IEEE/CIC ICCC 2017 IEEE/CIC ICCC 2017 Time/Day Sunday, 22 October 2017 Monday, 23 October 2017 Tuesday, 24 October 2017 08:00-08:30 Conference Registration Welcome Opening Ceremony Conference Registration Best Paper Awards Ceremony for IEEE/CIC ICCC 2017 Conference Registration 08:30-09:00 Best Paper Awards Ceremony for China Communications (Golden Olive Hall ) Keynote Speech #1: Connected Vehicles for Modern Transportation Systems Keynote Speech #3: Synthetic Molecular Communication 09:00-09:45 Prof. Xuemin (Sherman) Shen Prof. Robert Schober Tutorial 1 Tutorial 2 Tutorial 3 Tutorial 4 ( Golden Olive Hall ) (Golden Olive Hall )
IoT (B Room) (C Room) (D Room) (E Room) Keynote Speech #2 : Accelerating Design and Test for 5G mmWave Keynote Speech #4: Recent Progress of 3U Optical Transmission Systems 09:45-10:30 Workshop Mr. James Kimery Prof. Shaohua Yu (A Room) (Golden Olive Hall ) (Golden Olive Hall ) 10:30-11:00 Coffee Break Coffee Break & Poster Session-1 Coffee Break & Poster Session-3
IoT Tutorial 1 Tutorial 2 Tutorial 3 Tutorial 4 WCS-1 WCS-2 OCSN-1 WNM-1 SPC-1 Invited-1 WCS-6 WCS-7 OCSN-2 STC-1 SNBD Invited-4 11:00-12:30 Workshop (B Room) (C Room) (D Room) (E Room) (A Room) (B Room) (C Room) (D Room) (E Room) (F Room) (A Room) (B Room) (C Room) (D Room) (E Room) (F Room) (A Room)
12:30-14:00 Lunch Lunch Lunch
Steering VLC Tutorial 5 Tutorial 6 Tutorial 7 Tutorial 8 IAP-1 WCS-3 Committee WNM-2 SPC-2 Invited-2 IAP-2 WCS-8 WNM-3 STC-2 SPC-3 Invited-5 14:00-15:30 Workshop (B Room) (C Room) (D Room) (E Room) (A Room) (B Room) Meeting (D Room) (E Room) (F Room) (A Room) (B Room) (C Room) (D Room) (E Room) (F Room) (A Room) (C Room)
15:30-16:00 Coffee Break & VLC Poster Session Coffee Break & Poster Session-2 Coffee Break & Poster Session-4 ) Steering VLC Tutorial 5 Tutorial 6 Tutorial 7 Tutorial 8 WCS-4 WCS-5 Committee NGN-1 CIT Invited-3 WCS-9 WNM-4 PSC NGN-2 SPC-4 Invited-6 16:00-17:30 Workshop (B Room) (C Room) (D Room) (E Room)) FRoom (A Room) (B Room) Meeting (D Room) (E Room) (F Room) (A Room) (B Room) (C Room) (D Room) (E Room) (F Room)
( Meeting Roundtable 5G NI (A Room) China Meeting Board Editorial Communications (C Room) 18:30-21:00 Welcome Reception Banquet Organizer’s Dinner
TUTORIALS TECHNICAL Sessions Tutorial 1 : Molecular Communications: Theory, Practice and Challenges CIT : Communication and Information Theory Tutorial 2 : Recent Advances in Wireless Localization NGN : Next Generation Networking Tutorial 3 : Ultra Dense Small Cell Networks: Principles and Technologies OCSN : Optical Communication Systems and Networks Tutorial 4 : Rate Splitting for MIMO Wireless Networks: A Promising PHY-Layer Strategy for 5G and Beyond PSC : Privacy and Security in Communications Tutorial 5 : Ultra-reliable and Low-latency Communications: Requirements, Solutions, and Future Directions STC : Selected Topics in Communications Tutorial 6 : Statistical Queuing and Delay Analysis and Its Applications in Wireless Networking SPC : Signal Processing for Communications Tutorial 7 : Communication and Signal Processing Advances in Wireless Power Transmission SNBD : Social Networks and Big Data Tutorial 8 : Signal Processing for Full-Duplex Wireless Communications: WCS : Wireless Communications Systems :Its Challenges, Practical Solutions and Future Research Directions WNM : Wireless Networking and Multimedia
WORKSHOPS Locations of Meeting Rooms International Workshop on Visible Light Communications Guibin Building: Changle Hall (1F)-A Room (up to 80), The Fifth IEEE/CIC ICCC International Workshop on IoT Weiyang Hall (1F)-E Room (up to 40), Wanxiang Hall (2F)-F Room (up to 100) INDUSTRY & ACADEMIC PANELS Yanbin Building: Jiabin Hall (1F)-B Room (up to 50) IAP-1: Fog-enabled Computing and Communications Jiabin Building: Yin Ganlan Hall-C Room (up to 40) IAP-2: AI for Communication Networks Yingbin Building: Conference Room (3F) -D Room (up to 40)
IEEE/CIC ICCC 2017 WELCOME MESSAGE FROM THE HONORARY CHAIR
Minggao Zhang
It is an honor and a pleasure to welcome you on behalf of the Executive Committee and the hosting Shandong University to the sixth IEEE/CIC International Conference on Communications in China (ICCC 2017), which is organized under the sponsorship of Space Star Technology Co., Ltd and National Instruments.
First of all, I would like to thank scientific community for my honorary chair nomination. I would also like to express my 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, I hope that all of you will enjoy this conference. More importantly, you cannot miss the chance to explore and discover the beauty of Qingdao and to experience the great hospitality of this city.
Honorary Chair - IEEE/CIC ICCC 2017 Minggao Zhang, Academician, Chinese Academy of Engineering Professor, Shandong University, China
IEEE/CIC ICCC 2017 WELCOME MESSAGE FROM THE GENERAL CO ---CHAIRS
Dongfeng Yuan Yuguang ‘Michael’ Fang Xueqing Yi
It is a distinct honor to welcome you on behalf of the entire IEEE/CIC ICCC 2017 team to the sixth IEEE/CIC International Conference on Communications in China which is held in the magnificent city of Qingdao, China, 22-24 October 2017. It is technically sponsored by the IEEE, IEEE Communications Society (ComSoc), China Institute of Communications (CIC), and technically co-sponsored by Shandong University, China.
Recently, all of us have witnessed the remarkable innovations and rapid developments of communications. In particular, IEEE/CIC ICCC 2017 aims at addressing a key theme on “Communications for Everything”, which broadly covers all disciplines of communications from fundamental research to emerging applications, including the following nine 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, and Selected Topics in Communications.
In the keynote sessions, the four world renowned experts from academia and industry Prof. Xuemin (Sherman) Shen (University of Waterloo, Canada), James Kimery (National Instruments, USA), Prof. Robert Schober (Friedrich-Alexander University of Erlangen-Nuremberg, Germany), and Prof. Shaohua Yu (Academician of Chinese Academy of Engineering, Wuhan Research Institute of Posts and Telecommunications) will deliver keynote addresses to present the latest and widest possible view on these technical areas.
IEEE/CIC ICCC 2017 has received more than 470 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 213 papers were accepted. In total, 156 papers will be orally presented and 57 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 2017 Dongfeng Yuan (Shandong University, China) Yuguang ‘Michael’ Fang (University of Florida, USA) Xueqing Yi (China Institute of Communications, China) IEEE/CIC ICCC 2017 WELCOME MESSAGE FROM THE TTTPC CO ---CHAIRS
Cheng-Xiang Wang Ekram Hossain Guoqiang Mao Guang Shi
On behalf of the Technical Program Committee, it is our great pleasure to welcome you to the sixth IEEE/CIC International Conference on Communications in China (ICCC 2017), in the magnificent city of Qingdao. Under the theme of “Communications for Everything”, IEEE/CIC ICCC 2017 brings together researchers to discuss the latest advances in communications. The technical program of ICCC 2017 features 4 world-class keynote speeches, 9 technical symposiums, 8 tutorials, 2 industrial and academic panels, and 2 workshops. In addition, we have 17 invited talks delivered by 17 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 471 paper submissions from about 24 countries and regions. Out of these, 222 papers were accepted and 213 papers were included in the final program, corresponding to an acceptance rate of 47%. All the papers were carefully peer reviewed by about 450 TPC members and reviewers, with each paper evaluated by at least three reviewers. Within these accepted papers, we also have 43 invited papers by established experts in their fields. All these papers are organized into 26 lecture-style oral sessions and 4 interactive poster sessions.
We are confident that you will find the technical program of IEEE/CIC ICCC 2017 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 2017 in Qingdao.
TPC Co-Chairs - IEEE/CIC ICCC 2017 Cheng-Xiang Wang (Heriot-Watt University, UK) Ekram Hossain (University of Manitoba, Canada) Guoqiang Mao (University of Technology Sydney, Australia) Guang Shi (China Institute of Communications, China)
IEEE/CIC ICCC 2017 201 777 IEEE/CIC ICCC OOORGANZING COMMITTEE
Honorary Chair
Minggao Zhang Shandong University, China General Co-Chairs
Dongfeng Yuan Yuguang ‘Michael’ Fang Xueqing Yi Shandong University , University of Florida, China Institute of China USA Communications, China Technical Program Committee Co-Chairs
Cheng-Xiang Wang Ekram Hossain Guoqiang Mao Guang Shi Heriot-Watt University, University of Manitoba, University of Technology China Institute of UK Canada Sydney, Australia Communications, China Publicity Co-Chairs
Zhiquan Bai Mehrdad Dianati Jie Pan Tomohiko Taniguchi Shandong University, University of Surrey, China Institute of Fujitsu Laboratories China UK Communications, China Ltd., Japan
IEEE/CIC ICCC 2017 Local Arrangement Co-Chairs
Wensheng Zhang Jian Sun Hailiang Xiong Mingqiang Yang Shandong University, Shandong University, Shandong University, Shandong University, China China China China Publication Co-Chair Publication Co-Chair Financial Co-Chair Financial Co-Chair
Zhi Liu Zhu Han Jie Wu Bruce Worthman Shandong University, Houston University, China Institute of IEEE Communications China USA Communications, China Society, USA Registration Co-Chair Registration Co-Chair Tutorial Co-Chair Tutorial Co-Chair
Xiaotian Zhou Ying Wei Tony Q. S. Quek Wei Chen Shandong University, Shandong University, Singapore University of Tsinghua University, China China China Technology and Design, Singapore Workshop Co-Chair Workshop Co-Chair Invited Track Co-Chair Invited Track Co-Chair
Muhammad Ali Imran Yingjun (Angela) Zhang Liuqing Yang Shi Jin University of Glasgow, UK The Chinese University of Colorado State University, Southeast University, Hong Kong, China USA China
IEEE/CIC ICCC 2017 Industry & Academic Panels Co-Chair Industry & Academic Panels Co-Chair
Yang Yang Hua Huang Shanghai Research Centre Huawei Technologies, for Wireless China Communications, China
IEEE/CIC ICCC 2017 TECHNICAL SYMPOSIUM CO ---CHAIRS
STC: Selected Topics in Communications
Zhiguo Ding Lin Cai Caijun Zhong Lancaster University, University of Victoria, Zhejiang University, UK Canada China SPC: Signal Processing for Communications
Marco Di Renzo Xiaojing Huang Chengwen Xing National Centre for Scientific University of Technology Sydney, Beijing Institute of Technology, Research, France Australia China WCS: Wireless Communications Systems
Jingxian Wu Phone Lin Takis Mathiopoulos Lingyang Song University of Arkansas, National Taiwan University of Athens, Peking University, USA University, China Greece China OCSN: Optical Communication System and Networks
Ming Chen Reza Nejabati Zihuai Lin Southeast University, University of Bristol, University of Sydney, China UK Australia
IEEE/CIC ICCC 2017 PSC: Privacy and Security in Communications
Pinyi Ren Xiuzhen Cheng Sangarapillai Lambothoran Xi’an Jiaotong University, The George Washington Loughborrough University, China University, USA UK SNBD: Social Networks and Big Data
Pan Li Pan Hui Kun Yang Case Western Reserve University, Hong Kong University of Science University of Essex, USA and Technology, China UK CIT: Communication and Information Theory
Pingyi Fan Eduard Jorswieck Soon Xin Ng (Michael) Tsinghua Univertsity, Technical University of Dresden, Southampton University, China Germany UK WNM: Wireless Networking and Multimedia
Wei Xiang Miao Pan Dalei Wu James Cook University, University of Houston, The University of Tennessee at Australia USA Chattanooga, USA IEEE/CIC ICCC 2017 NGN: Next Generation Networking
Tommy Svensson Min Sheng Min Song Chalmers University, Xidian University, Michigan Technological Sweden China University, USA
IEEE/CIC ICCC 2017 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 (National Taiwan University, Taiwan, China) 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
The Univeresity of Koichi Adachi Japan Electro-Communications Israel Akingeneye University of Arkansas USA Ahmed Al-Kinani Heriot-Watt University United Kingdom Francisco Javier Aparicio Newcastle University United Kingdom Navarro Francisco Aparicio-Navarro Loughborough University United Kingdom University Mediterranea of Reggio Giuseppe Araniti Italy Calabria Takuya Asaka Tokyo Metropolitan University Japan Bo Bai Tsinghua University China Lu Bai Shangdong University China Zhiquan Bai Shandong University China Ertugrul Basar Istanbul Technical University Turkey Elena Veronica Belmega ETIS / ENSEA - UCP - CNRS France Mustapha Benjillali INPT Morocco Hong Kong University of Science and Carlos Bermejo Hong Kong, China Technology
Ji Bian Shandong University China
Carmen Botella University of Valencia Spain
IEEE/CIC ICCC 2017 University of Cassino and Lazio Stefano Buzzi Italy Meridionale/CNIT Lin Cai University of Victoria Canada Yunlong Cai Zhejiang University China Lei Cao The University of Mississippi USA Yali Cao Shandong University China Yankun Cao Shandong University China Yi Cao Shandong University China Chongqing University of Posts and Rong Chai China Telecommunications Hengtai Chang Shandong University China Zheng Chang University of Jyväskylä Finland Periklis Chatzimisios Alexander TEI of Thessaloniki Greece Chen Chen Nanyang Technological University Singapore Jieqiong Chen University of Technology Sydney Australia Li Chen Sun Yat-Sen University China Lingyu Chen Xiamen University China Ming Chen Southeast University China China Academy of Telecommunications Runhua Chen China Technology Wei Chen Tsinghua University China Xiao Chen Southeast University China Xiaoming Chen Zhejiang University China Xu Chen Sun Yat-Sen University China Yuh-Shyan Chen National Taipei University Taiwan, China Zhengchuan Chen Chongqing University China Wei Cheng Virginia Commonwealth University USA Wenchi Cheng Xidian University China Xiuzhen Cheng George Washington University USA Yu Cheng Illinois Institute of Technology USA Yu-Yi Cheng Industrial Technology Research Institute Taiwan, China Feng-Tsun Chien National Chiao Tung University Taiwan, China Woong Cho Jungwon University Korea Sherman S. M. Chow The Chinese University of Hong Kong Hong Kong, China Network Measurement and Monitoring Domenico Ciuonzo Italy (NM2), Naples, IT Liang Cong Shandong University China Felipe Cruz-Pérez Cinvestav-IPN Mexico Ruixue Cui Fudan University China Kanapathippillai Cumanan University of York United Kingdom Daniel Benevides da Costa Federal University of Ceara (UFC) Brazil Tomaso De Cola German Aerospace Center (DLR) Germany Yansha Deng King's College London United Kingdom Boya Di Peking University China Marco Di Renzo Paris-Saclay University / CNRS France
IEEE/CIC ICCC 2017 Guido Dietl University of Applied Sciences Landshut Germany Guoru Ding Southeast University China Haichuan Ding University of Florida USA Hui Ding Shandong University China Ming Ding Data 61 Australia Tian Ding University of Technology Sydney Australia Wenbo Ding Georgia Institute of Technology USA Zhiguo Ding Lancaster University United Kingdom Anming Dong Qilu University of Technology China Mianxiong Dong Muroran Institute of Technology Japan Ping Dong Beijing Jiaotong University China Xue Dong Shandong University China Yanjie Dong University of British Columbia, Vancouver Canada Nanjing University of Information Science Yunquan Dong China and Technology Zhicheng Dong Tibet University China Qinghe Du Xi'an Jiaotong University China Zhengfeng Du Shandong University China Dongliang Duan University of Wyoming USA Qiang Duan The Pennsylvania State University USA Pingyi Fan Tsinghua University China Chao Fang Chalmers University of Technology Sweden Singapore University of Technology and Daquan Feng Singapore Design Rui Feng Shandong University China Wei Feng Tsinghua University China Gianluigi Ferrari University of Parma Italy Vasilis Friderikos King's College London United Kingdom Xiao Fu Nanjing University China Feifei Gao Tsinghua University China Zhenzhen Gao Xi'an Jiaotong University China Jie Gong Sun Yat-Sen University China Shu Gong Shandong University China Xiaowen Gong Auburn University USA Yanmin Gong Oklahoma State University USA Alberto Gonzalez Universidad Politecnica de Valencia Spain Ali Gorcin Yildiz Technical University Turkey Javier Gozalvez Universidad Miguel Hernandez de Elche Spain Rui Guan Southeast University China Nanjing University of Posts and Guan Gui China Telecommunications Huawei Technologies, Mathematical and Maxime Guillaud France Algorithmic Sciences Lab Chongtao Guo Shenzhen University China IEEE/CIC ICCC 2017 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 Shangdong 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 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 Xiaojing Huang University of Technology Sydney Australia Shenzhen Institutes of Advanced Xiaoxia Huang China Technology, Chinese Academy of Sciences Yiling Huang Shangdong University China Hong Kong University of Science and Pan Hui Hong Kong, China Technology Takao Inoue National Instruments USA Linqiong Jia Southeast University China Chunxiao Jiang Tsinghua University, Beijing China Mingyan Jiang Shandong University China Qi Jiang Xidian University China Xiaohong Jiang Future University-Hakodate Japan Norwegian University of Science and Yuming Jiang Norway Technology (NTNU) Jiping Jiao Xiamen University China Wanguo Jiao Xidian University China Eduard Jorswieck TU Dresden Germany Aravind Kailas Volvo Group North America USA International University of Businesses Rossi Kamal Korea Agriculture and Technology IEEE/CIC ICCC 2017 Farah Kandah University of Tennessee at Chattanooga USA
George Karagiannidis Aristotle University of Thessaloniki Greece
Muhammad Khandaker University College London United Kingdom Donghyun Kim Kennesaw State University USA Chuili Kong Zhejiang University China Lingshuang Kong Shandong University China Witold Krzymie ń University of Alberta Canada Sangarapillai Lambotharan Loughborough University United Kingdom Daegu Gyeongbuk Institute of Science and Jemin Lee Korea Technology (DGIST) Xianfu Lei Southwest Jiaotong University China Bo Li Northwestern Polytechnical University China Dewen Li Shandong University China Fudong Li University of Alberta Canada Haodong Li Shandong University China Jia Li Oakland University USA Jianghao Li Shandong University China Jingya Li Ericsson Sweden Nanjing University of Science and Jun Li China Technology Lixin Li Northwestern Polytechnical University China Min Li The University of Newcastle Australia Ming Li University of Nevada, Reno USA Pan Li Case Western Reserve University USA University of Electronic Science and Qiang Li China Technology of China Huazhong University of Science and Qiang Li China Technology Qihao Li University of Oslo Norway Qinghua Li University of Arkansas USA National Institute of Information and Ruidong Li Japan Communications Technology (NICT) Wen-Tai Li National Sun Yat-Sen University Taiwan, China Xuanheng Li Dalian University of Technology China Huazhong University of Science and Yuzhou Li China Technology Han Liang Zhejiang University China Shandong University of Science and Quanquan Liang China Technology Qi Liao Nokia Bell Labs Germany David Lin National Chiao Tung University Taiwan, China Hai Lin Osaka Prefecture University Japan Kai Lin Dalian University of Technology China IEEE/CIC ICCC 2017 Phone Lin National Taiwan University Taiwan, China Shijun Lin Xiamen University China Yun Lin Harbin Engineering University China Zihuai Lin University of Sydney Australia Christopher Lindberg Chalmers University of Technology Sweden Singapore University of Technology and Chenxi Liu Singapore Design Chun-Hung Liu University of Michigan USA Jianqing Liu University of Florida USA Junyu Liu Xidian University China Runzi Liu Xidian University China Shuiyin Liu Monash University Australia Tingting Liu Beihang University China Ye Liu Loughborough University United Kingdom Yunxue Liu Yantai University China Zhi Liu Shandong University China Tat Lok The Chinese University of Hong Kong Hong Kong, China Yan Long Southwest Jiaotong University China Francisco Javier Universidad de Malaga Spain Lopez-Martinez Kejie Lu University of Puerto Rico at Mayaguez USA Rongxing Lu University of New Brunswick Canada Weidang Lu Zhejiang University of Technology China Yanhui Lu Zhengzhou University China Changqing Luo Case Western Reserve University USA Chunbo Luo University of Exeter United Kingdom Gangming Lv Xi'an Jiaotong University China Tong Ma Shandong University China Shandong University of Finance and Yanbo Ma China Economics Behrooz Makki Chalmers University of Technology Sweden Hong Kong University of Science and Yuyi Mao Hong Kong, China Technology Barbara Masini CNR - IEIIT Italy Takis Mathiopoulos University of Athens Greece Michail Matthaiou Queen's University Belfast United Kingdom Kohat Univerisity of Science & Technology Amjad Mehmood Pakistan Kohat Mohammadali Mohammadi Shahrekord University Iran Hassan Moradi Qualcomm Inc. USA Robert Morelos-Zaragoza San Jose State University USA Simone Morosi University of Florence - CNIT Italy Guangdong Provincial Key Lab of Mithun Mukherjee China Petrochemical Equipment Fault Diagnosis
