Reliability evaluation and application for systems with different phases

2008 Annual Reliability and Maintainability Symposium Pub Date : 2008-01-28 DOI:10.1109/RAMS.2008.4925760

Huairui Guo, A. Mettas, A. Monteforte

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引用次数: 3

Abstract

Many systems are multi-phase mission systems. During different phases, the system reliability configuration, reliability requirements and operation environment can be different. For example, some components may change from active status to standby or the system reliability configuration may change from serial to parallel. In addition to configuration changes, the system may be exposed to different stress conditions; therefore, the time to failure distribution of some components will change due to the change in stress. In general, systems that operate under different phases are considered as dynamic systems. A way to estimate the reliability and availability of such systems is needed. In this paper, a systematic procedure of applying accelerated life tests and simulation to analyze the reliability and availability of such dynamic systems is first proposed. Methods for solving both non-repairable and repairable systems are provided. For non-repairable systems, an analytical solution based on cumulative damage theory is discussed. Therefore, the exponential assumption, which is used in many existing methods, is not required in the proposed method. In addition to the analytical solution, a cumulative- damage-based simulation solution is also provided. For repairable systems, based on different scenarios in real applications, the repairable phased-mission system is classified into three categories. Because of the complexity of the problem, only simulation results are given for repairable systems. The proposed systematic procedure of applying accelerated life tests in phased-mission system analysis provides a general guideline for dealing with real-world applications. The cumulative-damage-based analytical and simulation method provide a practical and useful approach for solving phased-mission system problems. The classification of repairable phased-mission systems gives a clear overview of the phased-mission systems and makes the analysis of complex real applications easier.

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不同相位系统的可靠性评估与应用

许多系统都是多阶段任务系统。在不同阶段，系统的可靠性配置、可靠性要求和运行环境可能会有所不同。例如，某些组件可能从活动状态变为备用状态，或者系统可靠性配置可能从串行变为并行。除了配置变化外，系统还可能面临不同的应力条件;因此，由于应力的变化，一些构件的失效时间分布会发生变化。一般来说，在不同阶段运行的系统被认为是动态系统。需要一种方法来估计这些系统的可靠性和可用性。本文首次提出了一种应用加速寿命试验和仿真来分析这类动态系统可靠性和可用性的系统方法。提供了解决不可修复和可修复系统的方法。对于不可修复系统，讨论了基于累积损伤理论的解析解。因此，该方法不需要许多现有方法中使用的指数假设。除了解析解之外，还提供了基于累积损伤的模拟解。对于可修系统，根据实际应用场景的不同，将可修分阶段任务系统分为三类。由于问题的复杂性，本文只给出了可修系统的仿真结果。提出的在分阶段任务系统分析中应用加速寿命试验的系统程序为处理实际应用提供了一般指导。基于累积损伤的分析与仿真方法为解决分阶段任务系统问题提供了一种实用的方法。可修分阶段任务系统的分类给出了分阶段任务系统的清晰概述，使复杂的实际应用分析更加容易。

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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2008 Annual Reliability and Maintainability Symposium

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