enabled Secure Cognitive Radio Networks Weili Ge; Zhongyong Wang; Hao Deng; Yanqun Time: 16:00 -17:30, 18 Aug. 2018 Tang; Wanming Hao; Zhengyu Zhu SPC4 SESSION CHAIR: Yubin Zhao Secure Spatial Modulation Based on Artificial Noise Channel Energy Statistics Modeling and Peng Zhang; Shuangshuang Han Threshold Adaption in Compressive Spectrum Sensing Time: 14:00 -15:30, 18 Aug. 2018 Haoran Qi; Xingjian Zhang; Yue Gao SPC3 SESSION CHAIR: Yufei Jiang An Enhanced SCMA Detector Enabled by Deep Neural Network Design and Analysis of NCed-HARQ Transmission Chao Lu; Wei Xu; Hong Shen; Hua Zhang; Xiaohu Scheme for Space Information Networks You Xiaoxin Li; Jian Jiao; Yunyu Sun; Shaohua Wu; Qinyu Zhang Explicit Inverse of the Covariance Matrix of Random Variables with Power-Law Covariance BBoF v.s. RFoF in Fiber-Wireless Communication Yingli Cao; Jingxian Wu Systems Lisu Yu; Jingxian Wu; Pingzhi Fan Co-Channel Interference and Colored Noise Mitigation: An Iterative Structure with Robust Superimposed Training Designs for MIMO Convolutional Neural Network AF Relaying Channels under Total Power Jun Lu; Jialiang Gong; Xiaodong Xu; Yihua Hu Constraint Beini Rong; Shiqi Gong; Fei Zesong IEEE/CIC ICCC 2018 63

A Machine Learning Approach to User Association SESSION CHAIR: Yunlong Shao in Enterprise Small Cell Networks Junjie Yang; Chao Wang; Xiaoxiao Wang; Cong Precoding for MIMO Full-Duplex Amplify-and- Shen Forward Relay Communication Systems Yunlong Shao; Yongyu Dai; T. Aaron Gulliver; Conference Hall 1 Xiaodai Dong

Time: 11:00 -12:30, 17 Aug. 2018 Outage Performance for Full-Duplex Decode-and- WCS1 Forward Relay Cooperative Networks with Low- SESSION CHAIR: Tommy Svensson Resolution ADCs Dandi Wang; Siye Wang Low Complexity Hybrid Precoder and Combiner Design for mmWave MIMO Systems Sum-Rate-Driven Energy Efficiency Optimization Ran Zhang; Weixia Zou; Ming Yang Cui in Massive MIMO Relay Networks Yun Zhang; Zhipeng Lin; Tiejun Lv Interleaved Training Codebook Design for Millimeter-wave Communication System Performance of Adaptive Link Selection with Weiliang He; Cheng Zhang; Yongming Huang Buffer-Aided Denoise-and-Forward Relays Ruifeng Gao; Xiaodong Ji; Ye Li; Zhihua Bao A robust Channel Prediction Algorithm in Coordinated MIMO Systems with Backhaul Delay Secrecy Outage Performance of Buffer-Aided Zezhong Mao; Jin Xu; Xinyao Zhang; Xiaofeng Tao Underlay Cognitive Relay Networks with Outdated CSI A Low-Complexity Precoding Method Based on Chen Wei; Wendong Yang; Yueming Cai; Xuanxuan the Steepest Descent Algorithm for Downlink Tang; Tinghui Yin Massive MIMO Systems Yuanyuan Dong; Zhenyu Zhang; Chen Liang; Time: 16:00 -17:30, 17 Aug. 2018 Xiaoxiao Yin; Xiyuan Wang; Runmin Zou; Xiaoming WCS3 Dai SESSION CHAIR: Yunfeng Liu

