基于模糊层次分析法对系统脆性源进行了评价,求出了导致严重后果的危险脆性源。
Based on the fuzzy analysis hierachical process to estimate the brittle source of system. Obtained the danger brittle source bring to severe event.
多元分析法研究术后硬膜血肿体积相关的危险因素。
Multivariate analysis identified risk factors associated with postoperative hematoma volume.
采用事件树分析法进行风险分析并建立了数学模型,包括火灾模型、有效释放率模型、热强度极限值、危险区域等式四部分。
Accident tree analysis is applied to risk analysis and a mathematical model is established, including fire model, effective release rate model, heat intensity threshold and hazard area equation.
安全管理水平:运用模糊数学理论和灰色系统理论,建立了重大危险源安全管理水平动态综合分析法。
Safety management: Establishes the dynamic comprehensive analytical method on major hazard and safety management of the major hazard by applying the grey system theory and fuzzy math theory.
结合专家打分的方法确定网站本身、商家及消费者面临风险的相对重要性,利用RAC分析法进行评价,得出各个危险因素的相对重要性排序。
Then using RAC analysis method in combination with expert scoring, the paper came out with the relative importance of risk factors faced by the website, shops and consumers and put them in order.
常用的分析评价方法有评点法、工作危害分析法和作业危险性评价法。
The common used methods include: Cs method, the work hazard analysis and operational risk assessment.
推荐的安全分析方法有,如果…怎么样法、检查表法、危险与可操作分析法(HAZOP)、故障模式及后果分析(FMEA)或故障树分析法等。
The methodologies of WhatIf, Checklist, Hazard and Operability Study (HAZOP), Failure Mode and Effects Analysis (FMEA) or Fault Tree Analysis (FTA) are recommended.
本文运用逻辑诊断和故障树分析法对300台柴油机的运转状态进行分析,建立柴油机运转危险状态故障树模型,求出在目前水平下危险状态发生的概率为0.000288;
By logical diagnosis and fault tree analysis, the operational condition of 300 diesel engines was analysed and a fault tree model of diesel engines under hazard condition was established.
结合某沉箱预制厂现场作业情况,以安全系统工程分析法和故障树分析法,分析沉箱预制过程存在的危险因素,并提出安全控制措施。
The results of the two techniques have been compared and the measures for prefabrication of caissons in winter seasons are also proposed.
Cox回归分析法显示,房颤患者死于栓塞的风险更高(调整后危险比, 4.33 95 %可信区间为 1.78至10.52 ) ,而不是讲死于其他原因。
With Cox regression patients with AF were shown to be at higher risk of dying from embolism (adjusted hazard ratio 4.33 95 confidence interval 1.78 to 10.52) but not from other causes.
运用GIS、遥感影像、数据库建设和层次分析法等方法评价研究,得出公路沿线地质灾害危险性预测评价结果。
It gains critical evaluation results of geologic hazards "forecast which applys GIS, remote sensing video, database building and AHP ect methods to assess."
运用GIS、遥感影像、数据库建设和层次分析法等方法评价研究,得出公路沿线地质灾害危险性预测评价结果。
It gains critical evaluation results of geologic hazards "forecast which applys GIS, remote sensing video, database building and AHP ect methods to assess."
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