Conjunctive and Disjunctive Architectures for Decentralized Prognosis of Failures in Discrete-Event Systems

Kumar and Takai have proposed an architecture for the decentralized prognosis of discrete-event systems (DES), where several local prognosers cooperate to predict failures in a DES. In this paper, we first present the proposition (Kumar and Takai, "Decentralized prognosis of failures in discret...

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Veröffentlicht in:	IEEE transactions on automation science and engineering 2012-04, Vol.9 (2), p.412-417
Hauptverfasser:	Khoumsi, A., Chakib, H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Computer architecture Computer science control theory systems Conjunctive architecture Continuous time systems Control theory. Systems decentralized prognosis Discrete event systems discrete-event systems (DES) disjunctive architecture Dynamical systems Equations Exact sciences and technology Failure analysis Modelling and identification Nose Predictions Supervisory control Terminology
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creator	Khoumsi, A. Chakib, H.
description	Kumar and Takai have proposed an architecture for the decentralized prognosis of discrete-event systems (DES), where several local prognosers cooperate to predict failures in a DES. In this paper, we first present the proposition (Kumar and Takai, "Decentralized prognosis of failures in discrete event systems," IEEE Trans. Autom. Control, vol. 55, no. 1, pp. 48-59, Jan. 2010) as a disjunctive architecture, and then we develop a conjunctive architecture which is dual and complementary to the disjunctive one. We also propose a mixed architecture that combines and generalizes the disjunctive and conjunctive architectures. We finally show that our work can be easily extended to predict a failure at least k steps before its occurrence, for a given k >; 1.
doi_str_mv	10.1109/TASE.2012.2189563
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subjects	Applied sciences Computer architecture Computer science control theory systems Conjunctive architecture Continuous time systems Control theory. Systems decentralized prognosis Discrete event systems discrete-event systems (DES) disjunctive architecture Dynamical systems Equations Exact sciences and technology Failure analysis Modelling and identification Nose Predictions Supervisory control Terminology
title	Conjunctive and Disjunctive Architectures for Decentralized Prognosis of Failures in Discrete-Event Systems
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