In: IEEE Trans. on Systems, Man, and Cybernetics; Part C: Applications and Reviews, Vol. 29, No. 2, pages 192-204. 1999.
Abstract: Concurrent competition for finite resources by multiple parts in flexible manufacturing systems (FMSs) results in deadlock. This is an important issue to be addressed in the operation of the system. A Petri net model, called colored resource-oriented Petri net (CROPN) is developed in this paper. The concurrent resource contention and the important characteristics of the production processes necessary for deadlock control are well represented by this model. Based on the developed model, necessary and sufficient conditions and an efficient control law are presented for deadlock-free operation in FMSs. This control law is a policy of dynamic resource allocation. It determines when a resource can be allocated to which job to avoid deadlock. This control law allows as many active parts as possible to be in the system, while deadlock is totally avoided. This control law is easy to implement and can be embedded into the real-time scheduler. A simple example is used to illustrate the application of the approach.
Keywords: colored Petri nets, deadlock avoidance, flexible manufacturing systems.