IEEE/CIC ICCC 2017 Shahid Mumtaz Instituto de Telecomunicationes Portugal Telex M. N. Ngatched Memorial University of Newfoundland Canada Samrat Nath University of Arkansas USA Reza Nejabati University of Bristol United Kingdom
Soon Xin Ng University of Southampton United Kingdom Qingdao University of Science and Qiuna Niu China Technology Konstantinos Ntontin University of Barcelona Spain Hideki Ochiai Yokohama National University Japan Nova University of Lisbon, Instituto de Rodolfo Oliveira Portugal Telecomunicationes Maxwell Omwenga University of Tennessee at Chattanooga USA
Shumao Ou Oxford Brookes University United Kingdom Gaofeng Pan Southwest University China Miao Pan University of Houston USA Yijin Pan Southeast University China Ai-Chun Pang National Taiwan University Taiwan, China 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 University China Qiu Qingchen Shandong University China Nanjing University of Aeronautics and Zhu Qiuming China Astronautics Fengzhong Qu Zhejiang University China Singapore University of Technology and Tony Q. S. Quek Singapore Design Yogachandran Loughborough University United Kingdom Rahulamathavan Danda Rawat Howard University USA Pinyi Ren Xi'an Jiaotong University China Taneli Riihonen Tampere University of Technology Finland National Institute of Telecommunications Joel Rodrigues Brazil (Intel) Gianmarco Romano Second University of Naples Italy Yuhan Ruan Xidian University China Claudio Sacchi University of Trento Italy Sergio Salinas Wichita State University USA Norwegian University of Science and Pierluigi Salvo Rossi Norway Technology Seiichi Sampei Osaka University Japan Wiroonsak Santipach Kasetsart University Thailand National Institute of Information and Hirokazu Sawada Japan Communications Technology IEEE/CIC ICCC 2017 Mamoru Sawahashi Tokyo City University Japan Neetesh Saxena Bournemouth University United Kingdom Christian Schneider Ilmenau University of Technology Germany Robert Schober University of British Columbia Canada Vincenzo Sciancalepore NEC Europe Ltd. Germany COMSATS Institute of Information Nadir Shah Pakistan Technology Vinod Sharma Indian Institute of Science India Singapore University of Technology and Changyang She Singapore Design Yuan Shen Tsinghua University China Min Sheng Xidian University China Haibin Shi Xiamen University China Jianfeng Shi Southeast University China Singapore University of Technology & Long Shi Singapore Design Qingjiang Shi Zhejiang Sci-Tech University China Xiufang Shi Zhejiang University China Yuanming Shi ShanghaiTech University China Byonghyo Shim Seoul National University Korea Dirk Slock EURECOM France Paschalis Sofotasios Khalifa University Finland Houbing Song Embry-Riddle Aeronautical University USA Jian Song Shandong University China Lingyang Song Peking University China Min Song Michigan Technological University USA Xiaoshi Song Northeastern University China Zhou Su Shanghai University China Hongguang Sun Xidian University China Nanjing University of Posts and Jun Sun China Telecommunications Ning Sun LG Electronics USA University of Science and Technology Qifu Sun China Beijing Yongliang Sun Nanjing Tech University China Himal Suraweera University of Peradeniya Sri Lanka Tommy Svensson Chalmers University of Technology Sweden Mehrdad Taki University of Qom Iran Yi Tan Heriot-Watt University United Kingdom Jianhua Tang Seoul National University Korea Xiao Tang Xi'an Jiaotong University China Xiaoming Tao Tsinghua University China Dinghui Tian Shandong University China Jie Tian Shandong Normal University China Xiaohua Tian Shanghai Jiao Tong University China Yafei Tian Beihang University China IEEE/CIC ICCC 2017 Theodoros Tsiftsis Nazarbayev University Kazakhstan Guan-Hua Tu Michigan State University USA Francesco Verde University of Napoli Federico II Italy Quoc-Tuan Vien Middlesex University United Kingdom Wroclaw University of Science and Krzysztof Walkowiak Poland Technology Bin Wang Wright State University USA Chengxiang Wang Heriot-Watt University United Kingdom Chonggang Wang InterDigital Communications USA Dawei Wang Xi'an Jiaotong University China Er-Fu Wang Heilongjiang University China Gang Wang Intelligent Fusion Technology, Inc. USA Gongpu Wang Beijing Jiaotong University China Huiming Wang Xi'an Jiaotong University China Jia Wang Shandong University China Jie Wang Dalian University of Technology China Nanjing University of Posts and Jin-Yuan Wang China Telecommunications Qingdao University of science and Jingjing Wang China Technology ,Qingdao Beijing University of Posts and Jingyu Wang China Telecommunications Jintao Wang Tsinghua University China Nanjing University of Posts and Jun Wang China Telecommunications Kan Wang Xi'an University of Technology China Kan Wang Xi'an University of Technology China Leiyu Wang Shandong University China Beijing University of Posts and Li Wang China Telecommunications Liang Wang Shaanxi Normal University China Lifeng Wang University College London United Kingdom Lijun Wang Wenhua College China Pengfei Wang Peking University China Qinglong Wang McGill University Canada Beijing University of Posts and Shangguang Wang China Telecommunications Songhua Wang Shandong University China Wei Wang Zhejiang University China Xianbin Wang Western University Canada Xiaojun Wang Dublin City University Ireland Xijun Wang Xidian University China Xin Wang Fudan University China Xinheng Wang University of the West of Scotland United Kingdom Yinlu Wang Southeast University China IEEE/CIC ICCC 2017 Nanjing University of Aeronautics and Yu Wang China Astronautics Zhiliang Wang Tsinghua University China Zuoen Wang University of Arkansas USA Sixiao Wei Intelligent Fusion USA University of Electronic Science and Feng Wen China Technology of China Jingyang Wen North Minzu University China Miaowen Wen South China University of Technology China Thakshila Wimalajeewa Syracuse University USA The University of Tennessee at Dalei Wu USA Chattanooga Chongqing University of Posts and Dapeng Wu China Telecommunications Jen-Ming Wu National Tsing Hua University Taiwan, China Jingxian Wu University of Arkansas USA Singapore University of Technology and Jiyan Wu Singapore Design Longfei Wu Fayetteville State University USA Nan Wu Beijing Institute of Technology China Qingqing Wu National University of Singapore Singapore Shaoen Wu Ball State University USA Yik-Chung Wu The University of Hong Kong Hong Kong, China Yongpeng Wu Shanghai Jiao Tong University China Yuan Wu Zhejiang University of Technology China Zhiqiang Wu Wright State University USA Wei Xiang James Cook University Australia Xingyu Xiang Intelligent Fusion USA Yong Xiao University of Arizona USA Huazhong University of Science & Ge Xiaohu China Technology Beijing University of Posts and Renchao Xie China Telecommunications Chengwen Xing Beijing Institute of Technology China Chao Xu Xidian University China Datong Xu Xi'an Jiaotong University China Dongyang Xu Xi'an Jiaotong University China Hao Xu Southeast University China Hongji Xu Shandong University China Jie Xu Guangdong University of Technology China Shanghai Research Center for Wireless Jing Xu China Communications Qian Xu Xi'an Jiaotong University China Wei Xu Southeast University China Weitao Xu University of New South Wales Australia Beijing University of Posts and Wenjun Xu China Telecommunications IEEE/CIC ICCC 2017 Beijing University of Posts and Xiaodong Xu China Telecommunications University of Science and Technology of Kaiping Xue China China Ning Yan Shandong University China Shihao Yan The Australian National University Australia Xiaojuan Yan Guilin University of Electronic Technology China Chungang Yang Xidian University China Gangqiang Yang University of Waterloo Canada Singapore University of Technology and Howard Yang Singapore Design Junnan Yang University of Technology Sydney Australia Kun Yang University of Essex United Kingdom Lei Yang University of Nevada, Reno USA Ping Yang UESTC China Weiwei Yang PLA Army Engineering University China Yuqian Yang Shandong University China Zhaohui Yang Southeast University China W. Yanyan University of Shandong China Chunmei Yao Shandong University China Qizhong Yao Zhejiang University China Feng Ye University of Dayton USA Lin Ye Harbin Institute of Technology China Yun Ye City University of New York USA Xiaoyan Yin Northwest University China Guanding Yu Zhejiang University China Beijing University of Posts and Ke Yu China Telecommunications, Beijing Liu Yu Shandong University China Shucheng Yu Stevens Institute of Technology USA Zhenming Yu Tsinghua University China University of Electronic Science and Xiaojun Yuan China Technology of China Hao Yue San Francisco State University USA Ammar Zafar University of Technology Sydney (UTS) Australia Wireless Communication Centre - Yasser Zahedi Malaysia Universiti Teknologi Malaysia Alessio Zappone University of Cassino and Southern Lazio Italy Weiliang Zeng Qualcomm Research USA Fei Zesong Beijing Institute of Technology China Chao Zhai Shandong University China Chao Zhang Tsinghua University China University of Science and Technology of Chi Zhang China China Chuanting Zhang Shandong University China IEEE/CIC ICCC 2017 Guomei Zhang Xi'an Jiaotong University China University of Science and Technology Haijun Zhang China Beijing Hongliang Zhang Peking University China Jia Zhang Shandong Normal University China University of Electronic Science and Jing Zhang China Technology of China Lei Zhang Shandong University China Liyang Zhang Hebei University of Technology China Mingqiang Zhang Shandong University China School of Information Science & Na Zhang China Engineering, Shandong University Peng Zhang Weifang University China Qi Zhang SUTD Singapore Qi Zhang Shandong University China Qingrui Zhang Shandong University China Rongqing Zhang Colorado State University USA Rui Zhang University of Delaware USA Rui Zhang Xidian University China Ruonan Zhang Northwestern Polytechnical University China Shun Zhang Xidian University China Wence Zhang Jiangsu University China University of Science and Technology of Wenyi Zhang China China Shanghai Research Center for Wireless Wuxiong Zhang China Communications Yuling Zhang Ludong University China Feiran Zhao Zhejiang University China Yunnan University, Chenggong District, Mingxiong Zhao China Kunming Nan Zhao Dalian University of Technology China Information Science and Engineering Laibo Zheng China School, Shandong University Qinghe Zheng Shandong University China Zijie Zheng Peking University China Caijun Zhong Zhejiang University China Huazhong University of Science and Yi Zhong China Technology Andong Zhou Shandong University China School of Information Engineering, Fuhui Zhou China Nanchang University Guoqing Zhou Broadcom USA Nanjing University of Posts and Liang Zhou China Telecommunications Chongqing University of Posts and Mu Zhou China Telecommunications Sheng Zhou Tsinghua University China IEEE/CIC ICCC 2017 Xiaotian Zhou Shandong University China Haojin Zhu Shanghai Jiao Tong University China Lina Zhu Xidian University China Xiaoyan Zhu Xidian University China Xihua Zou Southwest Jiaotong University China
IEEE/CIC ICCC 2017 WELCOME OPENING CEREMONY
WELCOME OPENING CEREMONY October 23, Monday, 8:30-9:00, Golden Olive Hall
Chair: Cheng-Xiang Wang, Heriot-Watt University
1. Welcome Message From Prof. Yongbing Zhang (Vice President, Shandong University) 2. Welcome Message From IEEE ComSoc (Guoliang Xue, Vice President for Conferences) 3. Welcome Message From China Institute of Communications (Tong Song) 4. Welcome Message From the Honorary Chair (Minggao Zhang) 5. Welcome Message From the General Co-Chairs (Yuguang ‘Michael’ Fang) 6. Welcome Message From the TPC Co-Chairs (Guang Shi) 7. Best Paper Awards Ceremony for IEEE/CIC ICCC 2017 (Awarder: Tong Song and Yinghai Zhang) 8. Best Paper Awards Ceremony for China Communications (Chair: Honggang Zhang, Awarder: Jianhua Lu)
IEEE/CIC ICCC 2017 KEYNOTE SPEECH #1 Chair: Dongfeng Yuan, Shandong UniversityUniversity,, China
Prof. Xuemin (Sherman) Shen Department of Electrical and Computer Engineering, University of Waterloo, Canada Fellow of the IEEE, Engineering Institute of Canada, Canadian Academy of Engineering, and Royal Society of Canada Date: Monday, 23 October, 2017 Time: 9:00-9:45 Room: Golden Olive Hall
Connected Vehicles for Modern Transportation Systems Abstract: Modern society depends on faster, safer, and environment friendly transportation system. Vehicular communications network in terms of vehicle to vehicle, vehicle to infrastructure, vehicle to pedestrian, vehicle to cloud, and vehicle to sensor, provides a solution to modern transportation. In this talk, we first introduce the all connected vehicles. We then present the challenges and scientific research issues of vehicular communications network. As examples, we show how to utilize mobility characteristics of vehicles to derive the achievable asymptotic throughput capacity in VANETs, and how to develop the charging strategies based on mobility of electric vehicles to improve the electricity utility, in order to approach load capacities of charging stations in VANET-enhanced smart grid. We conclude the talk by discuss the future autonomous driving.
Biography: Xuemin (Sherman) Shen is a University Professor and Associate Chair for Graduate Studies, Department of Electrical and Computer Engineering, University of Waterloo, Canada. Dr. Shen’s research focuses on wireless resource management, wireless network security, wireless body area networks, smart grid and vehicular ad hoc and sensor networks. He is the Editor-in-Chief of IEEE IoT Journal. He serves as the General Chair for Mobihoc’15, the Technical Program Committee Chair for IEEE GC’16, IEEE Infocom’14, IEEE VTC’10, the Symposia Chair for IEEE ICC’10, the Technical Program Committee Chair for IEEE Globecom’07, the Chair for IEEE Communications Society Technical Committee on Wireless Communications. Dr. Shen was an elected member of IEEE ComSoc BoG, the chair of IEEE ComSoc Distinguish Lecturer selection committee, and a member of IEEE ComSoc Fellow evaluation committee. Dr. Shen received the Excellent Graduate Supervision Award in 2006, and the Premier’s Research Excellence Award (PREA) in 2003 from the Province of Ontario, Canada. Dr. Shen is a registered Professional Engineer of Ontario, Canada, an IEEE Fellow, an Engineering Institute of Canada Fellow, a Canadian Academy of Engineering Fellow, a Royal Society of Canada Fellow, and a Distinguished Lecturer of IEEE Vehicular Technology Society and Communications Society.
IEEE/CIC ICCC 2017 KEYNOTE SPEECH #2 Chair: Dongfeng Yuan, Shandong UniversityUniversity,, China
Mr. James Kimery Director of Marketing, National Instruments, USA Date: Monday, 23 October, 2017 Time: 9:45-10:30 Room: Golden Olive Hall
Accelerating Design and Test for 5G mmWave Abstract: The combination of 4G broadband access and smart devices has transformed all of our lives and opened our eyes to the possibility of mobile broadband access anywhere and everywhere. 5G is more than increased data rates but also increases in capacity, lower latency, and new network topologies that will provide the infrastructure to deliver these new capabilities and services to create a new wireless ecosystem unlocking tremendous economic potential. With these objectives, the question of spectrum arises. Spectrum below 6 GHz is scarce and capacity and bandwidth depend largely on spectrum availability. Knowing this spectrum constraint, researchers are investigating new spectrum frontiers in the cmWave and mmWave frequency ranges presenting unprecedented technical and business challenges. From working with researchers all over the world, NI has been at the forefront of the mmWave explorations mmWave mobile access and gained unique insight. This talk will review the background and history of these explorations, lessons learned, and also the future challenges that lie ahead. MmWave poses many challenges but there is potential to accelerate mmWave adoption through a platform based approach that streamlines design to test. Biography: James Kimery is a Director of Marketing for National Instruments SDR and Wireless Research initiatives. In this role, James is responsible for company’s 5G strategy encompassing both research and business initiatives. James also 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 and deployment. 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, James Kimery is a Director of Marketing for National Instruments SDR and Wire less Research initiatives. In this role, James is responsible for company’s 5G strategy encompassing both research and business initiatives. James also 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 and deployment. James also manages theIEEE/CIC company’s software ICCC defined radio 2017 business including the Ettus Research subsidiary acquired by NI in 2010. In 2014, James chaired the IEEE Globecom industry committee which 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 member of the VXIplug & play Systems Alliance, VISA working group, and PXI System Alliance. He has authored over 60 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).
IEEE/CIC ICCC 2017 KEYNOTE SPEECH #3 Chair: Guoqiang MaoMao,, University of Technology Sydney, Australia
Prof. Robert Schober Department of Electrical, Electronics, and Communication Engineering (EEI) Friedrich-Alexander University of Erlangen-Nuremberg (FAU) Fellow of the IEEE, Canadian Academy of Engineering, and Engineering Institute of Canada Date: Tuesday, 24 October, 2017 Time: 9:00-9:45 Room: Golden Olive Hall Synthetic Molecular Communication Abstract: Synthetic molecular communication is an emerging research area offering many interesting and challenging new research problems for communication engineers, biologists, chemists, and physicists. Synthetic molecular communication is widely considered to be an attractive option for communication between nanodevices such as (possibly artificial) cells and nanosensors. Possible applications of the resulting nanonetworks include targeted drug delivery, health monitoring, environmental monitoring, and “bottom-up” manufacturing. To accommodate this exciting new and fast growing research area, IEEE and ACM have recently founded several new conferences and journals.
In this keynote, we will give first a general overview of the areas of synthetic molecular communication and nanonetworking. Components of synthetic molecular communication networks, possible applications, and the evolution of the field will be reviewed. Subsequently, we will give an introduction to various synthetic molecular communication strategies such as gap junctions, molecular motors, and diffusion based molecular communication. Thereby, we will focus particularly on diffusion based synthetic molecular communication, identify the relevant basic laws of physics and discuss their implications for communication system design. One particular challenge in the design of diffusive synthetic molecular communication systems is intersymbol interference. We will discuss corresponding mitigation techniques and provide some results. Furthermore, we will present several receiver design options for diffusive synthetic molecular communication, discuss their respective advantages and disadvantages, and elaborate on the impact of external phenomena such as molecule degradation and flow. In the last part of the talk, we will discuss some research challenges in synthetic molecular communication from a communication and signal processing point of view.
IEEE/CIC ICCC 2017 Biography: Robert Schober (S’98, M’01, SM’08, F’10) was born in Neuendettelsau, Germany, in 1971. He received the Diplom (Univ.) and the Ph.D. degrees in electrical engineering from the University of Erlangen-Nuermberg in 1997 and 2000, respectively. From May 2001 to April 2002 he was a Postdoctoral Fellow at the University of Toronto, Canada, sponsored by the German Academic Exchange Service (DAAD). From 2002 to 2011, he was a Professor and Canada Research Chair at the University of British Columbia (UBC), Vancouver, Canada. Since January 2012 he is an Alexander von Humboldt Professor and the Chair for Digital Communication at the Friedrich Alexander University (FAU), Erlangen, Germany. His research interests fall into the broad areas of Communication Theory, Wireless Communications, and Statistical Signal Processing.
