模糊可靠性研究
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摘要
可靠性是度量产品质量的重要指标,产品的可靠性问题不仅影响产品性能,而且影响一个国家的国计民生和社会的安全与稳定。努力提高产品的质量可靠性,不仅可以防止故障和事故的发生,尤其是灾难性事故的发生,而且可以避免产品开发时频繁的“事后更改”现象,从而缩短开发周期、节约开发成本、降低维修费用和其他由于可靠性不高而产生的附加费用。因此,可靠性成为各国科研机构和学者致力研究的重点和热点。
随着人们对可靠性研究的不断深入,人们发现许多实际工程问题不仅存在随机性,而且存在广泛的模糊性,特别是在对小样本进行可靠性分析时,模糊性对分析结果起到决定性的影响。因此,人们将模糊理论引入到可靠性的研究中,开展了模糊可靠性的研究。模糊可靠性的研究虽只有20多年的历史,却吸引了国内外众多优秀学者致力于此,并取得了很大的理论成果。但随着可靠性理论的不断发展,模糊可靠性分析的理论和方法还有待于进一步完善和发展。本文基于现有可靠性的研究成果,在以下几方面对模糊可靠性进行了较为深入的研究:
(1)深入研究了用广义模糊强度表示的模糊安全状态情况下的模糊可靠度计算形式。提出了一种简单易行的模糊安全事件隶属函数定义方式,完善了模糊可靠度计算理论。建立了以模糊可靠度为约束条件的模糊可靠性优化设计模型,给出了用遗传算法对该模型进行求解的方法。
(2)在目前利用Bayes方法进行模糊可靠性分析研究的基础上,提出了比较完整的模糊Bayes可靠性预测的方法。将神经网络和遗传算法等智能计算和优化方法引入基于Bayes理论的可靠性预测方法中,为模糊可靠性估计的隶属函数的确定提供了有效途径。
(3)把截尾试验中生产者风险和消费者风险定义成模糊数,在确定的可行方案中,利用隶属度来确定最优的截尾方案。提出在对可用语言变量描述的截尾数据进行可靠性分析时,不应把截尾数据看成是无信息数据,而应将模糊截尾数据转换成完全数据,给出了相应的转换方法,并利用Bayes方法进行了模糊可靠性分析。
(4)讨论了材料的模糊S-N曲线和P-S-N曲线的生成方法,克服了常规方法中由于没有考虑试验数据的模糊性而造成的不足。介绍了用极大似然法确定P-S-N曲线的方法。提出了一种利用神经网络模拟P-S-N曲线生成的方法,有效地避免由于试验样本少且离散性太大而产生P-S-N曲线与实际不相符的现象。
模糊可靠性的理论还有很多方面需要完善,本文只从几个方面进行了较为深入的研究,模糊可靠性理论的完善还需要更多的学者的不断努力。
Reliability is one of the most important indices to evaluate the quality of product. It has become a most popular research direction. With the development of research, people begin to realize that there exist not only randomness but also fuzziness in practical problems. So people begin to study fuzzy reliability. The theory and method of fuzzy reliability are not perfect. The paper has studied several aspects of fuzzy reliability as follows:
For the definition of fuzzy safety state is different, the calculation of fuzzy reliability is different under different condition. A simple and practical method, to define membership function of fuzzy event denoted by generalize fuzzy strength, is developed in the paper. Then fuzzy reliability optimization model is developed. In the model, fuzzy reliability is regarded as constraint and genetic algorithm method is introduced to resolve it.
The most efficient means to analyse the reliability of small sample is Bayes method because it takes full use of priori information. The theory of fuzzy Bayes reliability prediction is not perfect. Based on current research results, a systematic method of fuzzy Bayes reliability prediction is developed. Neural network and genetic algorithm are introduced into the method.
Censored test plan cannot meet with actual producer risk and customer risk because the censored number must be integer. Producer risk and customer risk are defined as fuzzy numbers and the optimum censored test plan is determined according to the membership grade after determining the feasible region. Fuzzy censored numbers described with linguistic variables are transformed into completed numbers, then fuzzy Bayes reliability method is introduced to analyse them.
