摘要
人为差错是影响航空安全的重要风险因素之一。文章根据飞机驾驶人因特点,结合具体飞行任务,基于模糊推理系统构建飞机驾驶人为差错风险量化模型,以识别飞机操纵过程中关键人为差错并确定人为差错的风险严重性,进而评估航空飞行安全。该方法不仅考虑了人为差错的概率,还考虑了人为差错对驾驶舱系统的影响,并提出了人为差错概率、差错影响概率和人为差错后果作为驾驶舱人为差错风险评估的量化指标。选择进近阶段任务作为研究对象并进行案例分析,实验结果表明,该模型能够精确描述人为差错风险严重性与风险指标之间的关系,降低了专家判断的主观性对结果的影响,且有效解决了数据不足引起的不确定性等问题。
Human errors are one of the most important risk factors influencing aviation safety.According to the characteris⁃tics of human factor in cockpit and a specific flight task,a human error risk quantification model based on the fuzzy infer⁃ence system is provided to identify key human error types and determine the risk severity of human error.It can further as⁃sess flight safety.This method not only considers the probability of human error,but also considers the impact of human er⁃ror on the cockpit system.This paper employs the human error probability,the error impact probability and the human er⁃ror consequence to be the risk index to quantify human error risk.Take the approach task as a case,the experimental re⁃sults show that the model can accurately describe the relationship between risk severity and the three risk indicators,re⁃duce the influence of experts’subjective judgment on the results and reasonably solve the uncertainty of results caused by insufficient data.
作者
郭云东
孙有朝
GUO Yundong;SUN Youchao(College of Civil Aviation,Nanjing University of Aeronautics and Astronautics,Nanjing 210016,China)
出处
《海军航空工程学院学报》
2020年第4期303-309,共7页
Journal of Naval Aeronautical and Astronautical University
基金
国家自然科学基金委员会与中国民用航空局联合基金资助项目(U1333119)
国防基础科研计划资助项目(JCKY2013605B002)
工信部民机专项资助项目(MJ-2017-J-91)。
关键词
人为差错
风险量化
飞行安全
人为差错概率
模糊推理
human errors
risk quantification
flight safety
human error probability
fuzzy inference system
