从UML系统模型中自动合成动态故障树

13th International Symposium on Software Reliability Engineering, 2002. Proceedings. Pub Date : 2002-11-12 DOI:10.1109/ISSRE.2002.1173261

Ganesh J. Pai, J. Dugan

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引用次数: 144

摘要

以计算机为基础的系统的可靠性可能与它的性能和计算的正确性同样重要。在概念设计阶段估计系统可靠性是值得的，因为可靠性可以影响后续的设计决策，并且可能经常是做出权衡或建立系统成本的关键。在本文中，我们描述了一个基于统一建模语言(UML)的基于计算机的系统建模框架，它促进了设计过程中的自动化可靠性分析。提出了一种从UML系统模型中自动合成动态故障树的算法。我们成功地在系统模型中嵌入了可靠性分析所需的信息，并生成了DFT。我们从算法开发的DFT中解析计算系统不可靠性，并将我们的结果与人工开发的DFT的解析解进行了比较。我们的解决方案产生与手动生成dft相同的结果。

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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Automatic synthesis of dynamic fault trees from UML system models

The reliability of a computer-based system may be as important as its performance and its correctness of computation. It is worthwhile to estimate system reliability at the conceptual design stage, since reliability can influence the subsequent design decisions and may often be pivotal for making trade-offs or in establishing system cost. In this paper we describe a framework for modeling computer-based systems, based on the Unified Modeling Language (UML), that facilitates automated dependability analysis during design. An algorithm to automatically synthesize dynamic fault trees (DFTs) from the UML system model is developed. We succeed both in embedding information needed for reliability analysis within the system model and in generating the DFT Thereafter, we evaluate our approach using examples of real systems. We analytically compute system unreliability from the algorithmically developed DFT and we compare our results with the analytical solution of manually developed DFTs. Our solutions produce the same results as manually generated DFTs.

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13th International Symposium on Software Reliability Engineering, 2002. Proceedings.

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