This paper, dedicated to controlled generalized batches Petri nets without discrete nodes, presents a method for computing a control trajectory for reaching a steady state from a given initial marking. A steady state is characterized by a state in which the marking and the firing flow vector are constant. By controlling the firing flow vector of transitions, the proposed control strategy is an event-based one and relies on an algorithm solving a linear programming problem. This new control strategy, called in this paper as maximal flow based ON/OFF control, exploits the maximal firing flows and reduces the delay of the transient behavior for reaching the steady state. A practical communication system is provided to illustrate the relevance of such a control strategy for Cyber-Physical Systems.

ON/OFF Control Trajectory Computation for Steady State Reaching in Batches Petri Nets / Liu, Ruotian; Ammour, Rabah; Brenner, Leonardo; Demongodin, Isabel. - 12519 LNCS:(2020), pp. 84-99. (Intervento presentato al convegno 14th International Conference on Verification and Evaluation of Computer and Communication Systems, VECoS 2020 tenutosi a chn nel 2020) [10.1007/978-3-030-65955-4_7].

ON/OFF Control Trajectory Computation for Steady State Reaching in Batches Petri Nets

Liu, Ruotian
;
2020-01-01

Abstract

This paper, dedicated to controlled generalized batches Petri nets without discrete nodes, presents a method for computing a control trajectory for reaching a steady state from a given initial marking. A steady state is characterized by a state in which the marking and the firing flow vector are constant. By controlling the firing flow vector of transitions, the proposed control strategy is an event-based one and relies on an algorithm solving a linear programming problem. This new control strategy, called in this paper as maximal flow based ON/OFF control, exploits the maximal firing flows and reduces the delay of the transient behavior for reaching the steady state. A practical communication system is provided to illustrate the relevance of such a control strategy for Cyber-Physical Systems.
2020
14th International Conference on Verification and Evaluation of Computer and Communication Systems, VECoS 2020
9783030659547
9783030659554
ON/OFF Control Trajectory Computation for Steady State Reaching in Batches Petri Nets / Liu, Ruotian; Ammour, Rabah; Brenner, Leonardo; Demongodin, Isabel. - 12519 LNCS:(2020), pp. 84-99. (Intervento presentato al convegno 14th International Conference on Verification and Evaluation of Computer and Communication Systems, VECoS 2020 tenutosi a chn nel 2020) [10.1007/978-3-030-65955-4_7].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/280003
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