基于辐射诱导故障模型的故障树自动生成

2020 Annual Reliability and Maintainability Symposium (RAMS) Pub Date : 2020-01-01 DOI:10.1109/RAMS48030.2020.9153630

R. Austin, N. Mahadevan, A. Witulski, G. Karsai, B. Sierawski, peixiong zhao, R. Reed

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引用次数: 3

摘要

空间环境为非光学电子系统提出了几个独特的可靠性问题，这些系统要经受来自宇宙射线、太阳或被困辐射带的辐射。这些辐射类别包括总电离剂量(TID)和单事件效应(SEE)，前者是可能最终导致组件失效的累积降解机制，后者是可恢复或永久失效的随机事件。由这些机制引起的故障影响和退化可以通过系统传播并导致系统故障，甚至在没有考虑和减轻的情况下导致任务失败。

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Automatic Fault Tree Generation from Radiation-Induced Fault Models

The space environment raises several unique reliability issues for non-optical-based electronic systems for surviving radiation from cosmic rays, our Sun, or the trapped radiation belts. These radiation categories are total ionizing dose (TID), a cumulative degradation mechanism that may eventually lead to component failure, and single-event effects (SEE), random events in time that are either recoverable or permanent failures. Fault effects and degradation caused by these mechanisms can propagate through the system and cause system failure, even mission failure when not accounted for and mitigated.

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2020 Annual Reliability and Maintainability Symposium (RAMS)

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