Robert received several awards for his work includi ng the 2002 Heinz Maier–Leibnitz Award of the German Science Foundation (DFG), the 2004 Innovations Award of the Vodafone Foundation for Research in Mobile Communications, the 2006 UBC Killam Research Prize, the 2007 Wilhelm Friedrich Bessel Research Award of the Alexander von Humboldt Foundation, the 2008 Charles McDowell Award for Excellence in Research from UBC, a 2011 Alexander von Humboldt Professorship, and a 2012 NSERC E.W.R. Steacie Fellowship. In addition, he has received several best paper awards for his research. Robert is a Fellow of the Canadian Academy of Engineering and a Fellow of the Engineering Institute of Canada. From 2012 to 2015, he served as Editor-in-Chief of the IEEE Transactions on Communications. Currently, he is the Chair of the Steering Committee of the IEEE Transactions on Molecular, Biological and Multiscale Communication and serves on the Editorial Board of the Proceedings of the IEEE. Furthermore, he is a Member at Large of the Board of Governors and a Distinguished Lecturer of the IEEE Communications Society.
IEEE/CIC ICCC 2017 KEYNOTE SPEECH #4 Chair: Guoqiang MaoMao,, University of Technology Sydney, Australia
Prof. Shaohua Yu Academician of Chinese Academy of Engineering, Wuhan Research Institute of Posts and Telecommunications Date: Tuesday, 24 October, 2017 Time: 9:45-10:30 Room: Golden Olive Hall
Recent Progress of 3U Optical Transmission Systems Abstract: Ultra-high-speed, ultra-large-capacity and ultra-long-haul (3U) are the forever pursuit of optical communication. As a new mode of optical communication, 3U transmission can greatly promote next generation optical internet and broadband mobile communication network development and technological progress. This talk introduces the new scientific problems, key technologies and important achievements in 3U transmission research. Biography: Yu Shaohua (born in Wuhan in 1962), expert in optical fiber transmission system and network technology. He obtained the PhD degree in 1992 from Wuhan University and then entered the Wuhan Research Institute of Posts and Telecommu nications (WRI) in 1993. He had been Engineers, senior engineers, master tutor, deputy director of the research laboratory, doctoral tutor, general manager of FiberHome network, vice president of FiberHome, and deputy chief engineer of the WRI. Currently, he is the chief engineer and vice president in WRI, China communication association executive director, deputy director and director of the academic committee member, committee of national 863 plan of optical communication network and communication subject experts. He is also the chief scientist in former national key basic research development program (973 Plan), "super high speed ultra large capacity ultra long distance optical transmission basic research", and the vice chairman in International Telecommunication Union ITU-T optical and access network research group (SG15). He was elected as academician of Chinese Academy of Engineering in 2015. He has long been engaged in the research of optical fiber transmission system and communication network technology, and is one of the pioneers in the integration of SDH and Internet in China's telecommunications transmission network. He holds 106 patents (including 7 patents authorized by the United States), 102 published papers, and 4 books. He proposed and commercialized the integrating the Ethernet and SDH network to transmit LAPS system and metropolitan area network MSR (MSR) system equipment to solve the problem of “SDH can only work for single voice design
IEEE/CIC ICCC 2017 business” and “N metropolitan area network business require N duplicated network”. Compared with pure router transmission, LAPS has the same transmission rate and costs less than 1/10. He is the first one in the 100-year history of ITU-T to proposed three international ITU standards, such as LAPS and MSR from China. As an early invention technology in two international mainstream programs, LAPS has been produced and referenced by more than 40 global system equipment manufacturers and more than 10 chip manufacturers. In the SDH transmission network of the Internet, his proposed method can solve the problem of coverage and speed of the Internet, and make contributions in the Metro packet ring network transmission of a variety of services and other international hot issues. As the first completed person and unique completed unit, he won two National Technology Invention Second Prize and two National Science and Technology Progress Second Prize, one Chinese patent gold medal, and two awards of excellence. He also had three national information industry major technological invention. He had also won the title of youth science and technology award, Chinese national outstanding professional and technical person, new century talents project national candidates, Hubei province top science and technology award, Guanghua Engineering Science and technology award, the national outstanding scientific and technological workers, national intellectual property leading talent and the national model worker.
IEEE/CIC ICCC 2017 INVITED TALKS
Invited Session-1 Different from most fixed location only measurements, we also drive along the main streets of London with a Session Chair: Zaichen Zhang portable node measuring on-route spectrum density Date: Monday, 23 October, 2017 with corresponding geographical information. In order to Time: 11:00-12:30 better understand the dynamic spectrum utilisation features. Room: Wanxiang Hall (2F)-F meeting room
Speaker: Yue Gao, Queen Mary University of London, UK Speaker: Yingjun Zhang (Angela), The Chinese University ([email protected]) of Hong Kong, HK, China ([email protected]) Title: Data-Driven Sub-Nyquist Spectrum Sensing for IoT Title: Randomized Gaussian Message Passing for Scalable Systems PHY Layer of C-RAN Abstract: Spectrum sensing is the first step to realize Abstract: With centralized processing, cooperative radio, dynamic spectrum sharing. Geo-location database can real-time cloud computing, and clean infrastructure, enable white space devices (WSDs) to make use of the Cloud Radio Access Network (CRAN) is a “future proof” vacant spectrum without harmfully interfering with solution to sustain the mobile data explosion in future incumbent services. Dynamic changes of the wireless wireless networks. The technology holds great potential environment pose significant challenges to the database in enhancing future wireless systems with necessary approach. Wideband spectrum sensing can detect the capability to accommodate unprecedented traffic instant spectral opportunities over the wide frequency demand. However, cloud wireless systems inevitably range, but the high sampling rate is hard to implement in encounter scalability issues in terms of computational the power-limited devices. To relax the sensing and implementation complexities. This talk discusses the requirements on the WSDs, hybrid framework that challenges and recent developments in technologies that combines the advantages of both geo-location database potentially address the scalability issues of CRANs. In and spectrum sensing is explored in this talk. To further particular, I will focus on a randomized Gaussian message reduce the sampling bottleneck at high frequency, passing algorithm to achieve perfect scalability and sub-Nyquist sampling techniques are adopted by convergence in the PHY layer of CRANs. exploiting the sparse property of the wideband signals for Internet of Things (IoT) systems. The experimental results show that the proposed hybrid schemes can achieve improved detection performance with reduced hardware and computation complexity in comparison with the sensing and database only approach. Furthermore, we investigate the spectrum utilisation of TV white space (TVWS) at different locations in London. Both large-scale and long-term outdoor measurement Speaker: Bo Ai, Beijing Jiaotong University, China are conducted to better understand the features and ([email protected]) variations in multiple locations and time periods. IEEE/CIC ICCC 2017 Title: Scatterer Modeling for Wireless Channel @ mmWave Abstract: Mmwave communication has been regarded as one of key technology in 5G. FCC has allocated 28 GHz, 37/39 GHz and 64-71 GHz frequencies as licensed or unlicensed bands for 5G mobile radio services (MRS). As is known, the sensitivity of mmWave links to blockage is due to their weak diffraction characteristics and the Speaker: Xiliang Luo, ShanghaiTech University, China scatterers in real physical scenarios are usually neglected. ([email protected]) In this talk, we will make an analysis of scatterer Title: From TDD to FDD: Challenges in Massive MIMO modeling for wireless channel at mmWave, which is of Abstract: This talk will provide an overview of various great importance to the precise modeling for wireless technical challenges in massive MIMO deployments and channels. the corresponding solutions. Specifically, we will first go over TDD massive MIMO systems and discuss the TDD Invited Session-2 reciprocity calibration problems and the uplink pilot contamination issues. In particular, we will show how to Session Chair: Yulong Zou mitigate the UL pilot contamination through aligning the Date: Monday, 23 October, 2017 channel power in multiple domains, i.e. the time, angular, Time: 14:00-15:30 and Doppler domains. Then we discuss how to deploy massive MIMO in FDD mode. With our proposed DL Room: Wanxiang Hall (2F)-F meeting room pilots, we are able to effect desirable DL path aligning at each served MS for the DL CSI acquisition and feedback in FDD massive MIMO. A scalable CSI feedback scheme is designed such that FDD massive MIMO can work reasonably well with only a small amount of DL and UL overheads similar to those consumed in conventional cellular systems.
Speaker: Zaichen Zhang, Southeast University, China ([email protected]) Title: Optical Mobile Communications Abstract: Optical band is to be explored to meet requirements of future wireless communication systems. Optical wireless communication (OWC) technologies, such as free space optical (FSO) and visible light Speaker: Xin Wang, Fudan University, China communications (VLC), have been well deployed but still ([email protected]) have limitations to be incorporated in the future mobile Title: Resource Allocation for Green Coordinated communication systems. In this talk, we introduce our Multipoint Communication Systems recent work on the newly proposed optical mobile Abstract: Green coordinated transmissions play an communication (OMC) technologies. Different from important role in development of the next-generation FSO, OMC supports multiple senders and multiple energy- and spectrum-efficient cellular heterogeneous receivers, with possible high mobility and handover networks (HetNets). On the other hand, by fast evolution among cells Compared with VLC, OMC achieves higher of the current power network infrastructure, it is throughput and supports higher mobility. OMC brings expected that all future communication systems will be several key design problems, such as beam adaption and powered by a smart grid with high penetration of resource optimization across different domains, which renewable energy sources (RES). Integration of will also be addressed in this talk. smart-grid technologies and RES into system designs IEEE/CIC ICCC 2017 then holds the key to fully exploiting the potential of jamming schemes are presented, namely the SC aided coordinated communications in future HetNets. To this random jammer selection (RJS) and optimal jammer end, we establish a new paradigm to develop selection (OJS), which are referred to as the SC-RJS and low-complexity online (real-time) control schemes for SC-OJS, respectively. The conventional non-cooperation efficient utilization of the RES and wireless is considered as a baseline. Closed-form intercept communication resource. Leveraging the stochastic probability expressions for the non-cooperation, SC-RJS optimization approach, a unified framework is developed and SC-OJS schemes are derived, based on which their for modeling, analyzing, and designing efficient, robust, secrecy diversity gains are determined through an distributed, two-timescale online resource management asymptotic intercept probability analysis in the high schemes in smart-grid powered coordinated multipoint signal-to-noise ratio (SNR) region. It is proved that the communication systems. It is shown – both theoretically conventional non-cooperation exhibits a secrecy diversity and empirically- that the proposed algorithms and of zero, whereas the proposed SC-RJS and SC-OJS achieve schemes can significantly improve the energy efficiency a higher secrecy diversity of one. This also surprisingly of the coordinated communication systems in practical means that no additional secrecy diversity gain is stochastic and dynamic network environments. achieved by the optimal jammer selection compared to the random selection strategy. In addition, numerical Invited Session-3 results show that the intercept probability performance of the SC-OJS is always better than that of the SC-RJS and Session Chair: Zhi Quan non-cooperation, even when the legitimate channel is Date: Monday, 23 October, 2017 worse than the eavesdropping channel. Time: 16:00-17:30 Room: Wanxiang Hall (2F)-F meeting room
Speaker: Winston Seah, Victoria University of Wellington, New Zealand ([email protected]) Speaker: Yulong Zou, Nanjing University of Posts and Title: Making Sense out of IoT Non-Sense Telecommunications, China ([email protected]) Abstract: The Internet has transformed from its original Title: Physical-Layer Security for Spectrum Sharing form that connects computers utilized by humans to one Systems that connects objects, sensors, and any foreseeable Abstract: This talk examines the physical-layer security device in everyday life, giving rise to the “Internet of for a spectrum sharing system consisting of multiple Things”. Coined by Kevin Ashton in 1999, the term source-destination pairs, which dynamically access their “Internet of Things” (IoT) refers to this new Internet shared spectrum for data transmissions in the presence where devices generate data and communicate, of an eavesdropper. A source cooperation (SC) aided interacting often without any human intervention. opportunistic jamming framework is proposed for Industry and academia alike have exploited IoT in protecting the transmission confidentiality of the marketing and securing grants respectively, purporting spectrum sharing system against eavesdropping. numerous new futuristic IoT products and research as Specifically, when a source node is allowed to access the far-fetched as IoT storytelling!!! This talk aims to put shared spectrum for data transmissions, another source some context into the different definitions of IoT, the is opportunistically selected in the spectrum sharing research challenges, and hopefully make some sense out system to transmit an artificial noise for disrupting the of IoT “non-sense”. eavesdropper without affecting the legitimate transmissions. Two specific SC aided opportunistic IEEE/CIC ICCC 2017 Abstract: Radio frequency (RF) calibration and test play an important role in massive production of consumer electronics, such as laptops, smart phones, pads, drones, etc., to ensure high quality of wireless communications. There is a trade-off between test time and measurement accuracy in traditional RF testing methods. In this talk, we will introduce data-driven wireless RF calibration and test methods that can adaptively adjust test strategies based on on-line measurement data. The data-driven Speaker: Lie-Liang Yang, University of Southampton, UK methods can greatly improve measurement accuracy ([email protected]) while reducing test time. The improved product quality Title: Enabling Techniques for Radio Access in and reduced test time can save hundreds of millions of Ultra-Dense Wireless Networks dollars per year in manufacturing of consumer Abstract: Future global 5G (5G+) wireless systems are electronics. expected to constitute an ultra-dense wireless network that aims at providing wide-ranging and ubiquitous services for every mobile user and IoT device associated with the network. Explicitly, radio access in such a network faces a lot of technical challenges. Hence, in this talk, we first address the main challenges of radio access in ultra-dense wireless networks, both uplink and downlink scenarios will be considered. Then, we explore a range of technical solutions enabling ultra-dense users/devices to share the limited radio resources Speaker: Jun Fang, University of Electronic Science and available to the network. The advantages, disadvantages Technology of China ([email protected]) and the challenges for practical implementation of these Title: Beam Alignment and Channel Estimation for optional techniques will be emphasised. We conclude MmWave Communications the talk by discussing the further challenges and the Abstract: Millimeter wave (mmWave) communication is open problems for research and development. a promising technology for future cellular networks. It Invited Session-4 has the potential to offer gigabits-per-second communication data rates by exploiting the large Session Chair: Wenchi Cheng bandwidth available at mmWave frequencies. A key Date: Tuesday, 24 October, 2017 challenge for mmWave communication is that signals Time: 11:00-12:30 incur a much more significant path loss over the mmWave frequency bands as compared with the path Room: Wanxiang Hall (2F)-F meeting room attenuation over the lower frequency bands. To compensate for the significant path loss, large antenna arrays should be used at both the base station and the mobile station to provide sufficient beamforming gain for mmWave communications. Due to the high directivity of beams, mmWave systems require fast and accurate beam alignment/channel estimation which is essential for the proper operation of directional precoding/beamforming.
Speaker: Zhi Quan, Shenzhen University, China This talk focuses on beam alignment/channel estimation ([email protected]) techniques for mmWave systems. We study different Title: Data-driven Wireless Calibration and Testing beam steering techniques and their associated channel IEEE/CIC ICCC 2017 estimation performance. We also show that besides Invited Session-5 sparse characteristics, mmWave channels often exhibit Session Chair: Shunqing Zhang low-rank structures that can be utilized to significantly improve the channel estimation performance. Several Date: Tuesday, 24 October, 2017 new mmWave channel estimation methods that exploit Time: 14:00-15:30 the low-rank structures will be presented. Room: Wanxiang Hall (2F)-F meeting room
Speaker: Dixian Zhao, Southeast University, China ([email protected]) Title: CMOS Millimeter-Wave Power Amplifier and Speaker: Ying Cui, Shanghai Jiaotong University, China Transmitter Design ([email protected]) Abstract: The rapid growth of mobile data and the use of Title: Analysis and Optimization of Caching in Large-scale smart phones are making unprecedented challenges for Wireless Networks wireless service providers to overcome a global Abstract: The rapid proliferation of smart mobile devices bandwidth shortage. Millimeter-wave (mm-Wave) has triggered an unprecedented growth of global mobile technology is widely considered as one of the key data traffic. Modern data traffic exhibits a high degree of technologies that will continue to serve the consumer asynchronous content reuse. Thus, caching at base demand for increased wireless data capacity. Meanwhile, stations (BSs) is gradually recognized as a promising the advanced CMOS can now well operate in mm-Wave approach to support massive content delivery over bands, permitting the integration of a full transceiver in a wireless networks. It is of critical importance to fully low-cost, high-yield technology. However, the design of exploit the potential of caching in wireless networks, by mm-Wave transceivers in advanced CMOS still poses jointly utilizing other key wireless technologies. In this many challenges at device, circuit and architecture levels. talk, I will discuss joint caching and multicasting in heavy In addition to generic difficulties, such as high-frequency or moderate load scenarios, and joint caching and BS operation and low active gain, mm-Wave designers must cooperation in light load scenarios. This talk will present deal with issues like low breakdown voltage, high a general framework of analysis and optimization of interconnect loss, unwanted mutual coupling, poor average performance in large-scale cache-enabled device matching, inaccurate PDK high-frequency models, wireless networks, which is based on stochastic geometry, strict design rules, long EM-simulation time, etc. At probability theory and various optimization techniques. transmitter side, all these critical issues limit the output The analysis and optimization results provide valuable power and efficiency, prolong the design time and make design insights for practical cache-enabled wireless it difficult to guarantee the success of tape-out. networks.
This talk will focus on realizing CMOS mm-Wave power
amplifiers (PAs) towards more output power, higher
efficiency and broader bandwidth. All the
aforementioned design challenges will be described.
Novel design techniques at mm-Wave will be presented,
followed by prior-art PA and TX dsigns in advanced CMOS
technologies.
IEEE/CIC ICCC 2017 provides more research opportunities for network security study in a cross-layer fashion.
Speaker: Haojin Zhu, Shanghai Jiaotong University, China ([email protected]) Title: Attacks and Defenses of IoT Systems via A Cross-layer Approach Abstract: Along with the high popularity of IoT systems, Speaker: Qingwen Liu, Tongji University, China the security and privacy issues in IoT are receiving an ([email protected]) increasing interest. In this study, we present WindTalker, Title: A New Way of Wireless Power Transfer beyond 5G a novel and practical keystroke inference framework that Abstract: About 70 years ago, Abraham Maslow, created allows an attacker to infer the sensitive keystrokes on a a hierarchy of innate and psychological needs: mobile device through WiFi-based side-channel psychological, safety, belonging/love, esteem and information. WindTalker is motivated from the self-actualization. In this era of digital evolution, those observation that keystrokes on mobile devices will lead needs have been usurped by the continuous digital to different hand coverage and the finger motions, which cravings that are more important than the most basic will introduce a unique interference to the multi-path needs – WiFi/mobile-internet and battery-life. Beyond signals and can be reflected by the channel state 5G, in addition to wireless information transfer (WIT), information (CSI). The adversary can exploit the strong wireless power transfer (WPT) becomes a promising correlation between the CSI fluctuation and the solution to provide convenient and perpetual battery-life. keystrokes to infer the user’s number input. WindTalker Besides the traditional WPT technologies such as presents a novel approach to collect the target’s CSI data inductive coupling, magnetic resonate coupling and by deploying a public WiFi hotspot. Compared with the electromagnetic radiation, distributed laser charging previous keystroke inference approach, WindTalker (DLC), a new WPT alternative, can provide Watt-level neither deploys external devices close to the target power over meter-level distance for smartphones, device nor compromises the target device. Instead, it laptops, etc.. DLC is a long-range high-power WPT utilizes the public WiFi to collect user’s CSI data, which is technology and can provide the similar user experience easy-to-deploy and difficult-to-detect. In addition, it as WiFi communications. We will present DLC’s technical jointly analyzes the traffic and the CSI to launch the fundamentals and illustrate its potential of cutting the keystroke inference only for the sensitive period where last cord for mobile electronics password entering occurs. WindTalker can be launched without the requirement of visually seeing the smart phone user’s input process, backside motion, or installing any malware on the tablet. We implemented Windtalker on several mobile phones and performed a detailed case study to evaluate the practicality of the password inference towards Alipay, the largest mobile payment platform in the world. The evaluation results show that the attacker can recover the key with a high successful rate. Our research shows that it needs to jointly consider multiple-layer information (e.g., physical layer, network layer and system layer) to design a secure NCS. It also
IEEE/CIC ICCC 2017 Invited Session-6 Session Chair: Qiang Li Date: Tuesday, 24 October, 2017 Time: 16:00-17:30 Room: Wanxiang Hall (2F)-F meeting room
Speaker: Jemin Lee, Daegu Gyeongbuk Institute of Science & Technology (DGIST) Daegu, Korea ([email protected]) Title: Computing at the Edge for 5G and IoT
Speaker: Shunqing Zhang, Shanghai University, China Abstract: A key trend in computing and networking is ([email protected]) pushing processing and storage into the “cloud”. Title: Green 5G: From the Fundamental Tradeoffs’ However, the cloud computing paradigm is facing Perspective difficulties in supporting the delay-sensitive applications Abstract: With years of tremendous traffic and energy and improving the scalability for exploding connected consumption growth, green radio has been valued not devices. Moreover, most IoT devices are small and only for theoretical research interests but also for the designed to operate with minimal resources, and these operational expenditure reduction and the sustainable resource-constrained devices have little or no capability development of wireless communications. In this talk, we to defend themselves against sophisticated security will focus on research progresses of 4G and 5G attacks. Those challenges lead to the new paradigm communications, such as orthogonal frequency division “edge computing” which makes the cloud descend to the multiplexing and non-orthogonal aggregation, MIMO edge. This emphasizes leveraging the power of local systems, and heterogeneous networks. We will also computing and using different types of edge devices to discuss potential challenges and impacts of fundamental provide better services. In this talk, we will explore the green tradeoffs, to guide the energy efficient research use of edge computing for 5G and IoT. Specifically, we and design for future wireless networks. will provide the efficient design of edge
computing-enabled heterogeneous networks and the
framework of leveraging edge computing for IoT security.
