报告人: Dr.-Ing. Xubin Song, Principal Engineer, Eaton Corp, USA
主持人: 周苏教授
报告地点:新能源汽车工程中心212
报告题目:
Topic 1: Engineering Examples: Energy-Efficient Controls for Reducing Vehicular Vibrations
(9月28日下午13:30-15:00)
Topic 2: Eaton Hybrid Systems & Electrification for Clean Energy Vehicles
(9月28日下午15:00-16:00)
(报告语言:中文)
报告人简介:
In 1999 Dr. Song received his PhD from Virginia Tech and MSME from North Carolina A&T State University in 1996 in USA, with B.S. from Nanjing University of Aeronautics & Astronautics in 1986 and M.S. from China Academy of Launch Vehicle in 1988 in China. With the background of aerospace industry in China and vehicle industry in USA, his research interest focuses on nonlinear and non-smooth dynamics and control and energy efficient powertrain systems for ground vehicles, holding 6 USA and 1 European patents and publishing more than 50 papers.
Professional Career
o Engineer (1988-1994), China Academy of Launch Vehicle in Beijing, China, inertial navigation systems
o Simulation & Control Engineer(1999-2000), MSX Inc, USA, iBOT human transporter for Johnson & Johnson,
o Technical Professional - Controls (2000-2004), Visteon Corp, USA, chassis system controls for pass-cars
o Principal Engineer (2004-present), Eaton Corp, USA, advanced powertrain controls for commercial vehicles.
Active senior member of IEEE, ASME and SAE, holding membership of several technical committees, Associate editor of the ASME Journal of Dynamic Systems, Measurement and Control,and Founding editor-in-chief of International Journal of Powertrains under the Inderscience publisher.
报告的具体内容:
Presentation Titles:
1. Engineering Examples: Energy-Efficient Controls for Reducing Vehicular Vibrations
Controls become necessity for modern vehicles. Exploring energy-saving control
solutions for vehicle mass production truly poses a great challenge for engineers.
Two major perspectives are performance and energy consumption for energy
efficiency vehicles. Based on a long-decade industry experience, this talk focuses on
developing the energy efficient control technologies to meet the criteria of system
robustness and performance consistency for the ground vehicle applications. The
design examples involve developing superior vibration-mitigation control
technologies from suspension to driveline systems for ground vehicles, for example,
developing adaptation of suspension skyhook controls with MR dampers, applying
semi-active clutch control to significantly reduce driveline torsional vibrations for
commercial vehicles, and using energy harvesting motor control to smooth the
engine shutdown for HEV. Overall this talk elaborate engineering development of
practical controls to deal with ubiquitous vehicular vibration issues from the vehicle
design perspective.
2. Eaton Hybrid Systems & Electrification for Clean Energy Vehicles
Since the world is becoming more serious concern about global warming, it is our
responsibility as a citizen on the earth to save energy and preserve the living
environment while modernizing the world and our life. Clean energy and energyefficient
vehicle technology are becoming the critical and essential part of green
transportation systems. How can we use the least energy consumption to deliver the
best vehicle performance of such as fuel economy, comfort and safety? This is a
very challenging problem for the vehicle industry –a multi-dimensional engineering
issue needs an interdisciplinary engineering solution. This presentation focuses on
some Eaton electrification technologies and the latest efforts specifically for the
Chinese EV market. Not only can these technologies significantly improve the energy
utilization for the commercial vehicles, but also promote integration capability and
performance of the EV systems to the next level. Beyond these development
showcases, the open-end discussion will talk about both the near-future and longterm
industrial efforts on the energy efficient technology for vehicle applications.
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