为推动我学院教学与科研水平的提高与发展,bat365中文官方网站暨新型网络与检测控制国家地方联合工程实验室将在2015年11月11日-16日邀请新加坡国立大学电子与计算机工程系教授余长源博士来我院进行学术交流活动,具体安排如下。
一、教师报告会
11月11日(周三下午1:40):教师报告会
地点:工1-508
参加人员:全体教师(上课教师除外)
二、学生报告会
时间:11月12日(周四下午3:30~5:00),地点:教3-115教室
参加人员:bat365中文官方网站学生
三、教师座谈会
时间:13日(周五)上午10点, 地点:工1-306。
参加人员:学术委员会成员、博士及副高职称以上人员。
四、学科活动
11月14~15日,与物联网、软件工程学科学术交流。
2015年11月3日
余长源教授介绍
余长源于1997年清华大学应用物理专业毕业,1999年获美国迈阿密大学电子与计算机工程硕士,2005年获美国南加州大学电子工程博士学位。2005年12月起在新加坡国立大学电子与计算机工程系任教,并兼任新加坡科技研究局资讯通信研究院高级研究员,新加坡国立大学苏州研究院研究员。其创立的新加坡国立大学光电系统研究小组先后有5名博士后和15名博士生(已毕业7名)。研究领域主要包括高速光纤通讯与传感网络系统。已完成10多个美国与新加坡科研项目(经费过四百万美元),发表论文240多篇(含39篇邀请报告,包括美国OFC2012),另外编写6本学术专著,拥有1项美国专利。曾任IEEE国际光电学会新加坡分会主席(2010年),50多个国际学术会议的组委会/技术委员会成员(包括美国OFC2014-2016)。
Biography of Changyuan Yu
Dr. Changyuan Yu joined Dept. of Electrical and Computer Engineering, National Univ. of Singapore (NUS) in 12/2005. He has founded and led the Photonic System Research Group in NUS since then. He has supervised 5 postdoc research fellows and 15 PhD students (7 graduated) in his group. He is also a joint senior scientist with A*STAR Institute for Infocomm Research (I2R), and an investigator of National University of Singapore Suzhou Research Institute (NUSRI). He received B.S. in Applied Physics from Tsinghua Univ., China in 1997, M.S. in Electrical and Computer Engineering from the Univ. of Miami, USA in 1999, and Ph.D. in Electrical Engineering from the Univ. of Southern California, USA in 2005. His research focuses on optical fiber communication and sensor systems. Dr. Yu has authored 1 US patent, 6 books and over 240 research papers on the peer reviewed journals and the prestigious conferences (39 invited, including OFC2012 in USA). He has served in technical program committee or organizing committee for 50+ international conferences (including OFC2014-2016).
Title:Physical Layer of Fiber Optical Communication and Sensor Systems
Abstract:
Chromatic dispersion (CD), polarization mode dispersion (PMD), nonlinear effects, and loss are important issues on the physical layer of fiber optical communication and sensor systems. It is essential that these degrading physical effects be well managed in the optical fiber systems. One the other hand, they can also be beneficial and have applications on optical signal processing and sensing. This presentation gives a brief review of the recent research of my group at National University of Singapore in this area, including: optical performance monitoring; digital carrier recovery in coherent optical communication system based on decision-aided maximum likelihood (DA ML) algorithm; and non-invasive smart health monitoring system based on optical fiber sensor.