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Stéphane Lafortune | Contact Information | Career | Research | Publications | Related Links

Education

École Polytechnique de Montréal

B.S. Electrical Engineering 1980

McGill University

M.S. Electrical Engineering 1982

University of California at Berkeley

Ph.D. Electrical Engineering 1986


Professional Career

University of Michigan, Ann Arbor

Professor in the Department of Electrical Engineering and Computer Science since 1986

Visiting Postions

Visiting Professor at Northwestern University (2010-2011), the University of Cagliari (2007 and 2011), the University of Bologna (2004), and Ecole Polytechnique de Montréal (1993).


Elected Fellow of the IEEE (1999)

For "Contributions to the theory of discrete event systems"


Axelby Outstanding Paper Award from the IEEE Control Systems Society

1994 - Limited Lookahead Policies in Supervisory Control of Discrete Event Systems
Co-author(s): Sheng-Luen Chung, Feng Lin
2001 - Decentralized Supervisor Control with Communicating Controllers
Co-author: George Barrett


Editor-in-Chief

Journal of Discrete Event Dynamic Systems: Theory and Applications (effective 1/1/2015)


Co-author to the book "Introduction to Discrete Event Systems"


Courses Recently Taught

EECS 216: Introduction to Signal and Systems
Prerequisistes: EECS 215; Preceded or accompanied by MATH 216
Course Description: Theory and practice of signals and systems engineering in continuous and discrete time. Continuous-time linear time-invariant systems, impulse response, convolution. Fourier series, Fourier transforms, spectrum, frequency response and filtering. Sampling leading to basic digital signal processing using the discrete-time Fourier and the discrete Fourier transform. Laplace transforms, transfer functions, poles and zeros, stability. Applications of Laplace transform theory to RLC circuit analysis. Introduction to communications, control, and signal processing. Weekly recitations and hardware/Matlab software laboratories.
EECS 498: Special Topics: Introduction to Discrete-Event and Hybrid Systems
Prerequisites: Senior or Graduate standing
Course Description: This course was offered in Fall 2007 and Winter 2010.
EECS 566: Discrete Event Systems
Prerequisites: Graduate standing or permission of instructor
Course Description: Modeling, analysis, and control of discrete event systems; untimed (logical) and timed models considered. Defining characteristics of discrete event systems. Logical models: languages, automata, and Petri nets. Analysis: safety, nonblocking, state estimation, and event diagnosis. Supervisory control: controllability, nonblocking and nonconflicting languages, observability, and coobservability. Control of Petri nets using place invariants. Timed models: timed automata and timed Petri nets; timed automata with guards. Brief introduction to stochastic models.
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