同济大学嵌入式系统与服务计算教育部重点实验室

[存为首页] [加入收藏]  

欢迎访问同济大学嵌入式系统与服务计算教育部重点实验室

 公元2017年12月13日[星期三]

总访问量:296601    

■首 页 ■实验室概况 ■科研平台 ■研究方向 ■科研队伍 ■科研项目 ■科研成果 ■开放课题 ■人才培养 ■文件下载
当前位置:主页-学术活动-“智信讲坛”(第八十)期学术报告

“智信讲坛”(第八十)期学术报告

浏览次数:357

【保护视力背景色: 杏仁黄 秋叶褐 胭脂红 芥末绿 天蓝 雪青 灰 银河白(默认色)】 【字色: 绿 粉红 深蓝】 【字体:8 7 6 5 4 3 2 1


  题目: On Energy-Harvesting Relay Networks: Full-Duplex and Relay Selection
  
  报告人: 杨柳青 教授
  
  时间:12月12日(周一),上午9:00-10:00
  
  地点:电信楼403
  
  邀请人: 刘庆文 教授
  
  报告人简介:
  
  Dr. Liuqing Yang received her Ph.D. degree in Electrical and Computer Engineering from the University of Minnesota, Minneapolis, in 2004. She is presently a Professor with Colorado State University. Her general interests are in signal processing with applications to communications, networking and power systems – subjects on which she has published more than 250 journal and conference papers, 4 book chapters and 2 books. Dr. Yang became in IEEE Fellow in 2014. She was the recipient of the ONR Young Investigator Program (YIP) award in 2007, and the NSF Faculty Early Career Development (CAREER) award in 2009 the Best Dissertation Award in the Physical Sciences & Engineering from the University of Minnesota in 2004, the Best Paper Award at the IEEE ICUWB’06, ICCC’13, ITSC’14, Globecom’14, ICC’16, and WCSP’16. She has served as an associate editor for IEEE Transactions on Communications, IEEE Transactions on Wireless Communications, IEEE Transactions on Intelligent Transportation Systems, IEEE Intelligent Systems, and PHYCOM: Physical Communication, and as program chair, track/symposium or TPC chair for many conferences.
  
  
  
  内容提要:
  
  Energy harvesting (EH) is regarded as a promising technology to significantly extend the lifetime of battery-powered devices. Simultaneous wireless information and power transfer (SWIPT) is proposed to harvest part of the energy carried by the wireless communication signals and store it for future use. Currently, SWIPT has been successfully applied to energy-constrained relays that are mainly or exclusively powered by the energy harvested from the received signals. These relays are known as EH relays, which attract significant attention in both the academia and the industry. In this talk, we will first introduce the characteristics and performance of half-duplex and full-duplex EH relay networks. Then, we will discuss the power-splitting (PS) factor optimization in PS-based EH relay networks and present the impact of the residual self-interference at full-duplex EH relays. Furthermore, we will focus on the relay selection (RS) problem in EH relay networks. Both single relay selection (SRS) and general relay selection (GRS) without the limit on the number of cooperating relays are investigated and the corresponding RS methods are proposed. We will show that our proposed heuristic GRS methods outperform the SRS methods and achieve very similar performance compared with the optimal RS method achieved by exhaustive search but with dramatically reduced complexity.
  
  欢迎各位老师同学踊跃参加!
 

发布日期:2016-12-09

本篇已是该组第一篇   

本篇已是该组最后一篇