Generalized Spatial Scattering Modulation for Low Complexity Cooperative Positioning in Uplink Millimeter Wave MIMO System Multipath Environment Yuliang Tu; Gui Lin; Qibo Qin; Ling Zhang; Jian Xiong; Boda Liu; Xu Zhu; Yufei Jiang; Yi Huang Ming Yang 5G NR Primary Synchronization Signal Detection Analog Zero-Forcing Combining in mmWave with Low Hardware Resource Occupancy Massive-MIMO Systems Chunjing Hu; Yueliang Zhang Bo Hu; Yafei Tian; Rui Peng Compressive Sensing Based Hybrid Beamforming Time: 14:00 -15:30, 17 Aug. 2018 for Adaptively-Connected Structure WCS2 Qibo Qin; Gui Lin; Ling Zhang; Yuliang Tu 64 IEEE/CIC ICCC 2018

Zhang; Nan Bao Spherical Antenna-based DoA Estimation and Localization: Advanced Algorithms and A Clustering Method Based on the Average Measurements Interference Threshold for mMIMO-HetNet Dongming Yuan; Liying Zhang; Zhongbao Wang Zhibin Xu; Lixin Li; Ang Gao; Xu Li

Blind Channel Estimation in Ambient Backscatter Time: 14:00 -15:30, 18 Aug. 2018 Communication Systems with Multiple-Antenna WCS6 Reader SESSION CHAIR: Tse-Tin Chan Wenjing Zhao; Gongpu Wang; Saman Atapattu; Bo Resource Allocation by Submodular Optimization Ai in Programmable Hierarchical C-RAN Wenchao Xia; Tony Q. S. Quek; Jun Zhang; Shi Jin; Performance Evaluation of IEEE 802.11ah Hongbo Zhu Triggered Restricted Access Window Mode in Industrial Real-Time Applications Power Control for D2D Communication Using Yujun Cheng; Huachun Zhou; Dong Yang Multi-Agent Reinforcement Learning Min Zhao; Yifei Wei; Mei Song; Guo Da Time: 11:00 -12:30, 18 Aug. 2018 WCS5 A resource allocation method based on the core SESSION CHAIR: Yunfeng Liu server in the collaborative space for mobile edge computing Context-aware Data Caching and Resource Yiran Yang; Yi Wang; Shiqiang Chu; Ren Wang Allocation in HetNets with Self-backhaul Qi Liu; Hui Tian; Gaofeng Nie; Hao Wu Signal-Aligned Network Coding in Interference Channels with Limited Receiver Cooperation Optimal Access Points Selection Based on Tse-Tin Chan; Tat M. Lok Mobility Prediction in Heterogeneous Small Cell Networks Collaborative Hierarchical Caching Strategy in Wenbin Fu; Xi Li; Hong Ji; Heli Zhang D2D-Enabled Heterogeneous Networks Peng Xu; Shu Cai; Hongbo Zhu Robust Energy-Efficiency Power Allocation in Multicell HetNets with Channel Uncertainties Time: 16:00 -17:30, 18 Aug. 2018 Yuan Hu; Yongjun Xu; Yuchao Liu; Hui Yu WCS7 SESSION CHAIR: Lei Tian Joint Slot and Sub-channel Allocation Scheme in Wireless Self-Backhaul HetNets The Method to Implement 5G Channel Model Ming Fang; Hui Tian; Gaofeng Nie; Yuwei Yao with Spatial Consistency Guangzhong Yu; Lei Tian; Jianhua Zhang; Chao Vertical Handover Scheme for Enhancing the QoE Wang in VLC Heterogeneous Networks Xu Bao; Winfred Adjardjah; Andrews Okine; Wence IEEE/CIC ICCC 2018 65