Fuzzy S-N curve is introduced in the paper. How to create the ideal P-S-N curve with the least test numbers is an important problem to be resolved. A maximum likelihood method to determine P-S-N curve is introduced and a method with neural network simulating P-S-N curve is developed in the paper. The method can avoid the problem that the P-S-N curve doesn't meet reality when the samples are scattered.
随着人们对可靠性研究的不断深入,人们发现许多实际工程问题不仅存在随机性,而且存在广泛的模糊性,特别是在对小样本进行可靠性分析时,模糊性对分析结果起到决定性的影响。因此,人们将模糊理论引入到可靠性的研究中,开展了模糊可靠性的研究。模糊可靠性的研究虽只有20多年的历史,却吸引了国内外众多优秀学者致力于此,并取得了很大的理论成果。但随着可靠性理论的不断发展,模糊可靠性分析的理论和方法还有待于进一步完善和发展。本文基于现有可靠性的研究成果,在以下几方面对模糊可靠性进行了较为深入的研究:
(1)深入研究了用广义模糊强度表示的模糊安全状态情况下的模糊可靠度计算形式。提出了一种简单易行的模糊安全事件隶属函数定义方式,完善了模糊可靠度计算理论。建立了以模糊可靠度为约束条件的模糊可靠性优化设计模型,给出了用遗传算法对该模型进行求解的方法。
(2)在目前利用Bayes方法进行模糊可靠性分析研究的基础上,提出了比较完整的模糊Bayes可靠性预测的方法。将神经网络和遗传算法等智能计算和优化方法引入基于Bayes理论的可靠性预测方法中,为模糊可靠性估计的隶属函数的确定提供了有效途径。
(3)把截尾试验中生产者风险和消费者风险定义成模糊数,在确定的可行方案中,利用隶属度来确定最优的截尾方案。提出在对可用语言变量描述的截尾数据进行可靠性分析时,不应把截尾数据看成是无信息数据,而应将模糊截尾数据转换成完全数据,给出了相应的转换方法,并利用Bayes方法进行了模糊可靠性分析。
(4)讨论了材料的模糊S-N曲线和P-S-N曲线的生成方法,克服了常规方法中由于没有考虑试验数据的模糊性而造成的不足。介绍了用极大似然法确定P-S-N曲线的方法。提出了一种利用神经网络模拟P-S-N曲线生成的方法,有效地避免由于试验样本少且离散性太大而产生P-S-N曲线与实际不相符的现象。
模糊可靠性的理论还有很多方面需要完善,本文只从几个方面进行了较为深入的研究,模糊可靠性理论的完善还需要更多的学者的不断努力。
Reliability is one of the most important indices to evaluate the quality of product. It has become a most popular research direction. With the development of research, people begin to realize that there exist not only randomness but also fuzziness in practical problems. So people begin to study fuzzy reliability. The theory and method of fuzzy reliability are not perfect. The paper has studied several aspects of fuzzy reliability as follows:
For the definition of fuzzy safety state is different, the calculation of fuzzy reliability is different under different condition. A simple and practical method, to define membership function of fuzzy event denoted by generalize fuzzy strength, is developed in the paper. Then fuzzy reliability optimization model is developed. In the model, fuzzy reliability is regarded as constraint and genetic algorithm method is introduced to resolve it.
The most efficient means to analyse the reliability of small sample is Bayes method because it takes full use of priori information. The theory of fuzzy Bayes reliability prediction is not perfect. Based on current research results, a systematic method of fuzzy Bayes reliability prediction is developed. Neural network and genetic algorithm are introduced into the method.
Censored test plan cannot meet with actual producer risk and customer risk because the censored number must be integer. Producer risk and customer risk are defined as fuzzy numbers and the optimum censored test plan is determined according to the membership grade after determining the feasible region. Fuzzy censored numbers described with linguistic variables are transformed into completed numbers, then fuzzy Bayes reliability method is introduced to analyse them.
