Identifying Alterability States of a Single Track Railway Line Control System

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 th...

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Veröffentlicht in:	International journal of computers, communications & control communications & control, 2022-10, Vol.17 (5)
Hauptverfasser:	Martinez, Sebastien, Collart-Dutilleul, Simon, Bon, Philippe
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Sprache:	eng
Schlagworte:	Context Control systems Railways Safety Software Trains
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creator	Martinez, Sebastien Collart-Dutilleul, Simon Bon, Philippe
description	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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subjects	Context Control systems Railways Safety Software Trains
title	Identifying Alterability States of a Single Track Railway Line Control System
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