BDD-based supervisory control on extended finite automata

2011 IEEE International Conference on Automation Science and Engineering Pub Date : 2011-10-13 DOI:10.1109/CASE.2011.6042480

S. Miremadi, B. Lennartson, K. Åkesson

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引用次数: 7

Abstract

In this paper, we settle some problems that are encountered when modeling and synthesizing complex industrial systems by the supervisory control theory. First, modeling such huge systems with explicit state-transition models typically results in an intractable model. An alternative modeling approach is to use extended finite automata (EFAs), which is an augmentation of ordinary automata with variables. The main advantage of utilizing EFAs for modeling is that more compact models are obtained. The second problem concerns the ease to understand and implement the supervisor. To handle this problem, we represent the supervisor in a modular manner by extending the original EFAs by compact conditional expressions generated from the monolithic supervisor. In order to, potentially, be able to handle complex systems efficiently, the models are symbolically represented by binary decision diagrams (BDDs). All computations that are performed in this framework are based on BDD operations. The framework has been implemented in a supervisory control tool and applied to industrially relevant benchmark problems.

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基于bdd的扩展有限自动机监控

本文用监督控制理论解决了复杂工业系统建模和综合时遇到的一些问题。首先，用显式状态转换模型对如此庞大的系统进行建模，通常会导致一个难以处理的模型。另一种建模方法是使用扩展有限自动机(EFAs)，它是带变量的普通自动机的扩展。利用EFAs进行建模的主要优点是可以获得更紧凑的模型。第二个问题是监督的易理解性和实施性。为了解决这个问题，我们用模块化的方式来表示监督器，将原来的efa扩展为由单片监督器生成的紧凑条件表达式。为了潜在地能够有效地处理复杂系统，这些模型被二元决策图(bdd)象征性地表示。在此框架中执行的所有计算都基于BDD操作。该框架已在一个监督控制工具中实施，并应用于工业相关的基准问题。

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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2011 IEEE International Conference on Automation Science and Engineering

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