IEEE/CIC ICCC 2017 WORKSHOPS
The Sixth IEEE/CIC ICCC International Workshop on IoT Date: Sunday, 22 October Room: Changle Hall (1F)-A meeting room
Keynote Speech for IoT (Session Chair: Min Jia) Time: 09:00-9:45, 22 Oct. 2017
Title: Key technologies and applications of location-based services Speaker: Prof. Xuerong Cui, China University of Petroleum (East China), Qingdao, China
Session-1 (Session Chair: Yinghong Ma) Time: 09:45-10:30, 22 Oct. 2017
An intelligent ECG interactive processing system based on Android and cloud computing platform Shu Minglei (Shandong Computer Science Center, China); Nuo Wei (Shandong Computer Science Center, China); Jiyong Xu (Shandong Computer Science Center, China); Ming Yang (Shandong Computer Science Center, China)
An extraction optimization algorithm design for IP parameters in CSAMT Wendong Xu (Qilu University of Technology, China); Guohua Lv (Qilu University of Technology, China)
Synchronous Full-Duplex MAC Protocol for Multi-Hop Wireless Networks Yu Song (Army Engineering University & Xi'an Communications Institute, China); Zhi Wang (August First Film Studio); Peng Liu (PLA Army Engineering University, China)
Session-2 (Session Chair: Wendong Xu) Time: 11:00-12:30, 22 Oct. 2017 An Efficient Embedding Algorithm for Virtual Network via Exploiting Topology Attributes and Global Network Resources Haotong Cao (Nanjing University of Posts and Telecommunications, China); Longxiang Yang (Nanjing University of Posts and Telecommunications, China); Hongbo Zhu (Nanjing University of Posts and Telecommunications, China)
Joint Access Control and Resource Allocation for Machine Type communications Jian Guo (Beijing University of Posts and Telecommunications, China); Xuefei Zhang (Beijing University of Posts and Telecommunications, China); Ruiqi Wang (Beijing University of Posts and Telecommunications, China); Xiaofeng Tao (Beijing University of Posts and Telecommunications, China)
Multi-channel Assisted Cooperative Relay for High Efficiency Wireless Local Area Network Yinghong Ma (Xidian University, China); Hongyan Li (Xidian University, China); Yi Jiao (Xi’an Communications Institute, China) IEEE/CIC ICCC 2017 IoT System Evaluation Methods for Very Bursty Traffic with Contention Based Access Haifeng Yu (HuaWei Bld., China); Wu Rong Zhang (Huawei Technologies Co. LTD, China); Guangwei Yu (Huawei Technologies Co. LTD, China); Feng Yu (Huawei, China)
The Sixth IEEE/CIC ICCC International Workshop on Visible Light Communications Date: Sunday, 22 October Room: Changle Hall (1F) -A meeting room
Session-1 (Session Chair: Paul Anthony Haigh) Time: 14:00-15:30, 22 Oct. 2017
High speed visible light communication based on PAM-OFDM modulation Nan Chi (Fudan University, China)
High-speed optical camera communication using selective capture Shivani Teli (Pukyong National University, Korea); Yeonho Chung (Pukyong National University, Korea)
Visible Light Communications: Fast-Orthogonal Frequency Division Multiplexing in Highly Bandlimited Conditions Paul Anthony Haigh (University College London, United Kingdom (Great Britain)); Izzat Darwazeh (University College London, United Kingdom (Great Britain))
Visible light emission from porous silicon carbide Haiyan Ou (Technical University of Denmark, Denmark); Yi Wei (Technical University of Denmark, Denmark)
Using phosphors to enhance reception light for visible light communication Hai-chao Guo (Science and Technology on Space Microwave Laboratory, China Academy of Space Technology & Beijing Institute of Technology, China); Yan-mei Zhang (Beijing Institute of Technology, China); Li Zhang (China Academy of Space Technology (Xi’an), China); She Shang (China Academy of Space Technology (Xi’an), China); Huan Li (Beijing Institute of Technology, China); Han Gao (Beijing Institute of Technology, China); Yu-long An (Beijing Institute of Technology, China)
Session-2 (Session Chair: Haijun Zhang) Time: 16:00-17:30, 22 Oct. 2017
Underwater Wireless Optical Communication: a Review Chuying Yu (Zhejiang University, China); Meiwei Kong (Zhejiang University, China); Bin Sun (Zhejiang University, China); Jing Xu (Zhejiang University, China)
Optical Camera Communication for Smart Cities Patricia Chavez-Burbano (Escuela Superior Politecnica del Litoral, Ecuador); Victor Guerra (IDeTIC-ULPGC, Spain); Jose Rabadan (CeTIC-DSC, Universidad de Las Palmas, Spain); Rafael Perez-Jimenez (Universidad de Las Palmas de Gran Canaria, Spain)
IEEE/CIC ICCC 2017 Performance Study of Nonlinear Models for VLC Systems Li Tao (China Ship Development and Design Centre, China); Yiguang Wang (China Mobile Communications Group Jiangsu Company Limited, China); Hui Tan (China Ship Development and Design Center, China)
When Visible Light Communications Meet Photonic Nanostructures Xilu Yang (Fudan University, China); Yan Yu (Fudan University, China); Yujun Xie (Fudan University, China); Yurong Dong (Fudan University, China); Pan Zeng (Fudan University, China); Junyi Gong (Fudan University, China); Rongqing Liang (Fudan University, China); Qiongrong Ou (Fudan University, China); Shuyu Zhang (Fudan University, China)
Nyquist-PAM-4 transmission using linear DPD and MLSE for Indoor Visible Light Communications Chao Yang (State Key Laboratory of Optical Communication Technologies and Networks, China); Wu Liu (Wuhan Research Institute of Post & Telecommunication & State Key Laboratory of Optical Communication Technologies and Networks, China); Xiang Li (Wuhan Research Institute of Posts and Telecommunications, China); Qi Yang (FiberHome, China); Zhixue He (FiberHome, China)
IEEE/CIC ICCC 2017 POSTER FOR VLC
Time: 15:30-16:00, 22 Oct. 2017
Polar Coding Performance for indoor LOS VLC System Jianming Zhang and Wenxiu Hu (Beijing University of Posts and Telecommunications, China); Xicong Li (BUPT, China); Min Zhang and Dahai Han (Beijing University of Posts and Telecommunications, China); Zabih Ghassemlooy (Northumbria University, United Kingdom (Great Britain))
Monolithic III-nitride photonic circuit for multifunctional visible light communication Yuan Jiang and Zheng Shi (Nanjing University of Posts and Telecommunications, China); Xumin Gao (NanJing University of posts and Telecommunications, China); Jialei Yuan and Shuai Zhang (Nanjing University of Posts and Telecommunications, China); Yongjin Wang (NJUPT, China)
Adaptive transmission for MIMO VLC systems Xinyue Guo (University of Shanghai for Science and Technology); Shuangshuang Li and Yang Guo (University of Shanghai for Science and Technology, China)
Experimental Demonstration of Undersampled Color-Shift Keying Optical Camera Communications Pengfei Luo (Huawei Technologies Co., Ltd, China); Zabih Ghassemlooy (Northumbria University, United Kingdom (Great Britain)); Stanislav Zvanovec (Czech Technical University in Prague, Czech Republic); Shulan Feng (Huawei Technologies, China); Philipp Zhang (Huawei Technologies, USA); Min Zhang (Beijing University of Posts and Telecommunications, China)
The Influence of Driving Current on the LED Modulation Bandwidth indoor VLC Xiaoqing Song (Armored Force Engineering Academy, China); You-cai Wei, Zixu Zhao and Mu-yu Wang (Academy of Armored Forces Engineering, China)
IEEE/CIC ICCC 2017 TUTORIALS
Tutorial-1: Molecular Communications: Theory, 1. Review of MC by comparing it with the Practice and Challenges conventional electromagnetic based Time: 09:00-12:30, Oct. 22, Sunday communications. Room: Jiabin Hall (1F)-B meeting room 2. MC channel modeling, including the possible media for molecule transportation, channel Instructor: models in MC, and channel statistical properties. 3. Transceiver design and optimization techniques, including optional signaling techniques, optimum and sub-optimum detection techniques, low-complexity coding techniques for reliability enhancement of molecular communications, etc. 4. Theoretical performance limits of some MC systems, and practical challenges of MC implementation.
Lie-Liang Yang 5. Survey of mathematical tools for studying the University of Southampton, UK performance of MC systems. 6. Challenges and opportunities for research and Abstract: Molecular Communications (MC) has development of MC, and future research been recognized as an attractive solution for issues. information exchange between nano-machines and in nano-scale networks operated in fluid Tutorial-2: Recent Advances in Wireless environment. By taking its potential advantages of Localization bio-compatibility and low energy consumption, MC is expected to find a lot of applications in the Time: 09:00-12:30, Oct. 22, Sunday areas, where the operation of conventional Room: Yin Ganlan Hall-C meeting room electromagnetic based communications is inefficient and/or impractical. Potential Instructors: applications of MC may include health-care, intelligent drug delivery, environment monitoring, industry applications, Internet of Nano Things (IoNT), etc. In this tutorial, we will provide a comprehensive introduction to the state-of-the-art in MC. The fundamentals of MC, channel modeling and transceiver techniques will be addressed. We will emphasize the similarity and difference between MC and the conventional electromagnetic based communications. Furthermore, the challenges and opportunities of Yuan Shen MC will be discussed. Tsinghua University, China
The tutorial is organized as follows (Intended length of the tutorial: half-day):
IEEE/CIC ICCC 2017 Tutorial-3: Ultra Dense Small Cell Networks: Principles and Technologies Time: 09:00-12:30, Oct. 22, Sunday Room: Conference Room (3F)-D meeting room
Instructors:
Guodong Zhao University of Electronic Science and Technology of China, China
Haijun Zhang University of Science and Technology Beijing, China Abstract: Next-generation (5G) wireless systems are characterized by three key features: Tingting Zhang heterogeneity, in terms of technology and Harbin Institute of Technology, Shenzhen, China services, dynamics, in terms of rapidly varying environments and uncertainty, and size, in terms Abstract: In this tutorial, we provide an overview of number of users, nodes, and services. The for the recent advances in wireless localization, in need for smart, secure, and autonomic network particular from the physical-layer perspective of design has become a central research issue in a theory and algorithm design. Starting from the variety of applications and scenarios. Ultra dense basic models and concepts of wireless localization, small cell networks (UDSNs) have attracted we overview the state-of-the-art results on intense interest from both academia and industry non-cooperative and cooperative wireless to potentially improve spatial reuse and coverage, localization. Then, we introduce network thus allowing cellular systems to achieve higher operation techniques for wireless localization in data rates, while retaining the seamless both noncooperative and cooperative scenarios. connectivity and mobility of cellular networks. Emphasis will be given to resource-restricted However, considering the severe inter-tier wireless localization networks, and as an example, interference and limited cooperative gains we will discuss joint power and bandwidth resulting from the constrained and non-ideal allocation for cooperative localization. Finally, we transmissions between adjacent base stations, a introduce recent advances in receiver positioning, new paradigm for improving both spectral where the full-duplex relay are used. efficiency and energy efficiency through
suppressing inter-tier interference and enhancing the cooperative processing capabilities is needed in the practical evolution of UDSNs.
This tutorial will identify and discuss technical
challenges and recent results related to the UDSNs in 5G mobile networks. The tutorial is mainly divided into four parts. In the first part, we IEEE/CIC ICCC 2017 will introduce UDSNs, discuss about the UDSNs Part IV: Outlook of UDSNs (15 mins) system architecture, and provide some main technical challenges. In the second part, we will 1. Evolution of UDSNs: Future research focus on the issue of resource management in challenges UDSNs and provide different recent research findings that help us to develop engineering Tutorial-4: Rate Splitting for MIMO Wireless insights. In the third part, we will address the Networks: A Promising PHY-Layer Strategy for signal processing and PHY layer design of UDSNs 5G and Beyond and address some key research problems. In the Time: 09:00-12:30, Oct. 22, Sunday last part, we will summarize by providing a future Room: Weiyang Hall (1F)-E meeting room outlook of UDSNs. The tutorial is organized as follows: Instructors: Part I: Overview of UDSNs and System Architecture (45 mins)
1. RAN Evolutions: Brief introduction of UDSNs, SON, C-RANs, LTE-U and their potential evolution. 2. Introduction o f UDSNs: Basic features and definitions, challenges, and state of the art. 3. System architecture: Fronthaul, Fog/cloud Bruno Clerckx computing, heterogeneous networks, Imperial College London, UK performance metrics
Part II: Resource Management in UDSNs (60 mins)
1. Resource Allocation : A cooperative bargaining game theoretic approach 2. Resource allocation with heterogeneous services 3. Secure resource allocation without and with cooperative jamming
4. Cross layer optimization in UDSNs Hamdi Joudeh Imperial College London, UK Part III: Interference Management in UDSNs (60 Abstract: Numerous techniques have been mins) developed in the last decade for MIMO wireless networks, including among others MU-MIMO, 1. Interference-limited resource optimization CoMP, Massive MIMO, NOMA, millimetre wave with fairness and imperfect spectrum MIMO. All those techniques rely on two extreme sensing interference management strategies, namely fully 2. Coexistence of Wi-Fi and UDSNs with decode interference and treat interference as LTE-U noise. Indeed, while NOMA based on 3. Cooperative interference mitigation and superposition coding with successive interference handover management cancellation relies on strong users to fully decode 4. Incomplete CSI based resource and cancel interference created by weaker users, optimization in SWIPT IEEE/CIC ICCC 2017 MU-MIMO/Massive MIMO/CoMP/millimetre 2. Problem of current 4G and emerging 5G wave MIMO based on linear precoding rely on architecture (10min) fully treating any multi-user interference as noise. In this tutorial, we depart from those two a. LTE-A performance and limitations: extremes and introduce the audience to a more MU-MIMO, CoMP, HetNets general and more powerful transmission b. Motivation for a new physical layer framework based on Rate-Splitting (RS) that consists in decoding part of the interference and 3. Fundamentals of Rate Splitting (50min) in treating the remaining part of the interference a. Interference Channel as noise. This enables RS to softly bridge and b. Broadcast Channel with imperfect CSIT therefore reconcile the two extreme strategies of c. Performance Limits and Degrees of fully decode interference and treat interference Freedom as noise. d. Sum-Rate Enhancement and CSI Feedback RS relies on the transmission of common Reduction (degraded) messages decoded by multiple users, and private (nondegraded) messages decoded by 4. Transceiver Optimization of Rate-Splitting their corresponding users. As a result, RS pushes (20min) multiuser transmission away from conventional a. Problem formulation unicast-only transmission to superimposed b. Robust beamforming (sum-rate unicast multicast transmission and leads to a maximization, max-min fairness) more general class/framework of strategies, e.g. NOMA and MU-MIMO with linear precoding 5. Extensions of Rate Splitting (65min) being special cases of RS. RS will be shown to provide significant benefits in terms of spectral a. Multiple receive antennas efficiencies, reliability and CSI feedback overhead b. Massive MIMO reduction over conventional strategies c. Multi-Cell MIMO used/envisioned in LTE-A/5G. The gains of RS will d. Overloaded systems be demonstrated in a wide range of scenarios: e. Non-Orthogonal Multiple Access multi-user MIMO, massive MIMO, multi-cell f. Multigroup Multicast MIMO/CoMP, overloaded systems, NOMA, g. Communications in the presence of RF multigroup multicasting, mmwave impairments communications, communications in the h. Millimeter Wave Communications presence of RF impairments. Open problems and challenges will also be discussed. 6. Rate-Splitting in 5G (15min)
The tutorial is organized as follows: a. Standardization issues and efforts 1. Introduction to MIMO networks, interference 7. Future Challenges (10min) management and 4G design (10min)
a. Point to point MIMO b. Multi-user MIMO
c. Multi-cell MIMO and HetNets
d. Massive MIMO e. Interference Management
IEEE/CIC ICCC 2017 Tutorial-5: Ultra-reliable and Low-latency requirements, including ultra-high reliability, Communications: Requirements, Solutions, and ultra-low latency, and extremely high network availability, is very challenging in wireless Future Directions communications. Time: 14:00-17:30, Oct. 22, Sunday The tutorial is organized as follows: Room: Jiabin Hall (1F)-B meeting room In the first part, we will introduce URLLC, discuss the QoS requirements, and provide an overview Instructors: of different research initiatives related to URLLC. In the second part, we will introduce some initial solutions of radio resource management in 5G RAN and transmission modes proposed for URLLC, where useful tools and methods for cross-layer design will be discussed. In the last part, we will summarize some open problems in URLLC and discuss the future research directions.
