Title :
A Petri net based deadlock prevention policy for flexible manufacturing systems
Author :
Ezpeleta, Joaquín ; Colom, José Manuel ; Martínez, Javier
Author_Institution :
Dept. de Ingenieria Electr. e Inf., Zaragoza Univ., Spain
fDate :
4/1/1995 12:00:00 AM
Abstract :
In this paper we illustrate a compositional method for modeling the concurrent execution of working processes in flexible manufacturing systems (FMS) through a special class of Petri nets that we call S3 PR. In essence, this class is built from state machines sharing a set of places modeling the availability of system resources. The analysis of S3PR leads us to characterize deadlock situations in terms of a zero marking for some structural objects called siphons. In order to prevent the system from deadlocks, we propose a policy for resource allocation based on the addition of new places to the net imposing restrictions that prevent the presence of unmarked siphons (direct cause of deadlocks). Finally we present the application of this technique to a realistic FMS case
Keywords :
Petri nets; finite state machines; flexible manufacturing systems; production control; resource allocation; FMS; Petri net; deadlock prevention policy; flexible manufacturing systems; modeling; production control; resource allocation; siphons; state machines; system resource availability; zero marking; Availability; Control systems; Flexible manufacturing systems; Helium; Manufacturing processes; Petri nets; Quality control; Resource management; System recovery; Workstations;
Journal_Title :
Robotics and Automation, IEEE Transactions on
