Electrified and Connected Vehicles: A New Era for Controls
Jing Sun
University of Michigan, USA
Friday, May 30, 2014,10:00-11:00,南一楼中311会议室
邀请方:“多谱信息处理技术”国家级重点实验室
Abstract
Transportation systems are undergoing extensive transformations with the introduction of new technologies and infrastructure upgrades. Vehicle electrification has been a clear technology trend, as manifested by the sustained increase in market penetration of hybrid and electric automobiles and the emergence of all-electric ships and electrified airplanes. Vehicle connectivity is changing the transportation technology landscape through vehicle to vehicle (V2V) and vehicle to grid (V2G) communications and interactions.These exciting technology innovations are being enabled by control systems, and they impose new challenges and open up more opportunities for our research community. In this talk, we will discuss the technology challenges of electrified and connected vehicles and their implications on control and system optimization. Through several examples that involve hybrid electric vehicle and all-electric ship technology development, we will demonstrate the important roles of control technologies in the era of electrified and connected vehicles, and highlight the demands for more effective modeling and design methodologies and tools.
Biography
Jing Sun received her Ph. D degree from the University of Southern California in 1989,and her B. S. and M. S. degrees from University of Science and Technology of China in 1982 and 1984 respectively. From 1989-1993, she was an assistant professor in Electrical and Computer Engineering Department, Wayne State University. She joined Ford Research Laboratory in 1993 where she worked in the Powertrain Control Systems Department. After spending almost 10 years in industry, she came back to academia and joined the faculty of the College of Engineering at the University of Michigan in 2003, where she is now a professor in the Department of Naval Architecture and Marine Engineering and the Department of Electrical Engineering and Computer Science. Her research interests include system and control theory and its applications to marine and automotive propulsion systems. She holds 37 US patents, published over 200 technical papers on archived journals and conference proceedings, and has co-authored a textbook on Robust Adaptive Control. She is an IEEE Fellow and one of the three recipients of the 2003 IEEE Control System Technology Award.
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