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关于Prof. Zhiguo Ding学术报告的通知

编辑:xdx 日期:2017-08-15 09:09 访问次数:1422

  目:Non-Orthogonal Multiple Access for 5G Networks: State of the Art, Research Challenges and Future Trends

  间:2017816日上午10:00-11:30

  点:信电楼215

报告人:Prof.  Zhiguo Ding, Lancaster University, UK

 

专家介绍:Zhiguo Ding received his B.Eng in Electrical Engineering from the Beijing University of Posts and Telecommunications in 2000, and the Ph.D degree in Electrical Engineering from Imperial College London in 2005. From Jul. 2005 to Aug. 2014, he was working in Queen’s University Belfast, Imperial College and Newcastle University. Since Sept. 2014, he has been with Lancaster University as a Chair Professor in Signal Processing. From Sept. 2012 to Sept. 2016, he has also been an academic visitor in Princeton University.

He is serving as an Editor for IEEE Trans. Commun., IEEE Trans. Vehicular Tech., IEEE Wireless Commun. Letters, IEEE Communi. Letters, and Journal of Wireless Commun. and Mobile Computing. He is also a leading Guest Editor for IEEE JSAC Special Issue on NOMA. He was the TPC Co-Chair for ICWMMN2015, Symposium Chair for ICNC 2016, and Co-Chair of WCNC-2013 Workshop on New Advances for Physical Layer Network Coding. He received the best paper award in IET Comm. Conf. on Wireless, Mobile and Computing, 2009 and the 2015 International Conference on Wireless Communications and Signal Processing (WCSP 2015), IEEE Communication Letter Exemplary Reviewer 2012, and the EU Marie Curie Fellowship 2012-2014.

 

报告内容:Non-orthogonal multiple access (NOMA) is an essential enabling technology for the fifth generation (5G) wireless networks to meet the heterogeneous demands on low latency, high reliability, massive connectivity, improved fairness, and high throughput. The key idea behind NOMA is to serve multiple users in the same resource block, such as a time slot, subcarrier, or spreading code. The NOMA principle is a general framework, where several recently proposed 5G multiple access techniques can be viewed as special cases. Recent demonstrations by industry show that the use of NOMA can significantly improve the spectral efficiency of mobile networks. Because of its superior performance, NOMA has been also recently proposed for downlink transmission in 3rd generation partnership project long-term evolution (3GPP-LTE) systems, where the considered technique was termed multiuser superposition transmission (MUST). In addition, NOMA has been included into the next generation digital TV standard, e.g. ATSC (Advanced Television Systems Committee) 3.0, where it was termed Layered Division Multiplexing (LDM). This talk is to provide an overview of the latest research results and innovations in NOMA technologies as well as their applications. Future research challenges regarding NOMA in 5G and beyond are also presented.