Supervisory Control of Discrete-Event Systems in an Asynchronous Setting

A. Rashidinejad, M. Reniers, Martin Fabian
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引用次数: 6

Abstract

In conventional supervisory control theory, a plant and supervisor are supposed to work synchronously such that enabling an event by the supervisor, execution of it in the plant, and observation of the executed event by the supervisor all occur at once. Therefore, these occurrences are all captured by means of a single event. However, when a supervisor synthesized from conventional supervisory control theory is implemented in real life, it will face problems since exact synchronization can hardly happen in practice due to delayed communications. In this paper, we propose a synthesis technique to achieve a supervisor that does not face the problems caused by inexact synchronization. For this purpose, we first introduce an asynchronous setting in which enablement, execution, and observation of an event do not occur simultaneously but with some delay. We present a model representing the behavior of the plant in the asynchronous setting which we call the asynchronous plant. For the asynchronous plant, we present an algorithm synthesizing an asynchronous supervisor which satisfies (asynchronous) controllability and nonblockingness.
异步环境下离散事件系统的监督控制
在传统的监督控制理论中,工厂和监督者应该是同步工作的,以便监督者允许一个事件,在工厂内执行该事件,以及监督者对执行事件的观察同时发生。因此,这些事件都是通过单个事件捕获的。然而,当从传统的监督控制理论合成的监控器在现实生活中实施时,由于通信的延迟,在实践中很难实现精确的同步,这将面临问题。在本文中,我们提出了一种综合技术来实现一个不需要面对不精确同步所带来的问题的监控程序。为此,我们首先引入一种异步设置,在这种设置中,事件的启用、执行和观察不是同时发生的,而是有一定的延迟。我们提出了一种表示异步设置下工厂行为的模型,我们称之为异步工厂。对于异步对象,我们提出了一种综合异步监督器的算法,该算法满足异步可控性和非阻塞性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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