A Cluster-Based 3D Channel Model for Vehicle-to- Fuhui Zhou; Xiongjian Zhang; Rose Qingyang Hu; Vehicle Communications Apostolos Papathanassiou; Weixiao Meng Mi Yang; Bo Ai; Ruisi He; Liang Chen; Xue Li; Jianzhi Li; Qi Wang; Bei Zhang; Chen Huang Network Resource Optimization in SDN-based Cellular Networks: A Traffic Steering Approach Spatial Characteristics of 3D MIMO Wideband Md. Sazzad Hossen; Abbas Jamalipour Channel in Indoor Hotspot Scenario at 3.5 GHz Lei Tian; Jianhua Zhang; Yuxiang Zhang; Yi Zheng Data enabled Self-Organizing Network with Adaptive Antennas based on Proactive Prediction Performance Analysis of Three Dimensional for Enabling 5G Fading Channel Model with Angle Offset Peng Ge; Tiejun Lv Haifeng Tan; Jianhua Zhang Computational Task Offloading in Mobile Edge MIMO OTA Channel Verification and Performance Computing using Learning Automata Testing Zahir Abbas; Jun Li; Nagendra Yadav; Irfan Tariq Tian Ma; Lei Tian; Jianhua Zhang; Zhen Zhang Time: 14:00 -15:30, 17 Aug. 2018 Measurement-Based Massive MIMO Channel NGN2 Characterization in Lobby Environment at 11 GHz SESSION CHAIR: Yunfeng Liu Jianzhi Li; Bo Ai; Ruisi He; Mi Yang; Zhangdui Zhong; Yang Hao Quantum Key Distribution Random Access Network Channel Modeling by RBF Neural Networks for 5G Yao Zhang; Qiang Ni Mm-wave Communication Ningyao Sun; Suiyan Geng; Shu Li; Xiongwen Zhao; Energy-Efficient Optimized Dynamic Massive Mengjun Wang; Shaohui Sun MIMO Based on Predicted User Quantity by LSTM Algorithm Conference Hall 5 Peng Ge; Tiejun Lv

Time: 11:00 -12:30, 17 Aug. 2018 A Controller Placement Algorithm Based on NGN1 Density Clustering in SDN SESSION CHAIR: Fuhui Zhou Xiaolan Hou; Wu Muqing; Weiyao Xu

Adaptive Uplink OFDMA Random Access Server deployment planning and performance Grouping Scheme for Ultra-Dense Networks in analysis in mobile edge computing with β-Ginibre IEEE 802.11ax point process Jiyang Bai; He Fang; Junghoon Suh; Osama Aboul- Yidi Zhou; Qi Zhang; Hui Yu Magd; Edward Au; Xianbin Wang UE Computation Offloading Based on Task and Resource Allocation Based on Deep Neural Channel Prediction of Single User Networks for Cognitive Radio Networks 66 IEEE/CIC ICCC 2018

Zan Zhang; Ziqi Cong; Xiaofeng Tao Regularized Interference Alignment Transceiver Design for Asymmetric UL-DL Three-Cell Multi- Time: 16:00 -17:30, 17 Aug. 2018 User MIMO Systems NGN3 Xin Su; Lihua Li; Ping Zhang; Xiuyu Du SESSION CHAIR: Baoxian Zhang An Efficient Nonlinear Companding Transform Online Data Traffic Steering in Software-Defined Method for PAPR Reduction of GFDM signals Autonomous Vehicle Networks Kaiming Liu; WeiFeng Deng; Yuanan Liu Xiaoxi Li; Chi Zhang Coexistence Downlink Interference Analysis A Bio-Inspired and User-Experience Preferred Between LEO System and GEO System in Ka Band Load-Balance Algorithm for Heterogeneous Huiwen Wang; Cheng Wang; Jun Yuan; Yuan Zhao; Networks Rui Ding; Weidong Wang Qing Wang; Shunfu Wang; Minjiong Zhu; Maode Ma; Hua Chen BER Performance Analysis for Universal Filtered Multicarrier System with WFRFT precoding UAV Coverage for Downlink in Disasters: Lin Mei; Shihong Cui; Zhenduo Wang Precoding and Multi-hop D2D Xiaonan Liu; Guan Gui; Nan Zhao; Weixiao Meng; Time: 14:00 -15:30, 18 Aug. 2018 Zan Li; Yunfei Chen; Fumiyuki Adachi WCS9 SESSION CHAIR: Yunfeng Liu Performance Analysis in SDR Based Fast Switching C-RAN Systems Slot Assignment Algorithm Based on Hash Yaxin Wang; Boren Guo; Xin Zhang Function for Multi-target RFID System Suman Zhang; Cai Qin; Chaowei Wang; Weidong Joint Optimization of Heterogeneous Cellular and Wang; Yinghai Zhang Backhaul Networks for Services Awareness in SDN A Hybrid Access Scheme in LTE Licensed Assisted Wenhui Zhu; Xu Liu; Xiaorong Zhu; Ting Jiang; Access Networks Xuejian Zhao Jianing Li; Hui Tian; Shaoshuai Fan; Zhao Yang; Lianxue Hu Time: 11:00 -12:30, 18 Aug. 2018 WCS8 Cooperative Slotted Aloha with Reservation for SESSION CHAIR: Lin Mei Multi-Receiver Satellite IoT Networks Rumeng Wang; Pengxu Li; Gaofeng Cui; Weidong A Novel Online Network Coding Scheme for Wang; Yinghai Zhang Broadcast Channels with Imperfect Feedback and Decoding Delay Constraints A Conflict-Free Radio Network Temporary Yating Gao; Ningbo Zhang; Guixia Kang Identity Allocation Algorithm for User Equipments

