Predicates and predicate transformers for the supervisory control of timed discrete event system

1999 7th IEEE International Conference on Emerging Technologies and Factory Automation. Proceedings ETFA '99 (Cat. No.99TH8467) Pub Date : 1999-10-18 DOI:10.1109/ETFA.1999.813110

A. Khatab, É. Niel

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引用次数: 3

Abstract

We approach the problem of controlling the behavior of a given real time discrete event system (RTDES) described in terms of its state trajectories by using predicates and predicate transformers. The timed supervisory predicate control problem (TSPCP) is introduced as the problem of synthesizing a supervisor for a given RTDES. So that, the set of legal predicates corresponds to the weakest predicate that remains invariant under control. RTDES is modeled as a finite automaton and characterized by its untimed automaton, namely the activity transition graph augmented by data variables, and its timed automaton, namely its timed transition graph. In contrast to the work of Brandin (1994) and O'Young (1991), the approach proposed in the paper does not rely on a search through the reachability of the timed automaton of a given RTDES. The TSPCP addressed in the paper takes into account two types of control mechanisms: enabling/disabling and forcing events. Furthermore two types of controllability notion are handled. The first one corresponds to the classical notion of controllability when the forcing mechanism is not invoked, and it is shown that it serves as a necessary and sufficient condition for solving the TSPCP. The second one is called forced controllability and used to solve the TSPCP in the case where the required legal predicate is not controllable.

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时间离散事件系统监督控制的谓词和谓词变压器

我们通过使用谓词和谓词转换器来处理用状态轨迹描述的给定实时离散事件系统(RTDES)的行为控制问题。将定时监督谓词控制问题作为给定RTDES的综合监督问题引入。因此，合法谓词的集合对应于在控制下保持不变的最弱谓词。RTDES被建模为有限自动机，其特征是它的非时间自动机，即由数据变量增广的活动转移图，以及它的时间自动机，即其时间转移图。与Brandin(1994)和O'Young(1991)的工作相反，本文提出的方法不依赖于通过给定RTDES的时间自动机的可达性进行搜索。文中提到的TSPCP考虑了两种类型的控制机制:启用/禁用事件和强制事件。此外，还处理了两类可控性概念。前者符合经典的不调用强迫机制时的可控性概念，并证明了它是求解TSPCP的充分必要条件。第二种称为强制可控性，用于在所需的合法谓词不可控制的情况下解决TSPCP。

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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1999 7th IEEE International Conference on Emerging Technologies and Factory Automation. Proceedings ETFA '99 (Cat. No.99TH8467)

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