人的可靠性分析最早来自人机工程学界,在结构工程中研究较少。
HRA is come from ergonomic educational circles at first, studied less in structure.
随着机器设备的可靠性不断提高,人的可靠性分析研究日益得到重视。
Along with the reliability of machines and equipments is constantly improved, the focus of system reliability has switched to human reliability analysis.
认知可靠性和失误分析方法(CREAM)是第二代人的可靠性分析方法中的代表方法之一。
Cognitive reliability and Error analysis method (CREAM) is one of the representative second-generation human reliability analysis methods.
人因数据的收集、分析与量化是人员可靠性分析和概率风险评价极为重要的组成部分。
The collection, analysis and quantification of human factor data are very important parts of human reliability analysis and probabilistic risk assessment.
人误数据是人员可靠性分析(HRA)的一个非常重要的方面。
Human error data is an important issue of human reliability analysis (HRA).
认知可靠性和失误分析方法(CREAM)是第二代人因可靠性分析方法中的代表方法之一,它具有追溯和预测的双向分析功能。
Cognitive reliability and Error analysis method (CREAM) is a representative second-generation human reliability analysis method and it has a binary function-retrospection and prediction.
人因可靠性分析(HRA)是核电厂概率安全评价(PS A)的重要组成部分,定性分析是HRA的基础和出发点。
Human reliability analysis (HRA) is a very important part of probability safety assessment (PSA) in a nuclear power plant. Qualitative analysis is the basis and starting point of HRA.
人因可靠性分析(HRA)是核电厂概率安全评价(PS A)的重要组成部分,定性分析是HRA的基础和出发点。
Human reliability analysis (HRA) is a very important part of probability safety assessment (PSA) in a nuclear power plant. Qualitative analysis is the basis and starting point of HRA.
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