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Distributed Nonblocking Supervisory Control of Timed Discrete-Event Systems with Communication Delays and Losses
This paper investigates the problem of distributed nonblocking supervisory
control for timed discrete-event systems (DESs). The distributed supervisors
communicate with each other over networks subject to nondeterministic
communication delays and losses. Given that the delays are counted by time,
techniques have been developed to model the dynamics of the communication
channels. By incorporating the dynamics of the communication channels into the
system model, we construct a communication automaton to model the interaction
process between the supervisors. Based on the communication automaton, we
define the observation mappings for the supervisors, which consider delays and
losses occurring in the communication channels. Then, we derive the necessary
and sufficient conditions for the existence of a set of supervisors for
distributed nonblocking supervisory control. These conditions are expressed as
network controllability, network joint observability, and system language
closure. Finally, an example of intelligent manufacturing is provided to show
the application of the proposed framework
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