Synthesis of feedback control logic for discrete manufacturing systems

This paper concerns the supervisory coordination and control of concurrent activity cycles in automated manufacturing facilities. In contrast to commonly used simulation models which integrate the control policy with the system model, the state transition logic for the manufacturing equipment is rep...

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Veröffentlicht in:	Automatica (Oxford) 1991, Vol.27 (4), p.641-651
Hauptverfasser:	Krogh, Bruce H., Holloway, Lawrence E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Computer control Computer science control theory systems control system synthesis Control theory. Systems discrete systems Exact sciences and technology manufacturing processes Process control. Computer integrated manufacturing supervisory control synthesis methods
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container_end_page	651
container_issue	4
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container_title	Automatica (Oxford)
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creator	Krogh, Bruce H. Holloway, Lawrence E.
description	This paper concerns the supervisory coordination and control of concurrent activity cycles in automated manufacturing facilities. In contrast to commonly used simulation models which integrate the control policy with the system model, the state transition logic for the manufacturing equipment is represented by a class of controlled Petri nets (CtlPN) with external inputs to be determined by the control synthesis algorithm. We formulate the forbidden state control problem in the CtlPN context and present an algorithm for generating maximally permissive controls which guarantee the system will avoid the forbidden states while permitting a maximal amount of flexibility in the system operation. The problem formulation and control synthesis algorithm is illustrated for an example of AGV co-ordination, and several classes of manufacturing control problems which can be addressed within this framework are identified.
doi_str_mv	10.1016/0005-1098(91)90055-7
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In contrast to commonly used simulation models which integrate the control policy with the system model, the state transition logic for the manufacturing equipment is represented by a class of controlled Petri nets (CtlPN) with external inputs to be determined by the control synthesis algorithm. We formulate the forbidden state control problem in the CtlPN context and present an algorithm for generating maximally permissive controls which guarantee the system will avoid the forbidden states while permitting a maximal amount of flexibility in the system operation. 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In contrast to commonly used simulation models which integrate the control policy with the system model, the state transition logic for the manufacturing equipment is represented by a class of controlled Petri nets (CtlPN) with external inputs to be determined by the control synthesis algorithm. We formulate the forbidden state control problem in the CtlPN context and present an algorithm for generating maximally permissive controls which guarantee the system will avoid the forbidden states while permitting a maximal amount of flexibility in the system operation. The problem formulation and control synthesis algorithm is illustrated for an example of AGV co-ordination, and several classes of manufacturing control problems which can be addressed within this framework are identified.</description><subject>Applied sciences</subject><subject>Computer control</subject><subject>Computer science; control theory; systems</subject><subject>control system synthesis</subject><subject>Control theory. Systems</subject><subject>discrete systems</subject><subject>Exact sciences and technology</subject><subject>manufacturing processes</subject><subject>Process control. 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subjects	Applied sciences Computer control Computer science control theory systems control system synthesis Control theory. Systems discrete systems Exact sciences and technology manufacturing processes Process control. Computer integrated manufacturing supervisory control synthesis methods
title	Synthesis of feedback control logic for discrete manufacturing systems
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