Tutorial-6: Statistical Queuing and Delay Analysis and Its Applications in Wireless Chenyang Yang Beihang University, China Networking Time: 14:00-17:30, Oct. 22, Sunday Room: Yin Ganlan Hall-C meeting room
Instructors:
Changyang She Singapore University of Technology and Design, Singapore Abstract: Supporting ultra-reliable and Wenchi Cheng low-latency communications (URLLC) is one of the Xidian University, China major goals in fifth generation (5G) communication systems. Ensuring such a stringent quality-of-service (QoS) enables various applications in tactile internet such as control of exoskeletons for patients, remote driving, free-viewpoint video, and synchronization of suppliers in a smart grid, and in ultra-reliable machine-type-communications (MTC) such as autonomous vehicles and factory automation. Due to limited radio resources, channel fading Qinghe Du and network congestion, achieving the target Xi’an Jiaotong University, China IEEE/CIC ICCC 2017 Abstract: 1. The applications of statistical delay-control This proposal will be discussing the fundamental theory on battery management, security theory of statistical queuing and delay analysis, assurance, and social aware networking. which controls the delay-bound violation 2. The applications of heterogeneous probability within a very low tolerable level. This delay-bounded QoS provisioning on D2D theory and its application typically aim at networks, CR networks, FD-enabled preventing delay violation from frequently networks, OAM based multi-mode happening. In other words, it is an approach for networks. small or tail probability control, which has wide It is a half-day tutorial, which will be presented by application in wireless communications and two speakers. networking, especially on delay–bounded quality of service (QoS) assurance. This proposal would Tutorial-7: Communication and Signal Processing start with the background introduction on how Advances in Wireless Power Transmission statistical delay-bounded QoS metrics are Time: 14:00-17:30, Oct. 22, Sunday important in current and future wireless networks. Room: Conference Room (3F)-D meeting room Then, the fundamental theory will be elaborated on in details with vivid illustration. Applications of Instructor: the theory on delay-bounded QoS provisioning include how it is applied in diverse wireless networking scenarios, including point-to-point links, point-to-multi-point networks, relay networks, full-duplex enabled networks, device-to-device (D2D) underlaid networks, cognitive radio (CR) networks, etc. Moreover, we would also like to share our latest research progress regarding how to apply the theories’ into a wide spectrum of interests in wireless communications, including battery management, social-aware D2D networking, energy harvesting Bruno Clerckx networks, orbital-angular-momentum (OAM) Imperial College London, UK based multi-mode networks, as well as security Abstract: Microwave wireless power transfer assurance. (WPT) is a promising technology to provide The tutorial is organized as follows: cost-effective and real-time power supplies to Part I: Fundamental Theory of Statistical Queuing wireless devices. Although microwave WPT shares Analysis and Delay Control many similar characteristics with the extensively 1. Background and challenges studied wireless information transfer or 2. Fundamental theory of statistical delay communication, they also differ significantly in control over wireless networks terms of design objectives, transmitter/receiver Part II: Applications of Statistical Queuing Analysis architectures and hardware constraints, etc. In and Delay Control in Wireless Networks this tutorial, we first give an overview on the 1. QoS-Driven wireless communications in various WPT technologies, the historical cellular networks development of the microwave WPT technology 2. Heterogeneous QoS in full-duplex-enabled and the main challenges in designing wireless networks contemporary microwave WPT systems. Then, we Part III: Diversification of Applications Benefiting focus on discussing the new communication and from Statistical Delay-Control Theory signal processing techniques that can be applied to tackle these challenges. Topics discussed IEEE/CIC ICCC 2017 include energy harvester modelling, energy Tutorial-8: Signal Processing for Full-Duplex beamforming for WPT, channel acquisition, power Wireless Communications: Its Challenges, region characterization in multi-user WPT, Practical Solutions and Future Research waveform design with linear and non-linear Directions energy receiver model, safety and health issues of WPT, massive MIMO (multiple-input Time: 14:00-17:30, Oct. 22, Sunday multiple-output) and millimeter wave (mmWave) Room: Weiyang Hall (1F)-E meeting room enabled WPT, wireless charging control, and wireless power and communication systems Instructor: co-design. We also point out directions that are promising for future research. The tutorial is organized as follows: 1. Overview of WPT Technologies (15min) a. History of Microwave Wireless Power Transfer b. Microwave Wireless Power Transfer: A Fresh New Look 2. Analytical model of a rectenna (30min) a. Antenna model b. Rectifier and diode models Zhongshan Zhang 3. Single-user WPT (30min) University of Science and Technology Beijing, a. Energy beamforming Beijing, China b. Channel acquisition Abstract: The family of conventional half-duplex c. Extension and future work (HD) wireless systems relied on transmitting and 4. Multi-user WPT (30min) receiving in different time-slots or frequency a. WPT network architecture sub-bands. Hence the wireless research b. Power region characterization community aspires to conceive full-duplex (FD) c. Extension and future work operation for supporting concurrent transmission 5. Waveform design (45 min) and reception in a single time/frequency channel, a. Effect of rectifier non-linearity which would improve the attainable spectral b. Single-user waveform design efficiency by a factor of two. The main challenge c. Multi-user waveform design encountered in implementing an FD wireless d. Circuit evaluations device is the large power difference between the e. Extension and future work self-interference (SI) imposed by the device’s own 6. Prototyping and experimentation of WPT transmissions and the signal of interest received (15min) from a remote source. In this tutorial, we present 7. Further discussions (15min) a comprehensive list of the potential FD a. Safety and health issues techniques and highlight their pros and cons. We b. Massive MIMO and mmwave WPT classify the SI cancellation techniques into three c. Wireless charging control categories, namely passive suppression, analog d. Joint design with wireless communications cancellation and digital cancellation, with the advantages and disadvantages of each technique compared. Specifically, we analyze the main impairments (e.g. phase noise, power amplifier nonlinearity as well as in-phase and
quadrature-phase (I/Q) imbalance, etc.) that degrading the SI cancellation. We then discuss the FD based Media Access Control (MAC)-layer IEEE/CIC ICCC 2017 protocol design for the sake of addressing some a. Full-Duplex Relaying with SI Mitigation of the critical issues, such as the problem of b. Hybrid FD/HD Relaying hidden terminals, the resultant end-to-end delay a. Five-Phase based Hybrid FD/HD and the high packet loss ratio (PLR) due to Relaying network congestion. After elaborating on a b. Hybrid Schemes in CRNs variety of physical/MAC-layer techniques, we c. Opportunistic FD/HD Mode discuss potential solutions conceived for meeting 6. Conclusions & Potential Future Research the challenges imposed by the aforementioned a. Conclusions techniques. Furthermore, we also discuss a range b. Future Directions of critical issues related to the implementation, performance enhancement and optimization of FD systems, including important topics such as hybrid FD/HD scheme, optimal relay selection and optimal power allocation, etc. Finally, a variety of new directions and open problems associated with FD technology are pointed out. The tutorial is organized as follows (100+ PPT Slides, 1~2 hour) : 1. Motivation of Full-Duplex Research a. Global Spectrum Shortage b. Half-Duplex Erodes Resource Utilization c. Full-Duplex Doubles Spectral Efficiency d. Challenges in Full-Duplex Operations 2. Benefits of Employing Full-Duplex a. Driving Forcebehind the advances in FD b. Capacity Analysis in FD c. Outage Probability in FD Links d. BER Performance in FD e. Benefits of Employing Full-Duplex f. Pros/Cons of Full-Duplex Techniques 3. Self-Interference Cancellation a. Why Should We Perform SI Cancellation? b. Key Points c. Principles of SI Cancellation d. Self-Interference Cancellation Categories a. Passive SI Suppression b. Active SI Cancellation c. Open Issues in SI Cancellation Techniques e. Impairments Imposed on SI Cancellation f. Practical Full Duplex SI Cancellation Designs 4. Full-Duplex MAC-Layer Protocols a. Full-Duplex MAC Design a. The Busytone-aided MAC Protocol b. FD-MAC Protocol b. Challenging Issues in MAC Design 5. Practical Implementation Issues IEEE/CIC ICCC 2017 ICCC2017 TECHNICAL PROGRAM
Telecommunications, China); Yongmei Cheng A meeting room (Northwestern Polytechnical University, China) Time: 11:00 -12:30 am, 23 Oct. 2017 WCS-1 Performance Analysis and Optimal Signal SESSION CHAIR: Zhiquan Bai Detection for Amplify-and-Forward Relay in Diffusion-Based Molecular Communication
Systems (Invited paper) Angle-Based Codebook for Low-Resolution Jiaxing Wang (Beijing University of Posts and Hybrid Precoding in Millimeter-Wave Massive Telecommunications, China); Shuo Yuan (Beijing MIMO Systems (Invited paper) University of Posts and Telecommunications, Jingbo Tan (Tsinghua University, China); Linglong China); Mugen Peng (Beijing University of posts & Dai (Tsinghua University, China); Jianjun Li Telecommunications, China) (Zhongyuan University of Technology, China); Shi
Jin (Southeast University, China)
A Stream-wise Blind Selected Mapping Time: 14:00 -15:30 am, 23 Oct. 2017 Technique for Low-PAPR Multi-user MIMO IAP-1 Transmission (Invited paper) Amnart Boonkajay (Tohoku University, Japan); Fumiyuki Adachi (Tohoku University, Japan) Time: 16:00 -17:30 am, 23 Oct. 2017 (Invited paper) WCS-4 SESSION CHAIR: Shuangshuang Han Fine-grained Collision Mitigation Control for Neighbor Discovery in Wireless Sensor Networks Simultaneous Wireless Information and Power (Invited paper) Transfer for Cognitive Two-Path Successive Kaigui Bian (Peking University, China); Yangbin Relaying Networks Zhang (Peking University, China); Pengpeng Qiao Zihe Zhang (Northwestern Polytechnical (XiangTan University, China); Zhetao Li (Xiangtan University, China); Lixin Li (Northwestern University, China) Polytechnical University, China); Ganning He
(Northwestern Polytechnical University, China); Pilot Beamforming for Massive Machine Type Wei Chen (Tsinghua University, China); Zhu Han Communication Systems (Invited paper) (University of Houston, USA) Hyoungju Ji (Seoul National University & Samsung Electronics. Co., Ltd, Korea); Jun Won Choi Joint Relay-and-Antenna Selection in NOMA (Hanyang University, Korea); Byonghyo Shim Relaying Networks Over Nakagami-$m$ Fading (Seoul National University, Korea) Channels
Qinghai Li, Jianhua Ge, Qian Wang and Qifei Bu Analysis of Base Station Deployment Impact on (Xidian University, China) LOS Probability Model for 5G Indoor Scenario (Invited paper) Wei Li (Northwestern Polytechnical University, Energy-Efficient Joint Power Control and China); Lei Tian (Beijing University of Posts and Resource Allocation for D2D-Aided Telecommunications & Wireless Technology Heterogeneous Networks Innovation Institute, China); Jianhua Zhang Shaobo Lv, Xianxian Wang and Xuehan Meng (Beijing University of Posts and (University of Science and Technology Beijing, IEEE/CIC ICCC 2017 China); Zhongshan Zhang (University of Science Shiqi Gong (Beijing Institute of Technology, China); and Technology Beijing (USTB), China); Keping Chengwen Xing (Beijing Institute of Technology, Long (University of Science and Technology China); Sheng Chen (University of Southampton, Beijing, China) United Kingdom (Great Britain)); Nan Yang (Australian National University, Australia); Yiqing A Linear Predictive Coding Based Compression Zhou (Chinese Academy of Science, China) Algorithm for Fronthaul Link in C-RAN Guangjin Chen, Fangliao Yang, Kai Niu and Chao Maximizing SINR for Non-Orthogonal Multiple Dong (Beijing University of Posts and Access With Bounded Channel Uncertainties Telecommunications, China) (Invited paper) Suhaib M. Al-Basit (Lancaster University, United Anti-jamming Transmission in UAV Kingdom (Great Britain)); Jingjing Cui (Southwest Communication Networks: A Stackelberg Game Jiaotong University, China); Yuanwei Liu (Queen Approach Mary University of London, United Kingdom Yifan Xu (PLA Army Engineering University, China); (Great Britain)); Zhiguo Ding (Lancaster University, Guochun Ren (PLA University of Science and United Kingdom (Great Britain)); Pingzhi Fan Technology, China); Jin Chen (PLA University of (Southwest Jiaotong Universityiversity, China) Sci. and Tech., China); Luliang Jia (PLA Army Engineering University, China); Yuhua Xu (College Effective Gateway Association Schemes for of Communications Engineering, PLA University of Performance Improvement of V2I Science and Technology, China) Communications in Heterogenous Vehicular Networks (Invited paper) Shun Wang (Nanjing University, China); Tianyu Effects of Antenna Height and Directivity on 60 Wang (Nanjing University, China); Shaowei Wang GHz Indoor Channels (Nanjing University, China) Jie Huang and Liu Yu (Shandong University, China);
Jian Sun (ShanDong University, China); Wensheng Wireless Channel Modeling through Automatic Zhang (Shandong University, China); Chengxiang Stereoscopic Warehouse in Industrial Internet Wang (Heriot-Watt University, United Kingdom (Invited paper) (Great Britain)) Qihan Zhang (Northeastern University, China); Lei B meeting room Guo (Northeastern University, China); Weigang Hou (Northeastern University, China); Mengru Wu Time: 11:00 -12:30 am, 23 Oct. 2017 (Northeastern University, China) WCS-2 SESSION CHAIR: Haijun Zhang Performance Comparison of Six Massive MIMO Channel Models (Invited paper) Outage Performance Analysis of Underlay Lu Bai (Shangdong University, China); Chengxiang Cognitive DF Relaying Network with SWIPT in Wang (Heriot-Watt University, United Kingdom (Great Britain)); Shangbin Wu (Samsung R&D Nakagami-m Fading Environment (Invited paper) Institute UK, United Kingdom (Great Britain)); Yiyun Cheng (Yangzhou University, China); Jing Carlos F Lopez (Heriot-Watt University, United Yang (Yangzhou University & Southeast University, Kingdom (Great Britain)); Xiqi Gao (Southeast China); Jie Ding (Yangzhou University, China); University, China); Wensheng Zhang and Liu Yu Kostas Peppas (NCSR Demokritos, Greece); P. (Shandong University, China) Takis Mathiopoulos (University of Athens, Greece)
Robust Energy-Efficient Precoding Optimization for Dual-Polarized Multiuser MIMO Downlink (Invited paper) IEEE/CIC ICCC 2017 Time: 14:00 -15:30 am, 23 Oct. 2017 Joint Relay Selection and Beamforming for WCS-3 mmWave Fronthauling Network SESSION CHAIR: Xiaotian Zhou Yan Zeng (Beijing University of Posts and Telecommunications, China); Xiangming Wen
(Beijing University of Posts and Spatial Cross-Correlation Properties of MmWave Telecommunications, China); Zhaoming Lu (BUPT, Massive MIMO Channels (Invited paper) China); Yawen Chen (Beijing University of Posts Rui Feng and Jie Huang (Shandong University, and Telecommunications, China); Hua Shao China); Jian Sun (ShanDong University, China); Yi (Beijing Bniversity of Posts and Tan and Chengxiang Wang (Heriot-Watt University, Telecommunications, China) United Kingdom (Great Britain)); Shidong Zhou (Tsinghua University, China) Time: 16:00 -17:30 am, 23 Oct. 2017 Throughput Oriented Resource Allocation for WCS-5 Device-to-Device Aided Cellular Systems (Invited SESSION CHAIR: Min Jia paper) Xianxian Wang (University of Science and Technology Beijing, China); Shaobo Lv (University Non-orthogonal Multiple Access in LTE of Science and Technology Beijing, China); Xuehan Heterogeneous Networks with System-Level Meng (University of Science and Technology Evaluation Beijing, China); Zhongshan Zhang (University of Xietian Huang (Southeast University, China); Wei Science and Technology Beijing (USTB), China) Xu (Southeast University, China); Hua Zhang (Southeast University, China); Xiaohu You SOUP: Advanced SDR Platform for 5G (National Mobile communication Research Lab., Communication (Invited paper) Southeast University, China) Feng Hubin (Tongji University, China); Jun Wu (Tongji University China, China); Xiaonian Gong An Adaptive Transmission Method for (Tongji University, China) Submerged Buoys Communication in a Seawater Resource Allocation and Interference Channel Management in Hybrid Millimeter Wave Yafeng Zhan (Tsinghua University, China); Xiaohan Networks (Invited paper) Pan (Tsinghua University, China) Jia Shi (5GIC, University of Surrey, China); Pei Xiao (University of Surrey, United Kingdom (Great Energy Efficiency and Outage Constrained Power Britain)); James Kelly (University of Surrey & Allocation for Relay Aided Underlaying Institute for Communication Systems (ICS), United Device-to-Device Communications Kingdom (Great Britain)); JiangBo Si (Xi'dian, Rui Zhang (Xidian University, China); Yongzhao Li China) (Xidian University, China); Yunfei Chen (University of Warwick, United Kingdom (Great Britain)); Efficient Resource Allocation in Wireless Yuhan Ruan (Xidian University, China); Hailin Network Virtualization: A Joint Design of Zhang (Xidian University, China); Hongxing Xia Adverse Selection and Moral Hazard (Xidian University, China) Chuyi Guo (Beijing University of Posts and Telecommunications, China); Yanru Zhang (The Beam Management for Millimeter Wave Chinese University of Hong Kong, Hong Kong, Beamspace MU-MIMO Systems China); Li Wang (Beijing University of Posts and Qing Xue (Southwest Jiaotong University, China); Telecommunications, China); Zhu Han (University Xuming Fang (Southwest Jiaotong University, of Houston, USA); Ping Zhang (WTI-BUPT, China) China); Ming Xiao (Royal Institute of Technology, Sweden) IEEE/CIC ICCC 2017 Stackelberg Differential Game Based Resource On vNF-SC Deployment and Task Scheduling for Allocation in Wireless Powered Relay Networks Bulk-Data Transfers in Inter-DC EONs (Invited Haitao Xu (University of Science and Technology paper) Beijing, China); Jiyang Ma (China Academy of Wei Lu, Lipei Liang and Zuqing Zhu (University of Information and Communications Technology, Science and Technology of China, China) China); Xianwei Zhou (University of Science and Technology Beijing, China); Zhu Han (University of Software Defined Optical Networks Secured by Houston, USA) Quantum Key Distribution (QKD) (Invited paper) Yongli Zhao, Yuan Cao, Xiaosong Yu and Jie Zhang 5.9 GHz Vehicular Channels Comparisons (Beijing University of Posts and Between Two Traffic Status for Dense Urban Telecommunications, China) Area Fang Li (Wuhan University of Technology, China); A New Light Source of VLC Combining White Wei Chen (Wuhan University of Technology, LEDs and RGB LEDs China); Yishui Shui (Wuhan University of Jian Song (ShanDong University, China); Technology, China); Xu Da Li (Old Dominion Wensheng Zhang, Li Zhou and Xiaotian Zhou University, USA); Junyi Yu (Wuhan University of (Shandong University, China); Jian Sun (ShanDong Technology, China); Changzhen Li (Wuhan University, China); Chengxiang Wang University of Technology, China); Kun Yang (Super (Heriot-Watt University, United Kingdom (Great Radio AS, Norway) Britain))
C meeting room Time: 14:00 -17:30 am, 23 Oct. 2017 Time: 11:00 -12:30 am, 23 Oct. 2017 Steering Committee Meeting OCSN-1 SESSION CHAIR: Yuhan Ruan D meeting room Incentive-Driven Service Provisioning in Multi-Broker Orchestrated Multi-Domain Time: 11:00 -12:30 am, 23 Oct. 2017 SD-EONs (Invited paper) WNM-1 Xiaoliang Chen (University of California, Davis, SESSION CHAIR: Qiang Li USA); Wei Lu (University of Science and Technology of China, China) Throughput and Robustness Guaranteed Beam Tracking for mmWave Wireless Networks Fully photonics-based random number (Invited paper) generators (Invited paper) Pei Zhou, Xuming Fang and Yan Long (Southwest Pu Li (Taiyuan University of Technology & Bangor Jiaotong University, China) University, China) Coalition Game for User Association and Research Progress of Orbital Angular Bandwidth Allocation in Ultra-Dense mmWave Momentum Multiplexing Communication in Networks (Invited paper) Xi'an University of Technology (Invited paper) Yanping Liu, Xuming Fang, Pei Zhou and Kaijun Xi-zheng Ke and Jiao Wang (Xi’an University of Cheng (Southwest Jiaotong University, China) Technology, China)