IEEE/CIC ICCC 2018 67

Zhenghang Yan; Sai Huang; Hao Chen; Yifan Zhang; Conference Hall 6 Zhiyong Feng Time: 11:00 -12:30, 17 Aug. 2018 Software Defined Radio Implementation of an SNBD enhanced LTE-WiFi Aggregation System SESSION CHAIR: Guan Gui Yang Liu; Haitao Liu; Meng Zhang; Peng Chen; Fengyi Yang Communication Theoretic Prediction on Time Series Data Channel Adaptive Dwell Timer for Vertical Yunfan Yang; Wen Chen Handoff in Hybrid VLC and Wi-Fi Networks Xu Bao; Andrews Okine; Lei Shi; Nan Bao; Winfred Online MEM Based Binary Classification Adjardjah Algorithm for China Mobile Imbalanced Dataset Shuqing Lin; Feng Yin; Zhidi Lin; Yanbin Lin; Time: 16:00 -17:30, 18 Aug. 2018 Shuguang Cui; Teng Li; Fengli Yu; Wei Yu; Xuemin WCS10 Hong; Jianghong Shi; Zhi-Quan Luo SESSION CHAIR: Yunfeng Liu LCM: A Latent Communities Model based Rate-Splitting Based Transmission Strategy Community Detection Algorithm Design in FDD-Based System Qinghua Zhao; Tonghai Jiang; Fan Zhao; Bo Ma Zejian Li; Lihua Li; Xiuyu Du ResNet with Global and Local Image Features, Optimized Time Splitting to Maximize Rate in An Stacked Pooling Block, for Semantic Interference Alignment Based Network Segmentation Rugui Yao; Lukun Yao; Xiaoya Zuo; Yuxin Zhang Hui Song; Yun Zhou; Zhuqing Jiang; Xiaoqiang Guo; Zixuan Yang Traffic Offloading Through Third-Party Cognitive Small Cells with Dual-Connectivity Exploring Urban Spatial Hotspots' Properties Qun Li; Zheng Yin; Ding Xu Using Inter-Connected User-Location Networks Yanting Zhang; Jin Shuaiyu; Yuanyuan Qiao; Kewu Joint Resource Slicing for Uplink in OFDMA-Based Sun; Hao Zhang; Jie Yang Cloud RAN Zexu Li; Liu Liu; Yong Li; Mugen Peng Multi-path Fusion Network For Semantic Image Segmentation Cooperative Group Caching Strategy in Content- Hui Song; Yun Zhou; Zhuqing Jiang; Xiaoqiang Guo; Centric Wireless Ad Hoc Networks Zixuan Yang Somayeh Soleimani; Xiaofeng Tao; Yuhong Li Time: 14:00 -15:30, 17 Aug. 2018 Task Offloading for UAV-based Mobile Edge SPC1 Computing via Deep Reinforcement Learning SESSION CHAIR: Caijun Zhong Jun Li; Qian Liu; Pingyang Wu; Feng Shu; Shi Jin

