铁路联锁系统的组成验证

IF 1.4 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Anne Elisabeth Haxthausen, Alessandro Fantechi
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引用次数: 0

摘要

模型检验技术经常应用于铁路联锁系统的验证,该系统负责引导列车安全通过给定的铁路网。然而,由于状态空间爆炸问题,这些技术无法扩展到控制由数百甚至数千个受控实体组成的大型站点的联锁系统。确实,联锁系统表现出一定程度的局部性,仅允许对考虑列车运动的实体集进行一些推理,但通过复杂车站布局的安全路线需要全局预留策略,这可能需要考虑全局状态条件。在本文中,我们提出了一种组合方法,旨在将大型联锁系统的验证分解为较小的片段,在每个片段中利用路由状态的全局信息的适当抽象。本文给出了一个证明:验证小分片的安全性就足以验证整个网络的安全性。使用这种组合方法的实验表明,在验证的性能以及可负担的车站布局的大小方面取得了重要的进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Compositional Verification of Railway Interlocking Systems

Model checking techniques have often been applied to the verification of railway interlocking systems, responsible for guiding trains safely through a given railway network. However, these techniques fail to scale to the interlocking systems controlling large stations, composed of hundreds and even thousands of controlled entities, due to the state space explosion problem. Indeed, interlocking systems exhibit a certain degree of locality that allows some reasoning only on the mere set of entities that regard the train movements, but safe routing through a complex station layout requires a global reservation policy, which can require global state conditions to be taken into account.

In this article, we present a compositional approach aimed at chopping the verification of a large interlocking system into that of smaller fragments, exploiting in each fragment a proper abstraction of the global information on routing state. A proof is given of the thesis that verifying the safety of the smaller fragments is sufficient to verify the safety of the whole network. Experiments using this compositional approach have shown important gains in performance of the verification, as well as in the size of affordable station layouts.

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来源期刊
Formal Aspects of Computing
Formal Aspects of Computing 工程技术-计算机:软件工程
CiteScore
3.30
自引率
0.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: This journal aims to publish contributions at the junction of theory and practice. The objective is to disseminate applicable research. Thus new theoretical contributions are welcome where they are motivated by potential application; applications of existing formalisms are of interest if they show something novel about the approach or application. In particular, the scope of Formal Aspects of Computing includes: well-founded notations for the description of systems; verifiable design methods; elucidation of fundamental computational concepts; approaches to fault-tolerant design; theorem-proving support; state-exploration tools; formal underpinning of widely used notations and methods; formal approaches to requirements analysis.
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