IEEE/CIC ICCC 2017 A Cache Replacement Strategy for Hybrid P2P Time: 14:00 -15:30 am, 23 Oct. 2017 VOD Streaming Media (Invited paper) WNM-2 Pingchuan Ding and Xin Wei (Nanjing University SESSION CHAIR: Rui Zhang of Posts and Telecommunications, China); Zhenjiang Dong (Cloud & IT Institute, ZTE Radio Resource Allocation for D2D-based V2V Corporation, China); Yi Qian (University of Communications with Lyapunov Optimization Nebraska - Lincoln, USA) Nan Yu, Jie Mei and Long Zhao (BUPT, China); Kan
Zheng (Beijing University of Posts& Compensation of Non-orthogonal ICI for SEFDM Telecommunications, China); Hui Zhao (Beijing Receivers (Invited paper) University of Posts and Telecommunications, Min Jia (Harbin Institute of Technology, China); China) Zhisheng Yin (Harbin Institute of Technology,
China); Qing Guo (Harbin Institute of Technology, Matching-based Socially-Aware Data Caching for China); Xuemai Gu (Harbin Institute of D2D Communications Technology, China); Zheng Chang (University of Jyväskylä, Finland); Ming Meng (Yanshan University, China); Xijuan Energy Efficient Resource Allocation for the Guo (Yan Shan University, China); Tapani Software-Defined VLC and RF Small Cells Ristaniemi (University of Jyväskylä, Finland) Haijun Zhang (University of Science and Technology Beijing, China); Na Liu (BUCT, China); Context-Aware Multi-RAT Connection with Keping Long (University of Science and Bi-level Decision in 5G Heterogeneous Networks Technology Beijing, China); Victor C.M. Leung Jing Li (Beijing University of Post and (University of British Columbia, Canada); Lajos Telecommunications, China); Xing Zhang, Shuo Wang and Wenbo Wang (Beijing University of Hanzo (University of Southampton, United Posts and Telecommunications, China) Kingdom (Great Britain))
Guaranteed Rendezvous for Cognitive Radio Distributed Relay Selection for Heterogeneous Networks Based on Cycle Length UAV Communication Networks Using A Li Gou (Michigan Technological University, USA); Many-to-Many Matching Game Without Xiaohua Xu (Kennesaw State University, USA); Substitutability Chongqing Zhang (Shandong University of Science Dianxiong Liu, Yuhua Xu and Yitao Xu (College of and Technology, China); Min Song (Michigan Communications Engineering, PLA Army Technological University, USA) Engineering University); Qihui Wu (College of Electronic and Information Engineer, Nanjing A Hybrid Relay Node Selection Strategy for University of Aeronautics and Astronautics, VANET Routing Nanjing, China); Jianjun Jing (College of Kun Liu and Kai Niu (Beijing University of Posts Communications Engineering, PLA Army and Telecommunications, China) Engineering University); Yuanhui Zhang (PLA University of Science and Technology & Zhenjiang A Topology Control Algorithm Based on Watercraft College, China); Alagan Anpalagan Homology Theory in Software-Defined Sensor (Ryerson University, Canada) Networks Zhiyong Cao (Southeast University, China); Feng Yan (National Mobile Communications Research Laboratory, Southeast University, China); Shuguang Deng (Hunan City University, China); Weiwei Xia, Lianfeng Shen and Zhengquan Li IEEE/CIC ICCC 2017 (National Mobile Communications Research Yu Qiu (Beijing University of Chemical Technology, Laboratory, Southeast University, China) China); Haijun Zhang and Keping Long (University of Science and Technology Beijing, China); Hongjian Sun (Durham University, United Time: 16:00 -17:30 am, 23 Oct. 2017 Kingdom (Great Britain)); Xuebin Li (BUCT, China); Victor C.M. Leung (University of British Columbia, NGN-1 Canada) SESSION CHAIR: Ruisi He
3D Drone-Cell Deployment Optimization for E meeting room Drone Assisted Radio Access Networks (Invited Time: 11:00 -12:30 am, 23 Oct. 2017 paper) SPC-1 Weisen Shi, Junling Li and Wenchao Xu SESSION CHAIR: Yongchao Wang (University of Waterloo, Canada); Haibo Zhou
(Nanjing University & University of Waterloo, A Sensor Selection Method for TDOA and AOA China); Ning Zhang and Sherman Shen (University localization in the Presence of Sensor Errors of Waterloo, Canada) (Invited paper) Benjian Hao, Yue Zhao, Zan Li and Pengwu Wan An Energy-Efficient Clustering Algorithm for (Xidian University, China) Heterogeneous Wireless Sensor Networks (Invited paper) An Efficient Global Algorithm for Nonconvex Zhai Shuang (JiLin University, China); Yu Fu (Jilin Complex Quadratic Problems with Applications University, China); Cheng Chao (ChangChun in Wireless Communications (Invited paper) University of Technology, China) Cheng Lu (North China Electric Power University, China); Ya-Feng Liu (Chinese Academy of Sciences, Fast Unknown Tag Identification in Large-Scale China); Jing Zhou (Zhejiang University of (Invited paper) RFID Systems Technology, China) Yu Fu and Zhihong Qian (Jilin University, China); Guang Ji (Jilin Electric Power Company Limited Differential Coherent Accumulation Acquisition State Grid Corporation of China, China); Xin Gao Algorithm for DSSS Signals on FPGA Platform and Qiao Zhu (Jilin University, China) (Invited paper) Nangen Zhang, Fei Gao and Ziyao Liu (Beijing Clustering Coefficient Analysis in Large Wireless Institute of Technology, China) Ad Hoc Network (Invited paper) Chih-Hsiu Zeng (National Taiwan University, Energy-Efficient Resource Allocation in Taiwan, China); Kwang-Cheng Chen (University of CoMP-SWIPT Heterogeneous Networks (Invited South Florida, USA) paper) Jie Tang (South China University of Technology, A Minimum Data-rate Guaranteed Joint China); Daniel K. C. So (University of Manchester, Resource Allocation Scheme for D2D United Kingdom (Great Britain)); Arman Communication System (Invited paper) Shojaeifard and Kai Kit Wong (University College Yingnan Cheng, Fan Wu, Xiaoyan Huang and London, United Kingdom (Great Britain)) Supeng Leng (University of Electronic Science and Technology of China, China) Concentric UCAs Based Low-Order Radio Vortex Wireless Communications with Co-Mode Improving Handover of 5G Networks by Network Interference (Invited paper) Function Virtualization and Fog Computing Haiyue Jing, Wenchi Cheng, Zan Li and Hailin (Invited paper) Zhang (Xidian University, China) IEEE/CIC ICCC 2017 Some Facts You May Want to Know about Qinyu Zhang (Shenzhen Graduate School, Harbin Water-Filling Solutions (Invited paper) Institute of Technology, China) Chengwen Xing, Xing Wei and Shuai Wang (Beijing Institute of Technology, China); Shaodan Ma (University of Macau, China); Jianping An Time: 16:00 -17:30 am, 23 Oct. 2017 (Beijing Institute of Technology, China) CIT Time: 14:00 -15:30 am, 23 Oct. 2017 SESSION CHAIR: Lin Zhang SPC-2 Performance Analysis on Distributed Storage SESSION CHAIR: Jiayin Xue Systems in Ring Networks (Invited paper)
Qin Zhang and Yuan Sun (Shanghai Jiao Tong Max-Min Hybrid Precoder Design For mmWave University, China); Shan Qu (Shanghai Jiaotong Multi-Group Multicasting Systems (Invited University, China); Jinbei Zhang (Shanghai Jiao paper) Tong University, China); Xinbing Wang (Shanghai Ming-Min Zhao (Zhejiang University, China); Jiaotong University, China) Qingjiang Shi (Zhejiang Sci-Tech University, China)
Polar Coding for Faster-Than-Nyquist Signaling Leakage-Based Probabilistic Robust Qingshuang Zhang (PLA University of Science and Beamforming over MISO Interference Channel Technology, China); AiJun Liu (PLA University of Jing Xu (Xi'an Jiaotong University, China); Ruixin Science and Technoloty); Hao Liang (PLA He (Xian Jiaotong University, China) University of Science and Technology, China); Xuan Yi (PLA University of Science and Technoloty, Hybrid Precoding based on Tensor China) Decomposition for mmWave 3D-MIMO Systems Lu Liu and Yafei Tian (Beihang University, China) Efficiency and Fairness of Energy Broadcasting Systems with Centralized Massive MIMO Improved LAS Detection Based On Grouped Yingzhuoxu Kuang (Beijing University of Posts and Genetic Algorithm for Massive MIMO System Telecommunications, China); Long Zhao (BUPT, Zhixin Wang (Beijing University of Posts And China); Hui Zhao (Beijing University of Posts and Telecommunications, China); Jin Xu and Xiaofeng Telecommunications, China) Tao (Beijing University of Posts and Telecommunications, China) Optimized Signal-Space Alignment for Physical-Layer Network Coding over Distributed Uplink Channel Estimation with Basis Expansion MIMO System Model and Expectation Maximization for Hai Cheng (ShanghaiTech University, China); Wireless Communication Systems on High Speed Xiaojun Yuan (University of Electronic Science and Railways Technology of China, China); Tao Yang (University Xiyu Wang, Gongpu Wang and Ruisi He (Beijing of Technology Sydney, Australia) Jiaotong University, China); Yulong Zou (Nanjing University of Posts and Telecommunications, A Modification of the BCJR Algorithm over the China) Flat Fading Channel and Its Application to Turbo Decoding Inverse Synthetic Aperture Radar Imaging of Haifeng Yuan (National University of Singapore, Nonuniformly Rotating Target via Singapore); Ming-Wei Wu (Zhejiang University of Time-Weighting Azimuth Focusing Method Science and Technology, China); Pooi-Yuen Kam Jiayin Xue and Xiao Han (Harbin Institute of (National University of Singapore, Singapore) Technology Shenzhen Graduate School, China); IEEE/CIC ICCC 2017 Quality-of-Service Driven Resource Allocation via SDN and MEC Can Accelerate the Beam Training Multi-objective and Stochastic Optimization for in mmWave Outdoor Communications Wireless Multi-user Relay Networks Bohan Li, Hui Gao, Xiao jun Jing, Sun Songlin and Li Fan (Shandong Jianzhu University, China); Yuanquan Hong (Beijing University of Posts and Yanbo Ma (Shandong University of Finance and Telecommunications, China) Economics, China); Piming Ma and Bin Yu (Shandong University, China); Qiang Liu Configuration of Base Station Antennas in (Shandong University of Finance and Economics, Millimeter Wave MU-MIMO Systems China) Lu Liu, Yafei Tian and Yifan Xue (Beihang University, China)
A meeting room Performance Analysis of Multi-Carrier LAA and Time: 11:00 -12:30 am, 24 Oct. 2017 Wi-Fi Coexistence in Unlicensed Spectrum WCS-6 Song Wang, Qimei Cui and Yu Gu (Beijing SESSION CHAIR: Bohan Li University of Posts and Telecommunications, China)
Multi-QoS Mobile Services Guaranteed Resource Allocation with Effective Capacity Yaqi Jin (Beijing University of Posts and Time: 14:00 -15:30 am, 24 Oct. 2017 Telecommunications, China); Xiaodong Xu (Beijing IAP-2 University of Posts and Telecommunications & Wireless Technology Innovation Institute, China); Yunting Wang and Xiaofeng Tao (Beijing Time: 16:00 -17:30 am, 24 Oct. 2017 University of Posts and Telecommunications, China) WCS-9 SESSION CHAIR: Zengmao Chen Low-complexity Detection for Multi-antenna Differential Unitary Space-time Modulation Detection of An Unknown Radio Transmitter Systems Using Joint RSSD and AoA Information Based on Shuangshuang Han (Institute of Automation, Factor Graph Chinese Academy of Sciences, China); Peng Zhang Liyang Zhang and Taihang Du (Hebei University of (Weifang University, China); Feijin Shi (Shandong Technology, China); Chengxiang Wang University, China); Dongpu Cao (Cranfield (Heriot-Watt University, United Kingdom (Great University, United Kingdom (Great Britain)); Britain)) Feiyue Wang (Institute of Automation, Chinese Academy of Sciences, China) An Interference Model for Heterogeneous Cognitive Radio Networks A Base Station ON-OFF Switch Algorithm with Zengmao Chen and Yunmin Tang (Harbin Grid-based Traffic Map in Dense 5G network Engineering University, China); Sun Zhiguo Zongjian Tong, Fangmin Xu and Chenglin Zhao (Harbin Engineering University, Harbin, China); (Beijing University of Posts and Xiaolin Zhang (Harbin Engineering University, Telecommunications, China) China); Liqun Ren (Harbin Engineerin g University, China); Xiaoyan Ning (Harbin Engineering University, China)
IEEE/CIC ICCC 2017 PSK/QAM Modulation Recognition by Xingjian Zhang, Yuran Zhang, Yuan Ma and Yue Convolutional Neural Network Gao (Queen Mary University of London, United Wenyuan Xu, Yongchao Wang, Fen Wang and Xi Kingdom (Great Britain)) Chen (Xidian University, China) Latency-Constrained Content Dissemination Optimal Full-Duplex Relay Selection for Physical Scheme in Vehicular Networks Layer Security in Cooperative Wireless Networks Suxia Guo and Ronghui Hou (Xidian University, Ru. Zhang (Beijing University of Posts and China); King-Shan Lui (The University of Hong Telecommunications, China); Fang Liu and Yuanan Kong, Hong Kong, China); Hongyan Li (Xidian Liu (Beijing University of Posts and Telecom, University, China) China) Wigner-Ville Distribution MVDR Beamforming Robust Design of Hybrid Multicast Beamforming Scheme for Interference-Tolerant Cognitive with Phase Error in mmWave Systems Radio Network Jingyue Huang, Ziming Cheng and Meixia Tao Munyaradzi Munochiveyi and Xiaohui Zhao (Jilin (Shanghai Jiao Tong University, China) University, China); Joseph Mudare (University of Zimbabwe, Zimbabwe) A Modified LBT Mechanism and Performance Enhancement for LTE-U/WiFi Co-Existence A Cluster Based Geometrical Model for Jianxin Dai and Cong Shen (University of Science Millimeter Wave Mobile-to-Mobile Channels and Technology of China, China) Ruisi He (Beijing Jiaotong University, China); Bo Ai (Beijing Jiaotong University & State Key Lab of Rail Traffic Control and Safety, China); Gordon Stüber
(Georgia Institute of Technology, USA); Gongpu B meeting room Wang and Zhangdui Zhong (Beijing Jiaotong University, China) Time: 11:00 -12:30 am, 24 Oct. 2017 WCS-7 SESSION CHAIR: Wurong Zhang Time: 14:00 -15:30 am, 24 Oct. 2017
WCS-8 Joint DFT-s-OFDM Scheme for Non-contiguous Carriers Transmission SESSION CHAIR: Liu Yu Zhenyu Shi and Yi Wang (Huawei Technologies
Co., Ltd, China) Joint Optimization of Computing and Radio
Resource for Cooperative Transmission in C-RAN Demonstrating High Security Subcarrier Shifting Yingshi Li (Beijing University of Posts and Chaotic OFDM Cognitive Radio System Using Telecommunications & Beijing Key Laboratory of USRP Network System Architecture and Convergence, Zhaofeng Liu (Sun Yat-sen University, China); Lin School of Information and Communication Zhang (Sun Yat-sen University & SYSU-CMU Engineering, China); Hailun Xia (Beijing University Shunde International Joint Research Institute, of Posts and Telecommunications, China); Jinglin China); Weiwei Rao (Sun Yat-sen University, Shi (Institute of Computing Technology, Chinese China); Zhiqiang Wu (Wright State University, Academy of Sciences, China); Shie Wu (Beijing USA) University of Posts and Telecommunications,
China) Blind Cooperating User Selection for
Compressive Spectrum Sensing in Cognitive
Radio Networks IEEE/CIC ICCC 2017 Hierarchical Beamforming Scheme Based on Time: 16:00 -17:30 am, 24 Oct. 2017 Virtual Cell Cluster in Ultra Dense Network WNM-4 Lu Chen, Hailun Xia and Zhimin Zeng (Beijing University of Posts and Telecommunications, SESSION CHAIR: Jie Huang China) Social Influence Aware Sybil Detection in Social A Reduced-Complexity Differential Recursive Networks Detection Scheme for Multiple-Symbol Dapeng Wu and Si Shushan (Chongqing University Differential Detection of DDPSK of Posts and Telecommunications, China); Kaiming Liu and Zheyu Xue (Beijing University of Honggang Wang (University of Massachusetts, Posts and Telecommunications, China); Yuanan Dartmouth & College of Engineering, USA); Ruyan Liu (Beijing University of Posts and Telecom, Wang (ChongQing University of Posts and China); Gang Xie (Beijing University of Posts and Telecommunications, China); Yan Junjie Telecommunicaitions, China) (Chongqing University of Posts and Telecommunications, China) Robust Cooperative Spectrum Sensing in Dense Cognitive Vehicular Networks Prefetching-Based Content Download for Xia Liu (BUPT, China); Zhimin Zeng and Caili Guo Highway Vehicular Ad Hoc Networks (Beijing University of Posts and Tao Guo, Changle Li, Zhifang Miao, Weiwei Dong Telecommunications, China) and Xiaonan Su (Xidian University, China)
Low-Power Consumption Spacial Group Based Group Buying Based on Social Aware in D2D Random Access Scheme for MTC Devices Networks: A Game Theoretic Approach Zhenya Shao (Nanjing University of Posts and Yuli Zhang (PLA University of Science and Telecommunication & College of Technology, China); Yuhua Xu (College of Telecommunications and Information Engineering, Communications Engineering, PLA University of China); Jun Zhang, Xinghua Sun and Hongbo Zhu Science and Technology, China); Qihui Wu (PLA (Nanjing University of Posts and Unicersity of Science and Technology, China) Telecommunications, China) Participant Reputation Aware Data Collecting Energy Efficiency Optimization Based Mechanism for Mobile Crowd Sensing Self-Interference Cancellation in Massive MIMO Jing Yang (CQUPT, China); Pengcheng Li Full-Duplex System (Chongqing University of Posts and Daimeng Chen, Fangfang Liu and Chunyan Feng Telecommunication, China); Honggang Wang (Beijing University of Posts and (University of Massachusetts, Dartmouth & Telecommunications, China); Jianbo Shi (Beijing College of Engineering, USA) University of Posts and Telecommunication, China); Xiao Han (China United Network Feasibility Study of Enabling V2X Communication Corporation Ltd., China) Communications by LTE-Uu Radio Interface Ji Lianghai (Technical University of Kaiserslautern, Germany); Andreas Weinand, Bin Han and Hans D. Schotten (University of Kaiserslautern, Germany)
A Cross-Layer Cooperative Caching for Software-Defined Radio Access Networks Qiang Li, Wennian Shi and Tao Zhang (Huazhong University of Science and Technology, China); Tao Chen (VTT Technical Research Centre of Finland IEEE/CIC ICCC 2017 LTD, Finland); Tao Han and Jing Zhang (Huazhong (Heriot-Watt University, United Kingdom (Great University of Science and Technology, China) Britain))
An Improved Generalized Spatial Modulation Scheme for Indoor Visible Light Communication C meeting room Dewen Li and Wensheng Zhang (Shandong Time: 11:00 -12:30 am, 24 Oct. 2017 University, China); Jian Sun (ShanDong University, OCSN-2 China); Chengxiang Wang (Heriot-Watt University, SESSION CHAIR: Rui Feng United Kingdom (Great Britain))
Polarity Modulated Complex Colour Shift Keying for OFDM-based Visible Light Communication Time: 14:00 -15:30 am, 24 Oct. 2017 Yufa Chen and Ming Jiang (Sun Yat-sen University, WNM-3 China); Lin Zhang (Sun Yat-sen University & SESSION CHAIR: Hai Lin SYSU-CMU Shunde International Joint Research Institute, China); Xianyu Chen (Sun Yat-Sen An Interference Mitigation MAC Protocol for University, China) Wireless Body Area Network Nannan Li, Changle Li, Beibei Zhang and Yao Light and RF Dual Connectivity for the Next Zhang (Xidian University, China) Generation Cellular Systems Ahmed Al-Kinani and Chengxiang Wang High Throughput Parallel Encoding and Decoding (Heriot-Watt University, United Kingdom (Great Architecture for Polar Codes Britain)); Fourat Haider (Hutchison 3G UK Limited, Jiaying Yin, Quan Huang, Lixin Li and Ang Gao United Kingdom (Great Britain)); Harald Haas (The (Northwestern Polytechnical University, China); University of Edinburgh, United Kingdom (Great Wei Chen (Tsinghua University, China); Zhu Han Britain)); Wensheng Zhang (Shandong University, (University of Houston, USA) China); Xiang Cheng (Peking University, China) An Energy Efficient Target Tracking Algorithm Integrating LTE-D2D and VLC Techniques to Based on Triangular Cluster in WSNs Support V2V Communication Qian Zhou and Baoling Liu (Beijing University of Le Wu, Peng Yue and Zongmin Cui (Xidian Posts and Telecommunications, China); Fangyuan University, China) Zhou (Beijing University of Post and Telecomunication, China); Zhi Zhang and Nan Ma Separately Transmitted Optical OFDM for Visible (Beijing University of Posts and Light Communication With Dimming Control Telecommunications, China) Namei Yin, Caili Guo and Yang Yang (Beijing University of Posts and Telecommunications, Density and Energy based Clustering Algorithm China) for Data Aggregation in Wireless Sensor Networks A Path Loss Channel Model for Visible Light Hai Lin (WuHan University, China); Rong Xie Communications in Underground Mines (Wuhan University, China); Lanning Wei (WuHan Jia Wang (Shandong University, China); Ahmed University, China) Al-Kinani (Heriot-Watt University, United Kingdom (Great Britain)); Jian Sun (ShanDong University, China); Wensheng Zhang (Shandong University, China); Chengxiang Wang
