Publication | Closed Access
An Iterative Synthesis Approach to Petri Net-Based Deadlock Prevention Policy for Flexible Manufacturing Systems
257
Citations
33
References
2007
Year
Petri NetEngineeringFlexible Manufacturing TechnologyIndustrial EngineeringDeadlock Prevention PolicySocial SciencesAutomated ManufacturingFms ProneSystems EngineeringIterative Synthesis ApproachDesignStochastic Petri NetComputer EngineeringManufacturing SystemsFlexible Manufacturing SystemComputer ScienceProduction ControlIndustrial DesignAutomationProcess ControlIndustrial InformaticsIndustrial Process Control
This paper proposes an iterative synthesis approach to Petri net (PN)-based deadlock prevention policy for flexible manufacturing systems (FMS). Given the PN model (PNM) of an FMS prone to deadlock, the goal is to synthesize a live controlled PNM. Its use for FMS control guarantees its deadlock-free operation and high performance in terms of resource utilization and system throughput. The proposed method is an iterative approach. At each iteration, a first-met bad marking is singled out from the reachability graph of a given PNM. The objective is to prevent this marking from being reached via a place invariant of the PN. A well-established invariant-based control method is used to derive a control place. This process is carried out until the net model becomes live. The proposed method is generally applicable, easy to use, effective, and straightforward although its off-line computation is of exponential complexity. Two FMS are used to show its effectiveness and applicability
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