Title :
Deadlock analysis of Petri nets using siphons and mathematical programming
Author :
Chu, Feng ; Xie, Xiao-Lan
Author_Institution :
Inst. Nat. de Recherche en Inf. et Autom., Metz, France
fDate :
12/1/1997 12:00:00 AM
Abstract :
This paper exploits the potential of siphons for the analysis of Petri nets, It generalizes the well-known Commoner condition and is based on the notion of potential deadlocks which are siphons that eventually become empty. A linear programming based sufficient condition under which a siphon is not a potential deadlock is obtained. Based on the new sufficient condition, a mathematical programming approach and a mixed-integer programming approach are proposed for checking general Petri nets and structurally bounded Petri nets respectively without explicitly generating siphons. Stronger results are obtained for asymmetric choice nets and augmented marked graphs. In particular, we show that an asymmetric choice net is live iff it is potential-deadlock-free and an augmented marked graph is live and reversible iff it is potential-deadlock-free
Keywords :
Petri nets; integer programming; linear programming; manufacture; Commoner condition; Petri nets; asymmetric choice nets; augmented marked graphs; deadlock analysis; linear programming based sufficient condition; mathematical programming; mixed-integer programming approach; potential-deadlock-free net; siphons; Discrete event systems; Equations; Linear programming; Manufacturing systems; Mathematical model; Mathematical programming; Petri nets; Power system modeling; Sufficient conditions; System recovery;
Journal_Title :
Robotics and Automation, IEEE Transactions on
