The ACM SIGCOMM China Chapter, approved by ACM China Council and ACM SIGCOMM on May 13th, 2016, is the official representative of ACM SIGCOMM in China. The ACM SIGCOMM China Chapter is a community for Chinese researchers who are interested in network research, network standards, network history, and the educational aspects of networking. ACM SIGCOMM China Chapter aims at establishing a connection between SIGCOMM and Chinese researchers, enhancing the research in the field of data communication around China, and bringing the high-quality activities of SIGCOMM to Chinese researchers.
The Technical Symposium of the SIGCOMM China Chapter will be held as part of the ACM Turing 50th Celebration Conference - China (ACM TURC 2017). Sponsored by ACM SIGCOMM China Chapter, this symposium solicits original and high-quality papers describing significant and innovative research contributions to the field of computer and data communication networks.
Previous SIGCOMM China Call for Papers.
2017-05-13 (Day 1): SIGCOMM China Symposium
Keynote Speech 1 |
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14:00-14:50 |
Srinivasan Keshav, University of Waterloo, Chair of ACM SIGCOMM |
Industry Forum (XiFLYTEK, HUAWEI, Tencent) |
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14:50-15:20 |
Yu Hu, XiFLYTEK |
15:20-15:50 |
Liang Zhang, HUAWEI |
15:50-16:20 |
Ming Huang, Tencent |
Tea Break (16:20-16:30 ) |
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Research Track Session 1: Wireless and Mobility |
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16:30-16:50 |
Ningjia Fu, Jianzhong Zhang, Wenping Yu and Changhai Wang (Nankai University) |
16:50-17:10 |
Xiaolei Zhou, Deke Guo and Xiaoqiang Teng (National University of Defense Technology) |
17:10-17:30 |
Yubo Yan, Panlong Yang and Xiangyang Li (University of Science and Technology of China) |
17:30-17:50 |
Jiandian Zeng (Huaqiao University), Tian Wang (Huaqiao University) and Md Zakirul Alam Bhuiyan (Fordham University) |
2017-05-14 (Day 2): SIGCOMM China Symposium
Keynote Speech 2 |
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14:00-14:50 |
Kyle Jamieson, Princeton University |
Research Track Session 2: Security and Robustness |
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14:50-15:10 |
Yi Wang (HUAWEI), Zhuyun Qi (Peking University), Kai Lei (Peking University), Bin Liu (Tsinghua University) and Chen Tian (Nanjing University) |
15:10-15:30 |
Xiaohua Tian, Jiaqi Liu, Wei Liu (Shanghai Jiao Tong University), Yu Cheng (Illinois Institute of Technology), Lijun Ou, Zilong Zhao (Shanghai Engineering Research Center for Broadband Networks & Applications) |
15:30-15:50 |
Ke Xu, Lei Xu (Tsinghua University), Meng Shen (Beijing Institute of Technology), Kui Ren, Jingyuan Fan, Chaowen Guan (State University of New York at Buffalo), Wenlong Chen (Capital Normal University) |
15:50-16:10 |
Huikang Li, Yi Gao, Wei Dong, Chun Chen (Zhejiang University) |
Outstanding Works Exhibition of National Collegiate Competition on Cloud Computing / Tea Break (16:10-16:30 ) |
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Research Track Session 3: Network Architectures and Systems |
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16:30-16:50 |
Xiaoshan Yu (City University of Hong Kong, Xidian University), Hong Xu (City University of Hong Kong), Huaxi Gu (Xidian University) |
16:50-17:10 |
Cunlu Li, Dezun Dong, Xiangke Liao (National University of Defense Technology) |
17:10-17:30 |
Liang Liu, Bo Chen, Huadong Ma, Wenbo Yang (Beijing University of Posts and Telecommunications) |
17:30-17:50 |
Shuzhuang Zhang, Hao Luo, Zhigang Wu (Beijing University of Posts and Telecommunications), Yi Wang (HUAWEI) |
Keynote 1: Srinivasan Keshav (University of Waterloo) Abstract: The architectural elements of the Internet that led to its great success are now, paradoxically, the same elements that are the source of many of its severest problems. For example, the use of autonomous systems to geographically decouple topology and governance allowed rapid growth and scaling, but has made the network unmanageable, and unable to provide end-to-end quality of service. In this talk, I will examine this and other key design elements of Internet architecture, show how they’ve contributed to its success, and how they now severely constrain it. I will then use this framework to identify some key challenges that we need to address in the next decades of Internet research. Bio: Professor S. Keshav received a B.Tech in Computer Science and Engineering from IIT Delhi in 1986 and a Ph.D. in Computer Science from the University of California, Berkeley in 1991. He was subsequently a researcher at AT&T Bell Laboratories and, from 1996 to 1999, an Associate Professor at Cornell University. In 1999 he left academia to co-found Ensim Corporation and GreenBorder Technologies Inc. He was an Associate Professor at the University of Waterloo from 2003 to 2008 and has been a Professor since, holding a Canada Research Chair (2004-14) and the Cisco Chair in Smart Grid (2012-17). An awardee of the Director's Gold Medal from IIT Delhi, the Sakrison Prize from UC Berkeley, two Test of Time awards from ACM SIGCOMM, and Best Paper awards at both ACM SIGCOMM and ACM MOBICOM, he is the co-director of the Information Systems and Science for Energy Laboratory, author of two graduate textbooks on computer networking, an Alfred P. Sloan Fellow, an ACM Fellow, and currently Chair of ACM SIGCOMM. |
