Generation of safe operation sequences using iterative refinements and abstractions of timed automata

T. Cochard, David Gouyon, J. Pétin
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引用次数: 1

Abstract

The main objective of operation procedure engineering for complex and critical systems is to provide action sequences satisfying safety requirements specifications. A classical limit of the use of formal generation approaches for this purpose is the combinatorial explosion due to the size and the number of required models. This article addresses this issue by proposing an iterative approach for the generation of safe operation sequences, using timed automata, and based on reachability analysis. The originality of this approach is to combine a bottom-up framework to build progressively system models by abstraction, and a top-down iterative action sequence generation.
使用迭代改进和时间自动机抽象的安全操作序列的生成
复杂和关键系统的操作程序工程的主要目标是提供满足安全要求规范的操作程序。使用形式生成方法实现此目的的一个经典限制是由于所需模型的大小和数量而导致的组合爆炸。本文通过提出一种基于可达性分析、使用时间自动机生成安全操作序列的迭代方法来解决这个问题。该方法的独创性在于结合了自下而上的框架,通过抽象逐步构建系统模型,以及自上而下的迭代操作序列生成。
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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