Petri net synthesis and analysis of a flexible manufacturing system cell

M. Zhou; K. McDermott; P.A. Patel

doi:10.1109/21.229464

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Journal article

Petri net synthesis and analysis of a flexible manufacturing system cell

M. Zhou, K. McDermott and P.A. Patel

IEEE transactions on systems, man, and cybernetics, Vol.23(2), pp.523-531

01/03/1993

DOI: https://doi.org/10.1109/21.229464

Abstract

Analytical models

Control system analysis

Control system synthesis

Electrical equipment industry

Flexible manufacturing systems

Manufacturing industries

Manufacturing systems

Mathematical model

Petri nets

Virtual manufacturing

The modeling and analysis of a flexible manufacturing system (FMS) cell using Petri nets is presented. In order to illustrate how a Petri net with desirable properties can be constructed, the detailed synthesis process for this cell is described. During the process, top-down refinement, system decomposition, and modular composition ideas are used to achieve the hierarchy and preservation of important system properties. These properties include liveness, boundedness/safeness, and reversibility that guarantee the system to operate in a stable, deadlock-free, and cyclic manner. Furthermore, the analysis of a timed Petri net for cycle time is presented. The timed Petri net is first converted into an equivalent timed marked graph by a reduction technique. Then the standard procedure to find the cycle time for marked graphs is applied.< >

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Title: Petri net synthesis and analysis of a flexible manufacturing system cell
Creators - without role: M. Zhou - New Jersey Institute of Technology
K. McDermott - New Jersey Institute of Technology
P.A. Patel - New Jersey Institute of Technology
Publication Details: IEEE transactions on systems, man, and cybernetics, Vol.23(2), pp.523-531
Publisher: IEEE
Identifiers: 9938217808331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Journal article