Computation of Fault-Tolerant Supervisors for Discrete Event Systems ?
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Date
2013
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IFAC Secretariat
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Abstract
Fault-tolerance addresses the problem of operating a system even in case of faults. In this paper, we study fault-tolerance in the supervisory control framework for discrete event systems (DES). We consider DES, where certain events might no longer be possible in case a fault happens. In this setting, we first identify necessary and suficient conditions for the existence of a supervisor that realizes a given behavioral specification both in the non-faulty and in the faulty case. We further show that it is possible to determine a supremal fault-tolerant sublanguage in case the existence condition is violated. Finally, we propose an algorithm for the computation of this sublanguage and prove its correctness. Different from existing work, our fault-tolerant supervisor allows fault occurrences and system repairs at any time. The concepts and results developed in this paper are illustrated by a manufacturing system example. © 2013 IFAC.
Description
(IFAC) - Technical Committee on Discrete; Event and Hybrid Systems (TC 1.3); Technical Committee on Components and; Technical Committee on Manufacturing Plant Control (TC 5.1); Technical Committee on Mechatronic Systems (TC 4.2); Technologies for Control (TC 4.1)
Keywords
Discrete Event Systems, Fault-Tolerance, Supervisory Control
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Citation
Sülek, A.N.; Schmidt, K.W.,"Computation of Fault-Tolerant Supervisors for Discrete Event Systems ?",Ifac Proceedings Volumes (Ifac-Papersonline), Vol. 4, No. 1, pp. 115-120, (2013).
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IFAC Proceedings Volumes (IFAC-PapersOnline) -- 4th IFAC Workshop on Dependable Control of Discrete Systems, DCDS 2013 -- 4 September 2013 through 6 September 2013 -- York -- 99953
Volume
4
Issue
PART 1
Start Page
115
End Page
120