ATO OVER ETCS: MODEL-BASED SYSTEM AND ARCHITECTURE ANALYSIS WITH ARCADIA AND EVENT-B

R. Eschbach
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Abstract

The European Railway Traffic Management System (ERTMS) is intended to replace incompatible national rail traffic management systems in Europe and thus simplify cross-border rail traffic. A part of ERTMS is the European Train Control System (ETCS). ETCS is an automatic train protection system and can collaborate with an automatic train operation system (ATO). ATO can control and monitor the braking, traction and door system of a train. This collaboration is called ATO over ETCS. In this paper we describe the experiences gained in the integrated application of the model-based systems and architecture engineering method ARCADIA and the formal method Event-B to the system requirements of ATO over ETCS. A central part of the system requirements is related to the operational modes, mode transitions and mode properties of the ATO onboard unit (ATO-OB). Mode properties are system requirements that must be satisfied whenever the ATO-OB enters a mode or stays within a mode. Especially modes, in which the ATO-OB automatically drives the train, are of utter importance. The main goal of the analysis was to check consistency and completeness of the system requirements related to modes, mode transitions and mode properties. Within the ARCADIA phase “System Analysis” a so-called “Mode/State Model”, a special ARCADIA model, was systematically derived from the system requirements. In order to guarantee consistency, especially to guarantee that mode properties will not be violated by mode transitions, a formal Event-B specification was derived and formally analyzed. This analysis approach identified several critical inconsistencies of the system requirements.
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Ato等:基于模型的系统和架构分析与arcadia和event-b
欧洲铁路交通管理系统(ERTMS)旨在取代欧洲不兼容的国家铁路交通管理系统,从而简化跨境铁路交通。ERTMS的一部分是欧洲列车控制系统(ETCS)。ETCS是一种列车自动保护系统,可以与列车自动操作系统(ATO)协同工作。ATO可以控制和监控列车的制动、牵引和车门系统。这种合作被称为ETCS上的ATO。本文介绍了将基于模型的系统与体系结构工程方法ARCADIA和形式化方法Event-B集成应用于ETCS上ATO系统需求的经验。系统需求的核心部分与ATO机载单元(ATO- ob)的操作模式、模式转换和模式属性有关。模式属性是ATO-OB进入模式或停留在模式内时必须满足的系统需求。特别是在自动驾驶模式下,ATO-OB自动驾驶是非常重要的。分析的主要目标是检查与模式、模式转换和模式属性相关的系统需求的一致性和完整性。在ARCADIA阶段“系统分析”中,一个所谓的“模式/状态模型”,一个特殊的ARCADIA模型,系统地从系统需求中衍生出来。为了保证一致性,特别是保证模式转换不会违反模式属性,导出了正式的Event-B规范,并对其进行了形式化分析。这种分析方法确定了系统需求的几个关键的不一致之处。
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