Identifying Alterability States of a Single Track Railway Line Control System

Int. J. Comput. Commun. Control Pub Date : 2022-09-29 DOI:10.15837/ijccc.2022.5.4444

Sebastien Martinez, S. C. Dutilleul, P. Bon

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Abstract

In the context of automation and deployment of computer based control systems, a specific application on French railway line is proposed on low traffic single track railway lines. The issue of updates requires thorough consideration. In the case of low traffic single track railway lines, handling the removal of a shunting track, which role is to allow trains to circulate in both directions of a same line, the issue of timing the update to the control system is particularly critical. Indeed, a wrongly timed update could lead to a deadlock, while one or more trains are expected to travel while respecting safety constraints on the blocked infrastructure. This paper studies the application of works from the field of dynamic software updating, specifically the works of Panzica La Manna et al. [12]. Using their results on a graph based model of a single track rail line, it identifies alterability states that ensure safety constraints are respected at all times without causing deadlocks. These results are then used to discuss the pertinence of using concepts from dynamic software updating in the context of railway systems.

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单轨铁路线路控制系统的可变状态辨识

在自动化和计算机控制系统部署的背景下，提出了法国铁路线在低流量单线铁路上的具体应用。更新的问题需要彻底考虑。在交通量低的单线铁路线路中，处理拆除调车轨道的问题，其作用是允许列车在同一条线路的两个方向上运行，定时更新控制系统的问题尤为关键。事实上，错误的更新时间可能会导致死锁，而一列或多列火车预计会在遵守阻塞基础设施的安全约束的情况下行驶。本文研究了动态软件更新领域的著作应用，特别是Panzica La Manna等人的著作。在单轨铁路线的基于图形的模型上使用他们的结果，它确定了可变状态，确保始终遵守安全约束，而不会造成死锁。这些结果随后用于讨论在铁路系统的背景下使用动态软件更新概念的相关性。

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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Int. J. Comput. Commun. Control

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