Title :
Design of a live and maximally permissive Petri net controller using the theory of regions
Author :
Ghaffari, Asma ; Rezg, Nidhal ; Xie, Xiaolan
Author_Institution :
INRIA Lorraine/MACSI Team, Metz, France
fDate :
2/1/2003 12:00:00 AM
Abstract :
This paper addresses the forbidden state problem of Petri nets (PN) with liveness requirement and uncontrollable transitions. The proposed approach computes a maximally permissive PN controller, whenever such a controller exists. The first step, based on a Ramadge-Wonham-like reasoning (1989), determines the legal and live maximal behavior the controlled PN should have. In the second step, the theory of regions is used to design control places to add to the original model to realize the desired behavior. Furthermore, necessary and sufficient conditions for the existence of control places realizing the maximum permissive control are given. A parameterized manufacturing application of significant state space is used to show the efficiency of the proposed approach.
Keywords :
Petri nets; control system synthesis; controllability; discrete event systems; state-space methods; DES; PN; Ramadge-Wonham-like reasoning; discrete event systems; forbidden state problem; live maximally-permissive Petri net controller design; liveness requirement; necessary and sufficient conditions; region theory; uncontrollable transitions; Automata; Automatic control; Computer aided manufacturing; Control system synthesis; Control systems; Discrete event systems; Manufacturing automation; Petri nets; Robotics and automation; Supervisory control;
Journal_Title :
Robotics and Automation, IEEE Transactions on
DOI :
10.1109/TRA.2002.807555