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Keynote 2: Kyle Jamieson (Princeton University) Abstract: Phased array signal processing has long been employed outdoors in radar, underwater in sonar, and underground in seismic monitoring. Today, it has the potential to revolutionize wireless networks by giving us the ability to track the increasing numbers of mobile devices indoors, and meet their commensurately increasing bandwidth requirements. But to make the shift to indoor wireless networks, it must cope with strong multipath radio reflections, packetized data transmissions, and limited amounts of available computational capacity. In this talk I will describe two relevant systems through the lens of system-building and experimentation. First, I will describe an indoor location system that was the first of its kind to use solely the existing Wi-Fi infrastructure to track Wi-Fi mobiles in real-time, to a 23-centimeter accuracy. Next, I will present a multi-antenna wireless access point design that leverages novel search algorithms and geometric reasoning to increase wireless throughput, the first of its kind able to scale to high data rates with computational demands that are practically realizable in current ASIC hardware. Finally, I will conclude with a description of other systems that have built upon this work, coupled with some thoughts on its future trajectory. Bio: Kyle Jamieson is an Assistant Professor in the Department of Computer Science at Princeton University and Honorary Reader at University College London. His research focuses on building mobile and wireless systems for sensing, localization, and communication that cut across the boundaries of digital communications and networking. He received the B.S., M.Eng., and Ph.D. (2008) degrees in Computer Science from the Massachusetts Institute of Technology. He then received a Starting Investigator fellowship from the European Research Council in 2011, Best Paper awards at USENIX 2013 and CoNEXT 2014, and a Google Faculty Research Award in 2015. |
General Chairs:
Junzhou Luo (Southeast University)
Guihai Chen (Shanghai Jiaotong University)
Xiaohua Jia (City University of HongKong)
Ke Xu (Tsinghua University)
TPC Chairs:
John Lui (The Chinese University of Hong Kong)
Sheng Zhong (Nanjing University)
Kai Chen (Hong Kong University of Science and Technology)
Publicity Chairs:
Fangming Liu (Huazhong University of Science and Technology)
Liang Liu (Beijing University of Posts and Telecommunications)
Panong Yang (University of Science and Technology of China)
Activities Chairs:
Fang Dong (Southeast University)
Zhenhua Li (Tsinghua University)
TPC members:
Kaigui Bian (Peking University)
Jiannong Cao (The Hong Kong Polytechnic University)
Kai Chen (Hong Kong University of Science and Technology)
Ming Chen (PLA University of Science and Technology)
Zhong Chen (Peking University)
Siyao Cheng (Harbin Institute of Technology)
Dezun Dong (National University of Defense Technology)
Fang Dong (Southeast University)
Ling Gao (Northwest University)
Deke Guo (National University of Defense Technology)
Kehua Guo (Central South University)
Songtao Guo (Chongqing University)
Chengchen Hu (Xi'an Jiaotong University)
Chunming Hu (Beihang University)
Weijia Jia (Shanghai Jiao Tong University)
Hongbo Jiang (Huazhong University of Science and Technology)
Dan Li (Tsinghua University)
Feng Li (Shandong University)
Keqiu Li (Tianjin University)
Xiangyang Li (University of Science and Technology of China)
Yongkun Li (University of Science and Technology of China)
Zhenhua Li (Tsinghua University)
Zhen Lin (Southeast University)
Fangming Liu (Huazhong University of Science and Technology)
Liang Liu (Beijing University of Posts and Telecommunications)
John Lui (The Chinese University of HongKong)
Juan Luo (Hunan University)
Huadong Ma (Beijing University of Posts and Telecommunications)
Jianfeng Ma (Xidian University)
Zhiguang Qin (University of Electronic Science and Technology of China)
Subin Shen (Nanjing University of Posts and Telecommunications)
Jinshu Su (National University of Defense Technology)
Chen Tian (Nanjing University)
Junfeng Wang (Xichuan University)
Xin Wang (Fudan University)
Xinbing Wang (Shanghai Jiao Tong University)
Xingwei Wang (Northeast University)
Chunming Wu (Zhejiang University)
Di Wu (Zhongshan University)
Libing Wu (Wuhan University)
Fu Xiao (Nanjing University of Posts and Telecommunications)
Gaogang Xie (Institute of Computing Technology, Chinese Academy of Sciences)
Yan Xiong (University of Science and Technology of China)
Henry Xu (City University of Hong Kong)
Jingdong Xu (Nankai University)
Yuedong Xu (Fudan University)
Panlong Yang (University of Science and Technology of China)
Heying Zhang (National University of Defense Technology)
Sheng Zhong (Nanjing University)
Yuezhi Zhou (Tsinghua University)
Liang Zhou (Nanjing University of Posts and Telecommunications)
Shijie Zhou (University of Electronic Science and Technology of China)
Qingguo Zhou (Lanzhou University)
Yihua Zhu (Zhejiang University of Technology)