Fuzzy S-N curve is introduced in the paper. How to create the ideal P-S-N curve with the least test numbers is an important problem to be resolved. A maximum likelihood method to determine P-S-N curve is introduced and a method with neural network simulating P-S-N curve is developed in the paper. The method can avoid the problem that the P-S-N curve doesn't meet reality when the samples are scattered.
引文
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[2] 周源泉,翁朝曦.可靠性评定.北京:科学出版社,1990
[3] 高镇同.疲劳可靠性.北京:北京航空航天大学出版社,2000
[4] 牟致忠.机械可靠性设计.北京:高等教育出版社,1993
[5] 黄洪钟.机械传动可靠性理论与应用.北京:中国科学技术出版社,1995
[6] 杨为民,盛一兴.系统可靠性数字仿真.北京:北京航空航天大学出版社,1990
[7] 郭志坚.可靠性工程技术.机械电子工业部科技司,1992
[8] 黄洪钟.影响机械结构可靠性的不确定性分析.机械设计,1995,(9):56~57
[9] 吕震宙,冯蕴雯.结构可靠性问题研究的若干进展.力学进展,2000,30(1):21~28
[10] 黄洪钟.机械结构广义强度的模糊可靠性计算理论.机械工程学报,2001,37(6):101~108
[11] Cai K-Y. System failure engineering and fuzzy methodology: an introductory overview. Fuzzy Sets and Systems, 1996, 83(2): 113~133
[12] 傅立.灰色系统理论及其应用.北京:科学技术文献出版社,1992
[13] 高镇同,熊峻江.疲劳/断裂可靠性研究现状与展望.机械强度,1995,17(3):61~80
[14] Kaufmann A.Introduction to the Fuzzy Subsets. New York: Academic Press, 1975
[15] Viertl R.Reliability data collection. In: Colombari V ed. Reliability Data Collection. Berlin: Springer Press, 1980: 206~211
[16] Viertl R.Statistics with non-precise data. Journal of Computing and Information Technology, 1996, 4(4): 215~224
[17] 黄洪钟.模糊设计.北京:机械工业出版社,1999
[18] 黄洪钟,王金诺,杨旭华.关于模糊可靠性若干基本问题的探讨——将清晰工作时间拓广到模糊工作时间.机械工程学报,1994,6(34):63~72
[19] 黄洪钟.基于模糊状态的机械系统可靠性理论及应用的研究.机械设计,1995,(9):11~13
[20] 黄洪钟.模糊机械科学与技术的立论依据和理论体系,中国机械工程,1996,7(1):35~37
[21] 董玉革.机械模糊可靠性设计.北京:机械工业出版社,2000
[22] 黄洪钟.基于模糊失效准则的机械结构广义静强度的模糊可靠性计算理论.机械强度,2000,22(1):36~40
[23] 黄洪钟.结构强度的模糊可靠性分析.机械科学与技术,1994,(2):1~5
[24] Huang Hongzhong. Calculation of fuzzy reliability in the case of random stress and fuzzy fatigue strength. Chinese Journal of Mechanical Engineering, 2000, 13(3): 197~200
[25] 赵国藩.工程结构可靠性理论与应用.大连:大连理工大学出版社,1996
[26] 田志刚,关立文,周峰等.基于连续备择集的模糊综合评判.机械,2000,28(4):12~16
[27] 张艳丽,赵建平.设备重要度的模糊综合评判.南京化工大学学报,1999,21(6):40~43
[28] 尚朝轩,刘利民,马彦恒.模糊综合评判在故障训练仿真器评估系统中的应用.计算机工程与应用,1999,(7):117~118
[29] 邵新宇,李培根.机床设备选择的多级模糊综合评判模型.华中理工大学学报,2000,28(10):1~3
[30] 王牛,方道红.模糊综合评判在后方军械仓库安全评价中的应用.军械工程学院学报,2002,12(3):75~78
[31] S.K.Sinha. Bayes estimation of the parameters and reliability function of the 3-parameter Weibull distribution. IEEE Transaction on Reliability, 1998, 37(4): 364~369
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