Jessy Grizzle

Elmer G. Gilbert Distinguished University Professor
Jerry W. and Carol L. Levin Professor of Engineering

Jessy Grizzle

Elmer G. Gilbert Distinguished University Professor
Jerry W. and Carol L. Levin Professor of Engineering

Jessy Grizzle

Jessy W. Grizzle

Elmer G. Gilbert Distinguished University Professor
Jerry W. and Carol L. Levin Professor of Engineering
Director of Robotics

University of Michigan
EECS Department
Electrical & Computer Engineering
1301 Beal Ave. (3215 EECS Bldg.)
Ann Arbor, MI 48109
Tel: (734) 763-3598
Fax: (734) 763-8041
Email:


Jessy W. Grizzle is a (full) Professor in the Control Systems Laboratory of the Electrical Engineering and Computer Science Department within the College of Engineering at The University of Michigan in Ann ArborMichigan. He is the Director of Michigan Robotics and a member of the ECE Systems Laboratory and the  Robotics and Computer Vision Area. He has a courtesy appointment in Mechancial Engineering.

The activity at Michigan in control systems is very interdisciplinary and moves easily across traditional departmental boundaries. We maintain a very active College of Engineering Control Seminar SeriesAdditional EECS Control Lab information is available here. For more fun stuff, see the EECS YouTube Home Page.



Our newest robot, Cassie (Go) Blue! MARLO and MABEL videos are available on YouTube: Michigan Robotics: Dynamic Legged Locomotion Channel. Robots everywhere in our College of Engineering Michigan Robotics Rocks!This is Michigan Engineering 2012. Robots are featured widely in UofM media: Michigan Halftime Video Victors for Michigan Campaign video short (MABEL is at 0:16) and long version (MABEL is at 2:01). MABEL goes to the Field Museum in Chicago.


Book: Feedback Control of Dynamic Bipedal Robot Locomotion co-authored with Eric R. Westervelt, Christine Chevallereau, Jun-Ho Choi, and Benjamin Morris, published by Taylor & Francis in June, 2007, is now available for free  download. It treats virtual constraints and hybrid zero dynamics for the creation of asymptotically stable periodic motions in hybrid systems. I would also suggest the following papers that significantly extend these methods: Machine Learning, Robust Optimization, and Bilinear Matrix Inequalities (BMI)

My primary research area used to be the theory of nonlinear control systems. While I still have strong interest in this subject and feel a sense of community with that body of researchers, my research activities have significantly broadened over time. My work now covers the control of bipedal robots and correct-by-construction control methods for Adavanced Driver Assist Systems. From 1986 to 2010, I worked on various apsects of modeling and control of automotive powertrain systems and control of HEVs. From 1991-2001, I applied systems and control techniques to improve the operation of plasma-based microelectronics manufacturing equipment.