双机热备用退化系统的最优周期切换策略

2021 3rd International Conference on System Reliability and Safety Engineering (SRSE) Pub Date : 2021-11-01 DOI:10.1109/SRSE54209.2021.00048

Senyang Bai, X. Jia, Z. Cheng, B. Guo, Qian Zhao

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引用次数: 1

摘要

目前，大多数热备系统只是在主机组发生故障后才将备用机组切换到正常运行状态。然而，卫星上的陀螺备用系统采用了周期性主动切换策略。由于陀螺仪在长期运行和待机过程中的性能下降。针对这一问题，提出了双机组热备用退化系统的最优周期切换策略。首先，用多相维纳过程描述了该装置的降解过程。其次，基于首次命中时间理论推导了退化子系统的可靠性函数和平均失效时间(MTTF);第三，确定最优周期切换间隔，使系统MTTF最大化。最后，以陀螺仪热备子系统为例，说明了该模型的适用性和优越性。

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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Optimal Periodic Switching Strategy For a Two-unit Warm Standby Degradation System

At present, most warm standby systems only switch the standby unit to the normal operation state after the active unit fails. However, a periodic active switching strategy is adopted for the gyro standby system on the satellite. Due to the performance degradation of the gyroscope in the long-term operation and standby process. For this problem, an optimal periodic switching strategy is proposed for the two-unit warm standby degradation system. First, the degradation process of the unit is described by a multi-phase Wiener process. Second, the reliability function and mean time to failure (MTTF) of the degradation subsystem is derived based on the first-hitting time theory. Third, the optimal periodic switching interval is determined to maximize the system MTTF. Finally, a numerical example of a gyroscope warm standby subsystem is used to illustrate the applicability and superiority of the proposed model.

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来源期刊

2021 3rd International Conference on System Reliability and Safety Engineering (SRSE)

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