Algorithmic verification of logic controllers given as sequential function charts

2004 IEEE International Conference on Robotics and Automation (IEEE Cat. No.04CH37508) Pub Date : 2004-09-02 DOI:10.1109/CACSD.2004.1393850

M. Remelhe, S. Lohmann, O. Stursberg, S. Engell, N. Bauer

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引用次数: 23

Abstract

The a-posteriori analysis of logic controllers can be a suitable means to detect design flaws if the controller was not developed by a synthesis algorithm that correctly considered all relevant requirements. This paper advocates the verification of logic controllers with a special focus on the following three issues: (a) the control code is given as a sequential function chart (SFC), a description language becoming increasingly popular for industrial controllers; (b) the cyclic operation mode of the hardware on which the controllers is implemented is taken into account; (c) specifications of the control logic that include timers and the real-time behavior of the controlled plant are considered. We propose an approach in which the SFC controller is first translated into a timed automaton using an algorithm that explores a special graph grammar. The automaton can then be composed with a timed automaton modeling the plant behavior, and model-checking of the composition reveals whether a given set of requirements is fulfilled. All steps of the procedure are illustrated for the example of a controlled evaporation system

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逻辑控制器的算法验证以顺序功能图的形式给出

如果控制器不是由正确考虑所有相关要求的综合算法开发的，则逻辑控制器的后验分析可以是检测设计缺陷的合适手段。本文提倡对逻辑控制器的验证，特别关注以下三个问题:(a)控制代码以顺序功能图(SFC)的形式给出，这是一种越来越流行的工业控制器描述语言;(b)考虑到实施控制器的硬件的循环操作模式;(c)考虑控制逻辑的规格，包括计时器和被控设备的实时行为。我们提出了一种方法，其中SFC控制器首先使用探索特殊图语法的算法转换为定时自动机。然后，可以将自动机与对工厂行为建模的定时自动机组合在一起，组合的模型检查显示是否满足了给定的一组要求。程序的所有步骤都以受控蒸发系统为例加以说明

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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来源期刊

2004 IEEE International Conference on Robotics and Automation (IEEE Cat. No.04CH37508)

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