IEEE/CIC ICCC 2017 An Energy Aware Routing Algorithm for Electronic Science and Technology of China, Software Defined Wireless Sensor Networks China) Han Bo, Wu Muqing, Min Zhao and Liao Wenxing (Beijing University of Posts and Artificial Noise Aided Path Selection for Secure Telecommunications, China) TR Communications Si Li, Na Li, Zunning Liu, Haowei Wang, Jin Xu and Distributed Renewable Energy Allocation for Xiaofeng Tao (Beijing University of Posts and Cellular Backhaul with Price Sensitive Users Telecommunications, China) Chenfei Yang, Dapeng Li, Bo Huang, Feng Tian and Hai-tao Zhao (Nanjing University of Posts and Artificial-Noise-Aided Communication in the Telecommunications, China); Changyu Liu (South Presence of an Active Eavesdropper with a China Agricultural University, China) Cooperative Jammer Zunning Liu, Na Li, Si Li, Haowei Wang, Jin Xu and Xiaofeng Tao (Beijing University of Posts and Time: 16:00 -17:30 am, 24 Oct. 2017 Telecommunications, China) PSC SESSION CHAIR: Ji Bian D meeting room
Time: 11:00 -12:30 am, 24 Oct. 2017 An Anonymous and Accountable Authentication Scheme for Wi-Fi Hotspot Access with the STC-1 Bitcoin Blockchain SESSION CHAIR: Huiqin Du Yukun Niu, Lingbo Wei and Chi Zhang (University of Science and Technology of China, China); The Application of Deep Learning in Jianqing Liu and Yuguang Fang (University of Communication Signal Modulation Recognition Florida, USA) (Invited paper) Yun Lin, Ya Tu and Zheng Dou (Harbin Engineering Privacy-preserving Power Request and Trading University, China); Zhiqiang Wu (Wright State by Prepayment in Smart Grid University, USA) Xiang Zhang (University of Science and Technology of China, China); Lijie Zhou (San Collaborative UFH-based Anti-jamming Francisco State University, USA); Kaiping Xue and Broadcast with Learning (Invited paper) Shaohua Li (University of Science and Technology Canhuang Dai, Dongjin Xu and Liang Xiao (Xiamen of China, China); Hao Yue (San Francisco State University, China); Mugen Peng (Beijing University, USA) University of posts & Telecommunications, China); Limin Sun (Institute of Information Engineering, Orbital-Angular-Momentum Based China Academy of Science, Beijing, China) Mode-Hopping: A Novel Anti-Jamming Technique A Modified Non-Stationary MIMO Channel Liping Liang, Wenchi Cheng, Hailin Zhang, Zan Li Model under 3D Scattering Scenarios and Yongzhao Li (Xidian University, China) Zhu Qiuming, Jiang Kaili and Chen Xiaomin (Nanjing University of Aeronautics and Eavesdropping via Pilot Relay Attack Astronautics, China); Cheng-xiang Wang Jiejiao Tian (University of Electronic Science and (Heriot-Watt University, United Kingdom (Great Technology of China, China); Ying-Chang Liang Britain)); Hu Xujun and Ying Yang (Nanjing (University of Electronic Science and Technology University of Aeronautics and Astronautics, of China, China & The University of Sydney, China) Australia); Xin Kang and Gang Yang (University of IEEE/CIC ICCC 2017 A Low Complexity HD Detector for Dual Efficient HARQ Scheme based on Polarized Spatial Modulation Rate-Compatible Punctured Polar Codes Jiliang Zhang and Lei Yuan (Lanzhou University, Jian Jiao (Harbin Institute of Technology - China); Yang Wang (Harbin Institute of Shenzhen, China); Sha Wang and Bowen Feng Technology, China) (Harbin Institute of Technology Shenzhen Graduate School, China); Shaohua Wu (Harbin Intuitionistic Fuzzy Handover Mechanism for Institute of Technology, China); Shushi Gu (Harbin Heterogeneous Vehicular Networks Institute of Technology-Shenzhen, China); Qinyu Xuanyu Chen, Cailian Chen, Jianping He and Zhang (Shenzhen Graduate School, Harbin Xinping Guan (Shanghai Jiao Tong University, Institute of Technology, China) China) Joint Energy Cooperation and Resource Robust Beamforming for ESPAR-based Cognitive Allocation in C-RANs with Hybrid Energy Sources Radio MIMO System Yadong Li and Changchuan Yin (Beijing University Huiqin Du, Yiying Sun and ZuJian Wu (Jinan of Posts and Telecommunications, China) University, China)
Time: 14:00 -15:30 am, 24 Oct. 2017 Time: 16:00 -17:30 am, 24 Oct. 2017 STC-2 NGN-2 SESSION CHAIR: Jiayin Xue SESSION CHAIR: Siyang Shan
Joint Antenna Selection for MIMO-NOMA User Association and Backhaul Bandwidth Networks Over Nakagami-$m$ Fading Channels Allocation for 5G Heterogeneous Networks in Qinghai Li, Jianhua Ge, Qian Wang and Qifei Bu the Millimeter-Wave Band (Xidian University, China) Zhenxiang Su (Beijing Jiaotong University, China); Bo Ai (Beijing Jiaotong University & State Key Lab Spectral-Efficiency of Multicarrier of Rail Traffic Control and Safety, China); Danping Sparse-Mapping Non-Orthogonal He and Guoyu Ma (Beijing Jiaotong University, Multiple-Access Systems: Downlink China); Ke Guan (Beijing Jiaotong University, Yinyou Mao and Xingcheng Liu (Sun Yat-sen China & Technische Universität Braunschweig, University, China); Lie-Liang Yang (University of Germany); Ning Wang (Zhengzhou University, Southampton, United Kingdom (Great Britain)) China); Dongying Zhang (ZTE, China)
Optimal Power and Rate Allocation in 3D Indoor Localization based on Spectral Buffer-Aided NOMA Relay Networks Clustering and Weighted Backpropagation Liping Qian (Zhejiang University of Technology, Neural Networks China); Caihong Kai (Hefei University of Linlin Peng, Junyu Liu, Min Sheng, Yan Zhang, Technology, China); Yuan Wu and Liang Huang Danni Hou, Yang Zheng and Jiandong Li (Xidian (Zhejiang University of Technology, China) University, China)
High-Efficient Beam-Converging for UCA Based Reinforcement Learning-Based Algorithm for Radio Vortex Wireless Communications Efficient and Adaptive Forwarding in Named Shanghua Gao, Wenchi Cheng, Hailin Zhang and Data Networking Zan Li (Xidian University, China) Bo Fu (Shanghai Jiaotong University, China); Liang Qian (Shanghai Jiao Tong University, China); Yuting Zhu and Liangpeng Wang (Shanghai Jiaotong University, China) IEEE/CIC ICCC 2017 A User Interest Preferences Based On-path Predicting Inquiry and Purchase Intention of Caching Strategy in Named Data Networking Users on Automobile Websites Siyang Shan, Chunyan Feng and Tiankui Zhang Jie Gu (Beijing University of Posts and (Beijing University of Posts and Telecommunication, China); Fang Wei (Beijing Telecommunications, China); Yinlong Liu (Institute University of Posts and Telecommunications, of Information Engineering, Chinese Academy of China); Ke Yu (Beijing University of Posts and Sciences, China) Telecommunications, Beijing, China); Rui Cao and Yazhou Shi (Beijing University of Posts and Oracle Approximating Shrinkage Estimator Telecommunications, China) Based Cooperative Spectrum Sensing for Dense Cognitive Small Cell Network A Privacy-preserving Interactive Messaging Meng Zhao, Caili Guo, Chunyan Feng and Shuo Scheme Based on Users Credibility over Online Chen (Beijing University of Posts and Social Networks Telecommunications, China) Shunan Zhang and Ying Cai (Beijing Information Science & Technology University, China); Hongke Autonomic Link Management in Wireless Xia (Beijing Information Science and Technology Backhaul Networks with OpenFlow and Traffic University, China) Prediction Maria Libunao, Bryan Ng and Winston K.G. Seah Analysis and Modeling of Ride-sharing Service (Victoria University of Wellington, New Zealand) User Behavior in Urban Area Fan Duo, Yuanyuan Qiao and Jie Yang (Beijing University of Posts and Telecommunications, E meeting room China)
Time: 11:00 -12:30 am, 24 Oct. 2017
SNBD Time: 14:00 -15:30 am, 24 Oct. 2017 SESSION CHAIR: Haojin Zhu SPC-3
Big Data-Driven Anomaly Detection in Cellular SESSION CHAIR: Shuai Ma Networks (Invited paper) Bilal Hussain, Qinghe Du and Pinyi Ren (Xi'an An Efficient TDOA and FDOA based Source Jiaotong University, China) Localization Algorithm via Importance Sampling Yunlong Wang (National Digital Switching System Fake Reviews Tell No Tales? Dissecting Click Engineering & Technological Research Center, Farming in Content-Generated Social Networks China); Ying Wu (Zhengzhou Information Science Haizhong Zheng and Neng Li (Shanghai Jiao Tong and Technology Institute, China); Yuan Shen University, China); Minhui Xue (New York (Tsinghua University, China) University Shanghai, China); Suguo Du and Haojin Zhu (Shanghai Jiao Tong University, China) Transmission Strategies of Buffer-aided Ambient Backscatter System Preferential Attachment and the Spreading Zhe Ma (Tsinghua University); Jing Qian and Feifei Influence of Users in Online Social Networks Gao (Tsinghua University, China); Gongpu Wang Jiaojiao Jiang (Swinburne University of (Beijing Jiaotong University, China); Yunzhou Li Technology, Australia); Longxiang Gao and Shui (Tsinghua University & Tsinghua University, Yu (Deakin University, Australia); Jiong Jin China) (Swinburne University of Technology, Australia); Dongfeng Yuan (Shandong University, China)
IEEE/CIC ICCC 2017 Inductor Design of Magnetic Resonance Coupled Robust Fingerprinting-based Localization Using Circuits for Secured Wireless Power Transfer Directed Graphical Models Hongru Sun and Feifei Gao (Tsinghua University, Yueyue Zhang and Yaping Zhu (Southeast China); Fengchao Zhu (University of Tsinghua, University, China); Weiwei Xia, Feng Yan and China); Junhui Zhao (Beijing Jiaotong University, Lianfeng Shen (National Mobile Communications China); Yunzhou Li (Tsinghua University & Research Laboratory, Southeast University, China); Tsinghua University, China) Yi Wu (Fujian normal university, China)
Mixed Integer Linear Programming for Carrier Comparison of MUSIC, Unitary ESPRIT, and SAGE Optimization in Wireless Localization Networks Algorithms for Estimating 3D Angles in Wireless Peng Yuan and Tingting Zhang (Harbin Institute of Channels Technology, Shenzhen Graduate School, China) Rui Feng, Liu Yu and Jie Huang (Shandong University, China); Jian Sun (ShanDong University, Robust Beamforming for Downlink China); Chengxiang Wang (Heriot-Watt University, Non-Orthogonal Multiple Access Network United Kingdom (Great Britain)) Shuai Ma, Yang He, Jiahui Dai and Maomao Zhang (China University of Mining and Technology, Compensated Correlation Reconstructed China); Hang Li (University of California, Davis, Technique for Unambiguous Acquisition of USA); Shiyin Li (China University of Mining and Binary Offset Carrier Signals Technology, China) Songhua Wang (School of Information Science and Engineering, Shandong University, Jinan, Analog Network Coded Modulation with China); Hailiang Xiong (The School of Information Maximum Euclidean Distance Science and Engineering, Shandong University, Denoising-and-Mapping China); Juan Tang (Shandong University, China); Zhijiang Yu and Wei Chen (Tsinghua University, Yong Huang and Junyu Shi (School of Information China); Xin Guo (Sony (China) Ltd., China); Xiang Science and Engineering, Shandong University, Chen (Tsinghua University, China); Chen Sun Jinan, China) (SONY, China) A Distributed Localization and Synchronization Algorithm for Full-Duplex Transmission Systems Time: 16:00 -17:30 am, 24 Oct. 2017 Yan Liu (Tsinghua University, China); Qi Liu (China SPC-4 Unicom Company, China); Yuan Shen (Tsinghua University, China) SESSION CHAIR: Mingqiang Yang
Segmentation of Hand Gesture Based on Dark Sensitivity-based Adaptive Particle Filter for Channel Prior in Projector-Camera System Geomagnetic Indoor Localization Qingrui Zhang, Mingqiang Yang, Qinghe Zheng Menghan Zheng (ShenZhen Institutes of and Xinxin Zhang (Shandong University, China) Advanced Technology, Chinese Academy of Sciences, China); Yubin Zhao (Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, China); Yueshun He (East China Institute of Technology, China); Chengzhong Xu (Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, USA)
IEEE/CIC ICCC 2017 POSTER Hongwen Yang (Beijing University of Posts and Poster Session-1 Telecommunications, China) Time: 10:30 -11:00 am, 23 Oct. 2017 WCS OCSN Millimeter-Wave Distance-Dependent and Height-Dependent Path Loss Models for 5G Utility-Based Joint Resource Allocation for Wireless Systems Cooperative OFDM Relaying in Multiuser Di Wu (China Academy of Information and Cognitive Radio Systems Communications Technology, China); Haiying Ren Bin Yu (Shandong University, China); Lili Liu (China (China Academy of Information and Maritime Police Academy, China); Yanbo Ma Communications Technology, China); Geng Su (Shandong University of Finance and Economics, (China Academy of Information and China); Piming Ma and Jiansong Tian (Shandong Communications Technology, China); Gan Guo University, China) (China Academy of Information and Communications Technology, China) A Hybrid PAPR Reduction Approach for the IM/DD Optical OFDM Communications Design of systematic polar coded selective-IR Pu Miao and Dongmei Jiang (Qingdao University, Hybrid ARQ transmission for IoT China); Lenan Wu and Peng Chen (Southeast Hao Liang (PLA University of Science and University, China) Technology, China); AiJun Liu (Nanjing Institute of Communications Engineering, China); Qingshuang Real-valued Gram-Schmidt Transform-based Zhang (PLA University of Science and Technology, Non-coherent Chaos Shift Keying Scheme for China); Zhang Yingxian (PLA University of Science Visible Light Communication System and Technology, China) Furong Fang (Sun Yat-sen University, China); Lin Zhang (Sun Yat-sen University & SYSU-CMU Energy and spectral efficiency analysis of Shunde International Joint Research Institute, millimeter wave MIMO system based on China); Weiwei Rao and Wenjun Chen (Sun known-position beamforming Yat-sen University, China) Binbin Song (Beijing University of Posts and Telecommunications, China); Zaixue Wei (Beijing WNM University of Posts and Telecommunications, China); Gaosi Li (Beijing University of Post and Implementation of QoE Evaluation Method in Telecommunication, China); Xin Zhang (Beijing the Mobile Crowd Sensing System University of Posts and Telecommunications, Xin Huang (Beijing University of Posts and China); Yitong Liu (Beijing University of Post and Telecommunications, China); Guochu Shou Telicommunications, China); Dacheng Yang (Beijing University of Posts and (Beijing University of Posts and Telecommunications, China); Yaqiong Liu (Beijing Telecommunications, China) University of Posts and Telecommunications, China); Yihong Hu (Beijing University of Posts and An improved TCP congestion control algorithm in Telecommunications, China); Zhigang Guo (Beijing LTE networks University of Posts and Telecommunications, Jiyu Cheng (Beijing University of Posts and China) Telecommunications, China); Yitong Liu (Beijing University of Post and Telicommunications, China); IEEE/CIC ICCC 2017 A Fast Image Stitching Algorithm based on SURF Fine-grained Image Classification Based on The Qiaochu Fu (Beijing University of Posts and Combination of Artificial Features and Deep Telecommunications, China); Haiying Wang Convolutional Activation Features (Beijing University of Posts and Qinghe Zheng (Shandong University, China); Telecommunications, China) Mingqiang Yang (Shandong University, China); Qingrui Zhang (Shandong University, China); An FLOM Based Signal Detection Approach Xinxin Zhang (Shandong University, China) under Middleton Class A Noise
Enwei Xu (Harbin Institute of Technology, China); Shuo Shi (Harbin Institute of Technology); Dawei Poster Session-2 Chen and Xuemai Gu (Harbin Institute of Technology, China) Time: 15:30 -16:00 am, 23 Oct. 2017
Coexistence of LTE and WLAN Systems and CIT Improvement of L2S Interface The Design and Analysis of Protograph LDPC Yuli Li (Beijing University of Posts and Codes over Rayleigh Fading Channels Telecommunicaitons, China); Hang Long (Beijing Zhaojie Yang, Yi Fang, Guofa Cai and Zibing Yao University of Posts & Telecommunications, China); (Guangdong University of Technology, China); Haojun Yang and Qing Tang (Beijing University of Guojun Han (Nanyang Technological University & Posts and Telecommunications, China) Guangdong University of Technology, Singapore)
SPC Gradient Descent Bit-Flipping Based on Penalty Factor for Decoding LDPC Codes over Symmetric People Counting Based on CNN Using IR-UWB Alpha-Stable Noise Channels Radar C. Gao (Beihang University, China); Rong Ke Liu Xiuzhu Yang, Wenfeng Yin and Lin Zhang (Beijing (Beihang University, China); Bin Dai (Beihang University of Posts and Telecommunications, University, China) China) Power Allocation for Cognitive Radio with Hybrid Waveform Design and Processing in OFDM based Energy Supplies Radar-Communication Integrated Systems Ding Xu (Nanjing University of Posts and Xuanxuan Tian (Communication Engineering Telecommunications, China); Qun Li (Nanjing Research Center, Shenzhen Graduate School, University of Posts and Telecommunications, Harbin Institute of Technology, China); Tingting China) Zhang (Harbin Institute of Technology, Shenzhen Graduate School, China); Qinyu Zhang (Shenzhen Multi-Tap Analog Self-Interference Cancellation Graduate School, Harbin Institute of Technology, for Full-Duplex Communications China); Zhaohui Song (East China Normal Xudong Li (University of Electronic Science and University, China) Technology of China, China); Donglin Liu (University of Electronic Science and Technology A Fast ADMM-based Distributed Beamforming of China (UESTC), China); Yaxin Liu (University of for MIMO Full-Duplex Relaying Network Electronic Science and Technology of China, Jingjing Lin (Sun Yat-sen University, China); Jie China); Chuan Huang (University of Electronic Gong (Sun Yat-sen University, China); Xiang Chen Science and Technology of China, China) (Sun Yat-sen University, China); Xuming Lu (Sun Yat-sen University, China)
IEEE/CIC ICCC 2017 Improved Differential Evolution Based PA Energy Technology of China, China); Zhi Chen (University Efficiency Optimization Scheme with Joint of Electronic Science and Technology of China, Polarization-QAM in OFDM Systems China); WanBin Tang (University of Electronic Jianbo Shi (Beijing University of Posts and Science & Technology of China, China); Jiangxun Telecommunication, China); Fangfang Liu (Beijing Dan (China United Network Communications University of Posts and Telecommunications, Group Co., Ltd., China) China); Chunyan Feng (Beijing University of Posts and Telecommunications, China); Shulun Zhao A Queuing based Available Bandwidth (Beijing University of Posts and Estimation Algorithm for a space bundle Link Telecommunications, China) Xiaoli Liao (Harbin Institute of Technology, Shen Zhen, China); Zhihua Yang (Harbin Institute of Technology, China); Yue Li (Harbin Institute of WCS Technology, Shenzhen, China) Spectral-Efficiency Comparison of Different Multiple-Access Schemes under A Generalized NGN Framework Dong Yang (Sun Yat-sen University, China); Queue-Theory-Based Protocol Block Allocation Xingcheng Liu (Sun Yat-sen University, China); Algorithm for Software Defined Wireless Lie-Liang Yang (University of Southampton, Network United Kingdom (Great Britain)) Lingyun Zhou (University of Electronic Science and Technology of China, China); Jun Liu (University of An Improved Three-Dimensional Auto-Clustering Electronic Science and Technology of China, Algorithm for Indoor Millimeter-wave Multipath China); Jinle Zhu (University of Electronic Science Propagation Analysis and Technology of China, China); Wei Tang Peize Zhang (China Academy of Information and (University of Electronic Science and Technology Communication Technology, China); Hongbo of China, China); Hui Hao (The Information Wang (China Academy of Information and Technology Center of Tsinghua University, China) Communications Technology, China); Haiming Wang (Southeast University, China); Yu Zhou Bounds on the Error Probability of Finite-Length (China Academy of Information and RaptorQ Codes Communications Technology, China); Xiangqian Jian Jiao (Harbin Institute of Technology - Sun (China Academy of Information and Shenzhen, China); Zhang Ke (Harbin Institute of Communications Technology, China) Technology, Shen Zhen, China); Zixuan Huang (Harbin Institute of Technology Shenzhen Location Information Aided Beam Allocation Graduate School, China); Shaohua Wu (Harbin Algorithm in mmWave Massive MIMO Systems Institute of Technology, China); Shushi Gu (Harbin Anjie Pan (Beijing University of Posts and Institute of Technology-Shenzhen, China); Qinyu Telecommunications, China); Tiankui Zhang Zhang (Shenzhen Graduate School, Harbin (Beijing University of Posts and Institute of Technology, China) Telecommunications, China); Xiao Han (China United Network Communication Corporation Ltd., A Cooperative Framework for Region China) Crowdedness Sensing in VANETs Qianrong Luo (Nanjing University of Science and Cooperative Cross-Channel Gain Estimation for Technology, China); Songjie Wei (Nanjing Underlay Spectrum Sharing University of Science and Technology, China); Hao Bo Chang (University of Electronic Science and Cheng (Nanjing University of Science & Technology of China (UESTC), China); Chuanxue Technology, China); Milin Ren (Beijing Engineering Jin (University of Electronic Science and Research Center, China) IEEE/CIC ICCC 2017 Canada); Miao Wang (University of Waterloo, Blind Recognition of Signals in LTE-U and Wi-Fi Canada); Wen Wu (University of Waterloo, Heterogeneous Cognitive Network Canada); Sherman Shen (University of Waterloo, Zhongliang Liu (Beijing University of Posts and Canada); Osama Aboul-Magd Aboul-Magd Telecommunications, China); Caili Guo (Beijing (Huawei Technologies Canada Co Ltd, Canada); University of Posts and Telecommunications, Yan Xin (Huawei Technologies Canada Co. Ltd, China); Shuo Chen (Beijing University of Posts and Canada); Rob Sun (Huawei Technologies Canada Telecommunications, China) Co Ltd, Canada); Edward Au (Huawei Technologies Co., Ltd., Canada)