68 IEEE/CIC ICCC 2018

User Scheduling Schemes of DFT-based Hybrid Multi-level Energy Detection for Ambient Beamforming Multiuser Systems Backscatter System with M-PSK Modulation Jiake Li; Yu Han; Shi Jin; Fu-Chun Zheng Qian Chen; Shuai Han; Weixiao Meng

A Reliable Detection Scheme under Non- Frame Arrival Detection for Low SNR Frequency cooperative Reception for BS Discovery in Selective Fading Channels Millimeter Wave Systems Ruosi Sun; Weile Zhang; Bobin Yao Liping Kui; Sai Huang; Qixun Zhang; Zhiyong Feng ER-CRLB Analysis for Indoor Multi-Antenna A Low Overhead Angle-based Beamforming Using Localization System Multi-Pattern Codebooks for mmWave Massive Yubin Zhao; Xiaofan Li; Cheng-Zhong Xu MIMO Systems Yuyan Zhao; Yanan Liu; Gary Boudreau; Akram Bin Channel Estimation for Ambient Backscatter Sediq; Xianbin Wang Systems over Frequency-Selective Channels Yue Zhu; Gongpu Wang; Hengliang Tang; Ruisi He; Hybrid Alternating Precoding and Combining Yulong Zou Design for mmWave Multi-User MIMO Systems Kun Duan; Huiqin Du; ZuJian Wu Time: 11:00 -12:30, 18 Aug. 2018 WNM1 Angular Domain PAPR Reduction for Massive SESSION CHAIR: Xiaoqi Qin Multi-user MIMO-OFDM Downlink Ting Liu; Luyao Ni; Shi Jin; Xiaohu You An Analytical Model of CSMA/CA Performance For Periodic Broadcast Scheme A Doppler Shift Estimator for Millimeter-Wave Xinquan Huang; Aijun Liu; Xiaohu Liang Communication Systems on High-Speed Railways Chong Zhang; Gongpu Wang; Ruisi He; Yulong Zou An Efficient Multicast Clustering Scheme for D2D Assisted Offloading in Cellular Networks Time: 16:00 -17:30, 17 Aug. 2018 Yeqing Zhu; Xiaoqi Qin; Ping Zhang SPC2 SESSION CHAIR: Jie Tang An Intelligent Cooperative Vision Perception System for Connected Vehicles via IPv6 Ambient Backscatter Communications Systems Bojiao Ma; Lingyan Xiu; Konglin Zhu; Lin Zhang Using MFSK Modulation Qin Tao; Caijun Zhong; Kaibin Huang; Junhui Zhao; Plug-and-Play for Fog: Dynamic Service Xiaoming Chen; Zhaoyang Zhang Placement in Wireless Multimedia Networks Jianwen Xu; Kaoru Ota; Mianxiong Dong Optimal Mode Selection for D2D Communication Underlaying Cellular Networks Streaming Video Optimization in Mobile Jing Qian; Aaron N Parks; Joshua R. Smith; Feifei Communications Gao Sai Han; Hongbing Ma; Chen Dan; Youxiang Wang;

IEEE/CIC ICCC 2018 69

Yunxiao Wu; Ping Zhang Siqi Mu; Shiyu Wu; Ming Liu; Naizheng Zheng; Hong Zhou; Yong Teng; Xia Chen; Qi Zhang; Yawen Time: 14:00 -15:30, 18 Aug. 2018 Zheng; Zhangdui Zhong; Hao Guan WNM2 SESSION CHAIR: Chaoxing Yan An Optimized Multi-hop Broadcast Scheme for Mesh Networks with Node Failures Enhanced epsilon-Self-Sorting Based MAC Mohamed Elhadad; Paul Muhlethaler; Anis Laouiti Protocol for Multi-Density Vehicular Ad Hoc Networks Improved Distributed Compressive Video Sensing Zhongyi Shen; Xin Zhang; Dacheng Yang Based on HEVC Motion Estimation Zejin Li; Shaohua Wu; Mengke Ma; Jian Jiao; An Efficient Fragmentation Congestion Control Weiqiang Wu; Qinyu Zhang Algorithm in Satellite DTN Zhitian Zhu; Ming Chen; Chaoxing Yan Antenna Selection and Resource Allocation in Wireless Powered Communication Networks with Interference and Outage in Clustered Wireless Self-Energy Recycling Sensor Networks with Cluster-Centric Data Qun Li; Longqi Wang; Ding Xu Collectors Hung-Yun Hsieh; Hong-Chen Huang

