论文信息 - Deadlock avoidance in FMS based on structural theory of Petri nets

Deadlock avoidance in FMS based on structural theory of Petri nets

This paper presents an efficient deadlock avoidance method for FMS combining prevention and avoidance approaches using structure theory of Petri nets. The method proposed is achieved in two phases. First, from a Petri net model of a given FMS, the authors built an augmented net by adding a "local control place" to each not controlled minimal siphon of the initial net. In spite of the fact that the augmented net is deadlock-free for some classes of FMS, the occurrence of deadlock remains possible. That's why this phase is called "near-prevention" phase. The authors show that the augmented net reaches necessarily an unsafe marking before the occurrence of a deadlock. An unsafe marking is a marking where at least a "local control place" is token-free. So, the second phase of the proposed method consists to falsify as long as possible this necessary condition (unsafe markings) of occurrence of deadlocks in a dynamic way. This phase is implemented by an efficient Petri net controller for which effective conflict transitions are solved according to an appropriate resource allocation policy.

Kamel Barkaoui | I. B. Abdallah

[1] Arie Shoshani,et al. System Deadlocks , 1971, CSUR.

[2] Kamel Barkaoui,et al. Deadlocks and traps in Petri nets as Horn-satisfiability solutions and some related polynomially solvable problems , 1990, Discret. Appl. Math..

[3] Haoxun Chen,et al. Deadlock Avoidance Policy for Flexible Manufacturing Systems , 1995 .

[4] Bruce H. Krogh,et al. Deadlock avoidance in flexible manufacturing systems with concurrently competing process flows , 1990, IEEE Trans. Robotics Autom..

[5] Hyunbo Cho,et al. A structured approach to deadlock detection, avoidance and resolution in flexible manufacturing systems , 1994 .

[6] Kurt Lautenbach,et al. Liveness in Bounded Petri Nets Which Are Covered by T-Invariants , 1994, Application and Theory of Petri Nets.

[7] Manuel Silva Suárez,et al. A New Technique for Finding a Generating Family of Siphons, Traps and st-Components. Application to Colored Petri Nets , 1991, Applications and Theory of Petri Nets.

[8] K. Lautenback. Linear algebraic calculation of deadlocks and traps , 1987 .

[9] K. Barkaoui,et al. A deadlock prevention method for a class of FMS , 1995, 1995 IEEE International Conference on Systems, Man and Cybernetics. Intelligent Systems for the 21st Century.