Poster Session-3 A Non-Stationary MIMO Channel Model for Time: 10:30 -15:30 am, 24 Oct. 2017 Street Corner Scenarios Considering Velocity Variations of the Mobile Station and Scatterers OCSN Ji Bian (Shandong Provincial Key Lab of Wireless Resource Allocation for Heterogeneous Communication Technologies, Shandong Multi-Core Fiber Supporting Big Data University, China); Liu Yu (Shandong University, Transmission China); Chengxiang Wang (Heriot-Watt University, Ye Zhang, Qihan Zhang, Xintong Cai and Lei Guo United Kingdom (Great Britain)); Jian Sun (Northeastern University, China) (ShanDong University, China); Wensheng Zhang (Shandong University, China); Minggao Zhang Relay Selection and Link Scheduling in (Shandong Provincial Key Lab of Wireless Cooperative Free-Space Optical Backhauling of Communication Technologies, China) 5G Small Cells Song Song, Yejun Liu, Qingyang Song and Lei Guo A Hierarchical Approach for Terminal Awareness (Northeastern University, China) in Fog Radio Access Networks Xiaoxia Huang (Beijing University of Posts and VLC System Implementation with White LEDs Telecommunications, China); Yaohua Sun (Beijing Lei Zhang (Shandong University, China); University of posts and Telecommunications, Wensheng Zhang (Shandong University, China); China); Chaoliang Zhang (Beijing University of Jian Sun (ShanDong University, China) Posts and Telecommunications, China); Mugen Peng (Beijing University of posts & Telecommunications, China) WCS Reinforcement Learning based Resource STC Allocation in Cache-Enabled Small Cell Networks with Mobile Users On the Ergodic Capacity of NOMA-Based Tianmu Gao (Beijing University of Posts and Cognitive Hybrid Satellite Terrestrial Networks Telecommunications, China); Mingzhe Chen Xiaojuan Yan (Guilin University of Electronic (Beijing University of Posts and Technology, China); Xiao Hailin (Electronic Science Telecommunications, China); Hanzhou Gu (Beijing and Technology University, China); Chengxiang University of Posts and Telecommunicaitions, Wang (Heriot-Watt University, United Kingdom China); Changchuan Yin (Beijing University of (Great Britain)); Kang An (PLA University of Posts and Telecommunications, China) Science and Technology, China)
MAC Layer Design for Concurrent Transmissions An Improved DQ Access Protocol for in Millimeter Wave WLANs Cellular-based Massive M2M Communications Khalid Aldubaikhy (University of Waterloo, Anh-Tuan H. Bui (The University of Aizu, Japan); Canada); Qinghua Shen (University of Waterloo, Chuyen T. Nguyen (Hanoi University of Science IEEE/CIC ICCC 2017 and Technology, Vietnam); Truong Cong Thang Telecommunications, China); Yaowen Tan (Beijing (The University of Aizu, Japan); Anh T. Pham (The University of Posts and Telecommunications, University of Aizu, Japan) China)
SPC Poster Session-4 Two New MODE-based Algorithms for 2D DOA Time: 15:30 -16:00 am, 24 Oct. 2017 Estimation in Large Scale Antenna Array Systems Yuxiao Jiang (Chang'an University, China); Bobin WCS Yao (Chang'an University, China); Qisheng Wu Performance Analysis of NOMA for (Chang'an University, China) Multiple-Antenna Relaying Networks with Energy Harvesting Over Nakagami-$m$ Fading Efficient Feature Extraction of Cycle Spectrum Channels and Weak Communication Signal Detection Qian Wang (Xidian University, China); Jianhua Ge Shaopeng Li (Guilin University of Electronic and (Xidian University, China); Qinghai Li (Xidian Technology, China); Kun Yan (Guilin University of University, China); Qifei Bu (Xidian University, Electrical Technology, China); Hailiang Xiong (The China) School of Information Science and Engineering, Shandong University, China) The Design of Load-balance Based Routing Algorithm in Software Defined Wireless Sensor SNBD Networks Yu Wei, Wu Muqing, Liao Wenxing and Min Zhao Understanding ENodeBs Traffic Dynamics in (Beijing University of Posts and TD-LTE Network Telecommunications, China) Ziqi Cong (Beijing University of Posts and Telecommunications, China); Jin Xu (Beijing University of Posts and Telecommunications, WNM China); Yu Chen (Beijing University of Posts and Multi-Path mmWave Cooperative Telecommunications, China); Xiaofeng Tao (Beijing Communications for Delivering Multimedia University of Posts and Telecommunications, Resources China) Linghui Pan (Huazhong University of Science and Technology, China); Rong Zhou (Huazhong Personalized Location Recommendation for University of Science and Technology & School of Location-Based Social Networks Electronic Information and Communications, Qianfang Xu (Beijing University of Posts and China); Jiaqi Chen (Huazhong University of Telecommunications, China); Jiachun Wang Science and Technology, China); Ge Xiaohu (Beijing University of Posts and (Huazhong University of Science & Technology, Telecommunications, China); Xiao Bo (Beijing China); Tao Han (Huazhong University of Science University of Posts and Telecom, USA) and Technology, China)
E-commerce User Behavior Classification Based Design and Analysis of LTP-HARQ Transmission on URL Information From Telecom DPI Data Scheme in OSTBC-MIMO Systems for SINs Di Pan (Beijing University of Posts and Youjun Hu (Harbin Institute of Technology Telecommunications, China); Ke Yu (Beijing (Shenzhen) & Harbin Institute of Technology University of Posts and Telecommunications, (Shenzhen), China); Jian Jiao (Harbin Institute of Beijing, China); Xaiofei Wu (Beijing University of Technology - Shenzhen, China); Rui Zhang Posts and Telecommunications, China); Binbin (University of Sydney, Australia); Shaohua Wu Wang (Beijing University of Posts and (Harbin Institute of Technology, China); Shushi Gu IEEE/CIC ICCC 2017 (Harbin Institute of Technology-Shenzhen, China); Inverted Antenna Subset Transmission Technique Qinyu Zhang (Shenzhen Graduate School, Harbin for Secure Millimeter-Wave Wireless Institute of Technology, China) Communication Yuanquan Hong (Beijing University of Posts and An Interest-Driven Routing Algorithm in Telecommunications, China); Xiaojun Jing (Beijing Disruption-Tolerant Networking Based Social University of Posts and Telecommunications, Network China); Hui Gao (Beijing University of Posts and Peng Yuan (Harbin Institute of Technology Telecommunications, China); Sun Songlin (Beijing Shenzhen Graduate School, China); Zhihua Yang University of Posts and Telecommunications, (Harbin Institute of Technology, China); Yunhe Li China); Hai Huang (Beijing University of Posts and (Zhaoqing University, China); Qinyu Zhang Telecommunications, China); Ning Gao (Beijing (Shenzhen Graduate School, Harbin Institute of University of Posts and Telecommunications, Technology, China) China); Jianxiao Xie (Beijing University of Posts and Telecommunications, China); Bohan Li Low-latency Caching with Auction Game in (Beijing University of Posts and Vehicular Edge Computing Telecommunications, China) Siming Wang, Zehang Zhang and Rong Yu (Guangdong University of Technology, China); Yan STC Zhang (University of Oslo, Norway) Power Grid Observability Redundancy Analysis On Efficient Admission Control Utilizing Cloud under Communication Constraints Compression in Drive-thru Vehicular Networks Minglei You (Durham University, United Kingdom Xiaonan Su and Changle Li (Xidian University, (Great Britain)); Qitao Liu (Durham University, China); Tom H. Luan (School of Information United Kingdom (Great Britain)); Jing Jiang Technology, Deakin University, China); Zhifang (Durham University, United Kingdom (Great Miao (Xidian University, China) Britain)); Hongjian Sun (Durham University, United Kingdom (Great Britain))
PSC Throughput Maximization for Wireless Powered Secrecy Analysis Based on Energy Threshold for Relay Communications Simultaneous Wireless Information and Power Hongxing Xia (Xidian University, China); Yongzhao Transfer in Internet of Things Li (Xidian University, China); Hailin Zhang (Xidian Xin Hu (National Digital Switching System University, China) Engineering and Technological R&D Center, China); SPC Kaizhi Huang (National Digital Switching System Engineering & Technological R&D Center, China); WiFi-based Contactless Activity Recognition on Yajun Chen (National Digital Switching System Smartphones Engineering and Technological R&D Center, China); Zhang Yuhe (Beijing University of Posts and Yunjia Xu (National Digital Switching System Telecommunications, China); Lin Zhang (Beijing Engineering & Technological Research Center, University of Posts and Telecommunications, China); Quan Yuan (NDSC, China) China)
Game Theoretic Study on Blockchain Based Segmented CS with Measurement Allocation for Secure Edge Networks UWB Channel Estimation Dongjin Xu and Liang Xiao (Xiamen University, Jian Li (Shandong University, China); Yunrui Qin China); Limin Sun (Institute of Information (Shandong University, China); Deqiang Wang Engineering, China Academy of Science, Beijing, (Shandong University, China) China); Min Lei (BUPT, China) IEEE/CIC ICCC 2017 SOCIAL EVENTS
WELCOME RECEPTION Sunday, 22 October, 18:30 at
Guest Building Golden Olive Hall CONFERENCE BANQUET Monday, 23 October, 18:30 at
VIP Building Second floor Qianxi hall
IEEE/CIC ICCC 2017 MAPS
FROM Qingdao LiuTing International Airport Taxi : It takes about 52 minutes from LiuTing International Airport to Qingdao garden Hotel by taxi, costing about 75 RMB. Public Transport : You can also take Airport Bus 2 Line from LiuTing International Airport stop to Xiao Cun Zhuang stop. Then take bus 309 line to Zhang Hua Road stop and walk around 233 m to the hotel.
FROM Qingdao North Railway Station Taxi : It takes about 41 minutes from Qingdao North Railway Station to Qingdao garden Hotel by taxi, costing about 46 RMB. Public Transport : You can also take metro line 3 from Qingdao North Railway Station to Jiangxi Road stop. Then take Bus 222 Line from Er Zhong Fen Xiao stop to Zhang Hua road stop and walk around 190 m to
the hotel.
IEEE/CIC ICCC 2017 FROM Qingdao Railway Station
Taxi : It takes about 39 minutes from Qingdao Railway Station to Qingdao garden Hotel by taxi, costing about 31 RMB. Public Transport : You can also take metro line 3 from Qingdao Railway Station to Tai Ping Jiao Park stop. Then take Line 31 Ring Road Bus from City Government stop to Zhang Hua road stop and walk around 200 m to the hotel.
Map of Qingdao Garden Hotel
IEEE/CIC ICCC 2017 Hotels around the Conference Venue
IEEE/CIC ICCC 2017 TRAVEL
Qingdao
Qingdao is a historical and cultural city, and one of the Taoism cradles in China. Existence and multiplication of human beings appeared in Qingdao some 6,000 years ago.Qingdao was listed as a city enjoying provincial level status in the State economic plan. In 1994, it was listed as one of the 15 cities at the sub-provincial level, and is now the only city of such level in Shandong province apart from Jinan, the capital of Shandong province. Qingdao is one of the top ten vigorous economic cities in China, a city as a jewel on the coast of the Yellow Sea, a classic of the World Architecture, famous for beer , and a piece of opened-up hot-land. It once won the laurel of “most vigorous economic cities in China” by the CCTV and “Entrepreneur Satisfaction Award” thanks to so many world-famous brands and excellent economic strength. Qingdao is endowed with distinct natural conditions and humanistic environment. Qingdao was the only partner city which came up with 11 gold medals during the 2008 Beijing Olympics. Mr. Henderson, Chairman of the International Sailing Federation (ISAF), commented that Qingdao “is one of the most beautiful cities in Asia, qualified enough to host the Olympic sailing competition. Qingdao’s brands have already become phenomenal in China, and now is becoming popular in the world.
1. Qingdao seabed world Qingdao Underwater World is located at 2 Laiyang Road, Qingdao. It borders Luxun Park and No. 1 Beach, famous scenic spots in Qingdao. Underwater World covers an area of 7,000 m2 and a total of 4,000 tons of water. It is a large marine ecological tourist project jointly developed by Qingdao Aquarium and the Shangdong Luxin Investment Group with a total investment of RMB 220 million. Underwater World is composed of an inter-tidal zone, underwater tunnel and a four storey underground structure. All the exhibitions are underground. The intertidal zone is 35 m long, and the underwater tunnel is 86.2 m long and 2.5 m wide. The glass forming the arch of the tunnel is set at different angles and shapes such as 180 o, 254 o, and a 360 o cylinder, or in a shape of window. Walking through the tunnel, visitors feel as if they are at the bottom of the sea. You can see fish of different sizes and species swimming around you and sharks playing with divers. On the fourth (lowest) floor of the underground structure, there are cylinder-shaped water tanks with a height of 7.6 m displaying precious coral marine life. The entire underwater world is surrounded by rocks that seem like underwater mountains. The unique geographic location and modern exhibits integrate resources such as Qingdao Aquarium, Marine Organism Sample Hall and Freshwater Aquarium. These features and the natural beauty in the surrounding environment make Underwater World one of the most distinct marine ecological parks in China. Underwater World combines underwater tourism with popular marine science. It is the first underwater project in Shandong Province. It is a unique scenic spot on the golden coast of Qingdao.
2. Laoshan Mountain Laoshan Mountain is known as the “No.1 Mountain on the Sea.” It is situated on the coast of the Yellow Sea with a summit 1,133 m above the sea level. It stands by the sea with magnificent peaks, fantastic cliffs and clear streams and waterfalls. It has been known from ancient times as the“immortals’ abode” and “fairyland.” The chronicle book “Qi Ji” says: “The high Mount Tai is not as good as Mount Laoshan.” Qinshihuang, the first emperor of the Qin Dynasty and Emperor Wu of the Han Dynasty visited Laoshan. Emperor Xuanzeng of the Tang Dynasty assigned officials to come for IEEE/CIC ICCC 2017 elixir. Many scholars and celebrities visited here. Laoshan is also acclaimed as the“No. 2 Taoist Quanzhen Forest in the World” with 9 palaces, 8 temples and 72 nunneries. Laoshan Taoist priests are well known in history. Laoshan was affirmed by the State Council as a national key scenic area and by the Ministry of Forestry as a national forest park. There are three routes to Laoshan; the middle, southern and eastern routes. The Laoshan Scenic Area Administration Commission was founded in 1989. Its purpose is to protect, preserve and develop tourist resources. At present, the scenic area covers 446 km2, including 9 tourism areas and 5 restoration areas. The tourism areas include Jufeng (summit), Liuqing, Shangqing, Taiqing, Chessboard Stone, Yangkou, North Jiushui, Hualou and Dengying. The landscape restoration areas are located in Shazikou, Wanggezhuang, Beizhai, Xiazhuang Villages, Xifu Town and land and sea scenery spots in surrounding areas. Southern, middle and eastern routes to Laoshan were opened in the recent years. The Taiqing, Yangkou and Hualou cableways have been completed and boat touring routes recently opened. Laoshan is now a famous scenic holiday area in China.
3. Qingdao seashore scenic spot Qingdao Beach Scenic Spot is located along the southern coast of Qingdao Proper. It extends for 25 km from east to west with a width of 3 km. It integrates hills, sea and urban landscape. It provides a combination of natural landscape and tasteful urban development. It is one of the few national scenic spots located in an urban district. On the land, it includes such open spaces as Qingdao Hill, Xinhaoshan Hill, Guanxiangshan Hill, Taipingshan Hill, Baguanshan Hill, and Xiaoyushan Hill. On the seaside, there are Tuandao Bay, Huiquan Bay, Taiping Bay, Fushan Bay and islets, rocks and beaches. The individual scenic areas include Badaguan, Badaxia, Taipingshan Hill and Taipingjiao Cape. The individual spots include; Zhanqiao Pier, Luxun Park, Mini Qingdao, Xiaoyushan Hill, Flower Garden, Huiquan Square, May Fourth Movement Square, Music Square, Yan ’erdao Park, No. 1, No. 2, No. 3 and No. 6 Bathing Beaches, seaside pedestrian walkways and sightseeing boulevards-Donghai Road and Hong Kong Road.
4. Zhanshan Temple Zhanshan Buddhist Temple is situated at the eastern foot of Taiping Hill, and is one of the famous Buddhist temples built in modern times in China. It is a huge courtyard with five rows of halls and houses surrounded by hills on three sides and facing the sea in the south. It is located in a beautiful place with cool winds from the sea. It is covered by green trees in summer and golden leaves in autumn. As the famous Chinese writer Yu Dafu put it, “It is a corner in Zhanshan Hill with summer as cool as autumn”. The Qingdao Municipal government listed it as a key historic site in 1982. Built on the hill slope, the temple has four rows of halls and houses from the main gate to the Depository of Buddhist Scriptures. All the buildings are constructed by stone and wood in a Ming Dynasty style with exterior columns. The temple covers an area of 13.33 hectares, and has three courtyards (east, middle and west). There are three halls in the middle courtyard, i.e., Hall of Deities, Hall of Sakyamuni, Hall of Three Saints, and a depository of Buddhist Scriptures. Behind the Hall of Three Saints, there is a two-storey depository for Buddhist Scriptures. The building is strong, fire-proof and in a unique style. It keeps 7,240 volumes of IEEE/CIC ICCC 2017 Buddhist Scriptures of the Qianlong Period in the Qing Dynasty, and 1,675 volumes of Buddhist books. It is one of the largest collections of ancient Buddhist volumes in China. There is also the Sequel to Buddhist Scriptures in 151 photocopied volumes published in Hong Kong.
5. Zhanqiao Pier Zhanqiao Pier is the symbol of Qingdao. It was called Qianhai Pier, Nanhai Pier and Big Dock. Located in the Qingdao Bay, it is the extension of Zhongshan Road, the busiest commercial street in Qingdao. It is acclaimed as “a long rainbow on the sea”. It was initially built in 1892, and was the first dock in Qingdao. It was rebuilt in 1931 and renovated in 1985. It is now 440 meters long and 8 meters wide. There is a semicircle breakwater at the southern end, and within the breakwater, there is eight-cornered pavilion with golden roof and red wall. This is the famous “Huilange” (Wave Pavilion). Zhanqiao Pier looks like a dragon on the sea. Walking on it towards the southern end, you feel as if you are entering the sea. Standing by the pavilion, you can see the waves coming with great force and splashes on the breakwater, with drops of water flying like pearls. Coming into the pavilion, and climbing to the top floor through the spiral stairs, you can see the sea on all sides. At this time, you will be convinced that Huilange is indeed one of the ten major scenes in Qingdao. In Autumn, when the tide rises, the scene at the west of the pavilion is the best, with the 10 meter waves splashing on the breakwater with great sounds. Simply splendid! When the tide ebbs, there are lots of people on the intertidal zone, digging clams. In the recent years, people organized “retain the seagull” campaigns. At the junction of autumn and winter and during windless days, you can see thousands of seagulls flying over Qingdao Bay, forming a picturesque panorama with the sea, the blue sky, the pavilion and the people. The north coast of Zhanqiao is now a park called Zhanqiao Park. There are pine trees, lawns, and stone benches. In the night, the lamps in the streets and Zhanqiao are like beautiful flowers, and the light from the lighthouse on Mini Qingdao is reflected by the sea water, giving a fantastic atmosphere to the visitors. Zhanqiao Pier is also a landmark and famous tourist spot in Qingdao.
6. Qingdao International Beer Festival Qingdao International Festival, the largest beer festival in Asia was firs held in 1991. The annual festival opens on the second weekend of August and lasts for 16 days. Activities are held during the festival, such as the opening ceremony, presentation of world famous beer brand, beer tasting and drinking, artistic parade, recreational and sports activities, leisure, tourism, trade exhibition, and closing ceremony. During the festival, the main avenues and the alleys in Qingdao are decorated elaborately, and the whole city is a visual and aural carnival. The 33-hectare International Beer City is filled with bouquet and passion.
IEEE/CIC ICCC 2017
IEEE/CIC ICCC 2017