FIR-Based Ranging Method for OFDM

Communication Systems of Networking UAVs Chaoxing Yan; Lingang Fu; Dongli Jiao

Auction-Based Users Dynamic Allocation in Heterogeneous Networks Yatai Liu; Lixin Li; Wei Liang; Huisheng Zhang; Ang Gao; Xu Li; Zhu Han

Time: 16:00 -17:30, 18 Aug. 2018 WNM3 SESSION CHAIR: Chen Qiu

Optimal Transmit Antenna Selection Strategy for MIMO Wiretap Channel Based on Deep Reinforcement Learning Youbing Hu; Lixin Li; Jiaying Yin; Huisheng Zhang; Wei Liang; Ang Gao; Zhu Han

Hybrid Transmission Time Intervals for TCP Slow Start in Mobile Edge Computing System 70 IEEE/CIC ICCC 2018

POSTER

Recent Result Time: 14:30 -16:00 , 18 Aug. 2018 Time: 14:30 -16:00 , 17 Aug. 2018 An Erasure Code Based Wireless Distributed Optimization of Virtual Mobility Management Storage System Implementation based on NFV and SFC Jiajia Wu; Li Wang; Chu Hua; Wei Zhao; Ge Wang; Yi Jin; Haiya Lu; Hao Jin; Chenglin Zhao; Mugen Jianbin Chuan Peng Demo: UAV Assisted Adaptive Aerial Internet Automatic Modulation Classification with Yizong Wang; Zhiqing Wei; Xushan Chen; Huici Wu; Gaussian Distributed Frequency Offset Zhiyong Feng Kezhong Zhang; Li Xu; Yueyan Zhang; Han Zhang; Zhiyong Feng YOLO Acceleration using FPGA Architecture Guangju Wei; Yanzhao Hou; Qimei Cui; Gang Deng; A Novel Sparse Extreme Learning Machine based Xiaofeng Tao; Yuan Yao Classifier Li Xu; Kezhong Zhang; Yueyan Zhang; Han Zhang; Zhiyong Feng

Capacity of Three-Dimensional Scale Free Wireless Networks Ziyu Wang; Zhiqing Wei; Zhiyong Feng

Poster Time: 14:30 -16:00 , 17 Aug. 2018

OperationFlow: Visual Analytics for Business Process Sequence Recommendation Zhi Xu; Zhi Zhang; Yue Gui

Power Allocation Optimization of Multibeam Satellites for Integrated Satellite-Terrestrial Networks Yuhan Wang; Jian Jiao; Qiwen Li; Shaohua Wu; Qinyu Zhang

A Minimum Task-Based End-to-end Delivery Delay Routing Strategy With Updated Discrete Graph for Satellite Disruption-Tolerant Networks Peng Yuan; Zhihua Yang; Qinyu Zhang; Ye Wang

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SOCIAL EVENTS

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MAPS

Traffic of Zhongjia Palace Hot Spring Hotel

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FROM Beijing Capital International Airport Taxi: It takes about 25 minutes from Beijing Capital International Airport to Zhongjia Palace Hot Spring Hotel by taxi.

FROM Beijing South Railway Station Taxi: It takes about 51 minutes from Beijing South Railway Station to Zhongjia Palace Hot Spring Hotel by taxi.

