基于uml的高保证软件系统早期设计阶段安全分析方法

Chetan Mutha, C. Smidts
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引用次数: 6

摘要

高保证计算机系统具有安全、安全、容错和实时性。这些特性的分析通常是单独进行的。对所有属性进行集成分析是一项挑战,可以通过在公共集成框架中表达这些属性来解决。统一建模语言是一种标准的建模语言,它展示了这种能力。本文的重点是利用统一建模语言对高保证系统的安全特性进行分析。我们特别感兴趣的是软件故障传播及其功能级效应的研究。在之前的工作中,我们开发了故障传播和仿真方法来研究特定故障是否会通过设计传播并导致系统级功能故障。不同统一建模语言图之间的映射是该方法背后的核心概念。本文简要介绍了故障传播和仿真方法,并详细介绍了为实现仿真过程自动化而开发的可执行模型。这些可执行模型是使用事件序列图(Event Sequence Diagram)的符号构建的,事件序列图是用于序列进展的已建立的可靠性和安全性分析技术之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Early Design Stage UML-Based Safety Analysis Approach for High Assurrance Software Systems
High-assurance computer systems fulfill security, safety, fault-tolerant, and real-time properties. Analysis of these properties is typically performed in isolation. An integrated analysis of all the properties is a challenge that can be addressed by expressing these properties in a common integrated framework. The Unified Modeling Language is a standard modeling language which exhibits such a capability. In this paper we focus on using the Unified Modeling Language to analyze the safety properties of high-assurance systems. In particular we are interested in the study of software faults propagation and their functional level effects. In previous work we have developed the Failure Propagation and Simulation Approach to study whether a particular fault will propagate through the design and cause system-level functional failures. Mapping between different Unified Modeling Language diagrams is the central concept behind the approach. This paper briefly introduces the Failure Propagation and Simulation Approach and presents in detail the executable models developed to automate the simulation process. These executable models are built using the notations of the Event Sequence Diagram, one of the established reliability and safety analysis techniques for sequence progression.
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