RESISTing reliability degradation through proactive reconfiguration

Proceedings of the 25th IEEE/ACM International Conference on Automated Software Engineering Pub Date : 2010-09-20 DOI:10.1145/1858996.1859011

D. Cooray, S. Malek, R. Roshandel, D. Kilgore

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引用次数: 29

Abstract

Situated software systems are an emerging class of systems that are predominantly pervasive, embedded, and mobile. They are marked with a high degree of unpredictability and dynamism in the execution context. At the same time, such systems often need to satisfy strict reliability requirements. Most current software reliability analysis approaches are not suitable for situated software systems. We propose an approach geared to such systems, which continuously furnishes refined reliability predictions at runtime by incorporating various sources of information. The reliability predictions are leveraged to proactively place the software in the optimal configuration with respect to changing conditions. Our approach considers two representative architectural reconfiguration decisions that impact the system's reliability: reallocation of components to processes and changing the architectural style. We have realized the approach as part of a framework intended for mission-critical settings, called REsilient SItuated SofTware system (RESIST), and evaluated it using a mobile emergency response system.

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通过主动重构抵御可靠性下降

定位软件系统是一类新兴的系统，主要是普及的、嵌入式的和可移动的。它们在执行上下文中具有高度的不可预测性和动态性。同时，这类系统往往需要满足严格的可靠性要求。目前大多数软件可靠性分析方法都不适合实际的软件系统。我们提出了一种针对此类系统的方法，该方法通过结合各种信息来源，在运行时不断提供精确的可靠性预测。可靠性预测被用来根据不断变化的条件主动地将软件置于最佳配置中。我们的方法考虑了影响系统可靠性的两个代表性的体系结构重新配置决策:将组件重新分配到过程和更改体系结构风格。我们已经将该方法作为用于关键任务设置的框架的一部分，称为弹性定位软件系统(RESIST)，并使用移动应急响应系统对其进行了评估。

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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Proceedings of the 25th IEEE/ACM International Conference on Automated Software Engineering

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