FROM Beijing West Railway Station Taxi: It takes about 50 minutes from Beijing West Railway Station to Zhongjia Palace Hot Spring Hotel by taxi.

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FROM Beijing Railway Station Taxi: It takes about 40 minutes from Beijing Railway Station to Zhongjia Palace Hot Spring Hotel by taxi. Public Transport: You can also take Subway line 2 from Beijing Railway Station to Dongzhimen stop. Then take Subway line 13 to Shaoyaoju stop and take Bus

942 to the hotel.(about 1h 40min)

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Map of Zhongjia Palace Hot Spring Hotel

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TRAVEL

Beijing

Beijing is the capital city of China. There are many historical interesting places in Beijing, such as the Palace Museum, the Summer Palace, the Geart Wall and Temple of Heaven Park. They attract many tourists from all over the world. Chinese people are looking forward to the opening of 2008 Olympic Games. It will be held in Beijing. The environment will be greatly improved in the fine. There are more trees and flowers in Beijing now. Many magnificent buildings and gyms are being built. And every Beijinger is trying his best to make a clean Beijing. So Beijing's air is fresher and the sky is blue. There are no sandstorms any longer. There are a lot of high-rises, big shops and supermarkets in Beijing. More and more people will find that they have arrived in an attractive place in the world.

1. The Palace Museum Established in 1925, the Palace Museum is located in the imperial palace of the consecutive Ming (1368-1644) and Qing (1644-1911) dynasties. The magnificent architectural complex, also known as the Forbidden City, and the vast holdings of paintings, calligraphy, ceramics, and antiquities of the imperial collections make it one of the most prestigious museums in China and the world. Situated in the heart of Beijing, the Palace Museum is approached through the Gate of Heavenly Peace (Tian'an men). Immediately to the north of the Palace Museum is Prospect Hill (also called Coal Hill), while on the east and west are the Wangfujing and Zhongnanhai neighborhoods.

2. Badaling Great Wall Badaling Great Wall is located in Yanqing County, 116º35´ east longitude and 40º25´north latitude, 60 kilometers to the northwest of downtown Beijing. To date, 3,741-meter section of the Badaling Great Wall has been opened to tourists, comprising 21 city units and enemy units. Badaling Great Wall was built along the ridges of mountains, looking precipitous from the external wall but gently sloped from the internal wall. It is a year-round travel destination. It is best loved in spring days of blossoming flowers, summer days of green trees, autumn days of sea of red leaves, and winter days of white snows. Looking into the distance, the Great Wall gives expression of infinite passions of old and new.

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3. The Summer Palace Summer Palace landscape, dominated mainly by Longevity Hill and Kunming Lake, covers an area of 3.08 square kilometers, three quarters of which is under water. Its 70,000 square meters of building space features a variety of palaces, gardens and other ancient-style architectural structures. Well known for its large and priceless collection of cultural relics, it was among the first group of historical and cultural heritage sites in China to be placed under special state protection.It, originally named Qingyi Yuan or the Garden of Clear Ripples, was first constructed in 1750.

4. Yuanmingyuan Imperial Garden Yuanmingyuan is located in the western suburb of Beijing, and is adjacent with Summer Palace. Firstly built in the 46th year during Emperor Kangxi's reign (1707), Yuanmingyuan is composed of three gardens: Yuanmingyuan, Changchunyuan and Qichunyuan. With the floor area of 350 hectares and building area of almost 200,000 square meters, Yuanmingyuan was a vast royal palatial garden established and operated for over 150 years by emperors in Qing Dynasty. Yuanmingyuan enjoys worldwide reputation for its grand land scale, outstanding construction skills, elegant architectural landscape, rich cultural collections as well as extensive and profound national culture implication, and is renowned as the “model of all garden construction arts” and the “Garden of Gardens”. In October 1860, the Anglo-French forces sacked and looted Yuanmingyuan and burned it to the ground. After requisition of land for two times in 1990 and 1993, Yuanmingyuan Park recovered all its land use right, with the land size equal to the size during the flouring period of Yuanmingyuan.

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