Abstract
Supervisory control for discrete event systems that is widely studied in the literature to tackle the Petri net model’s deadlock occurrence of flexible manufacturing systems. A supervisory structure constructed using control places imposed restrictions on the concurrent operation in the systems, which degrade the supervisor’s efficiency. This study proposed a new method to construct a supervisory structure using combine control places and control transitions to ensure flexible manufacturing systems’ smooth operation. Place-Transition controller is designed for each concurrent process of the systems. Three algorithms are proposed in this method. The algorithm 1 computes the loop markings at each process of the Petri net model. Algorithm 2 is used to sort the deadlock markings based on the concurrent processes of the Petri net model. The Transition-Place controller and Place-Transition controller are designed using algorithm 3 . Transition-Place controller creates extra states in the reachability graph, which is called dump markings. Place-Transition controller projects the deadlock markings to the loop markings via dump markings. The number of states created by the Transition-Place controller depends on the number of concurrent states in the Petri net model. The final supervisory structure controls the deadlock occurrence of flexible manufacturing systems with zero restrictions of systems operation. This proposed method is efficient as it retains all the states generated in the controlled Petri net model.
Highlights
A UTOMATED controlled for discrete event systems (DESs) are widely used in flexible manufacturing systems (FMSs) due to their applicability in controlling and boosting processed product growth
Control transitions that are equal to the number of markings in the live zone are designed for each deadlock marking since there is uncertainty on where the deadlock markings will return in the live zone
This paper proposed a new method to design supervisor for FMSs using a Place-Transition Controller (PTC) and a Transition-Place Controller (TPC)
Summary
A UTOMATED controlled for discrete event systems (DESs) are widely used in flexible manufacturing systems (FMSs) due to their applicability in controlling and boosting processed product growth. A reachability graph is used to computes the deadlocks markings of the PNM for FMSs. Control transitions that are equal to the number of markings in the live zone are designed for each deadlock marking since there is uncertainty on where the deadlock markings will return in the live zone. The method uses a reachability graph analysis to computes the deadlocks markings in the PNM It employed the vector covering approach to computes the minimal number of. This method’s main advantage is that the controllers have zero restriction in executing the concurrent works by the PNM for FMSs. the number of controller states is minimal compared with the related method developed in the literature.
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