Reliability of Multicomponent Stress-Strength Model Based on Bivariate Generalized Exponential Distribution

Q3 Business, Management and Accounting American Journal of Mathematical and Management Sciences Pub Date : 2022-02-10 DOI:10.1080/01966324.2022.2032500
Mustafa Nadar, Elif Erçelik
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引用次数: 0

Abstract

Abstract This paper deals with a system consisting of k identical strength components where each side of a given component is composed of a pair of dependent elements. These elements have bivariate generalized exponential distribution and each element is put through a common random stress T which has generalized exponential distribution. The system is considered as working only if at least s out of strength random variables overcome the random stress. The multicomponent reliability of the system is defined by at least s of the exceed where and for Estimation of the multicomponent reliability may help the safety management and prevent some catastrophic disaster. We estimate multicomponent reliability by using classical and Bayesian approaches. Since the explicit form of stress-strength reliability estimate is not accessible, Lindley’s approximation and the Markov Chain Monte Carlo (MCMC) methods are used to develop Bayes estimate of Further, numerical studies are conducted and the reliability estimators are compared through the estimated risks (ER).
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基于二元广义指数分布的多组分应力强度模型的可靠性
摘要本文讨论了一个由k个相同强度分量组成的系统,其中给定分量的每一侧都由一对相关元素组成。这些单元具有二元广义指数分布,每个单元都经历一个具有广义指数分布的公共随机应力T。只有当至少s个强度不足的随机变量克服了随机应力时,系统才被认为是工作的。系统的多组分可靠性由超过的至少s来定义,多组分的可靠性估计有助于安全管理和预防一些灾难。我们使用经典和贝叶斯方法来估计多分量可靠性。由于无法获得应力强度可靠性估计的显式形式,因此使用Lindley近似和马尔可夫链蒙特卡罗(MCMC)方法来发展的Bayes估计。此外,进行了数值研究,并通过估计风险(ER)对可靠性估计进行了比较。
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来源期刊
American Journal of Mathematical and Management Sciences
American Journal of Mathematical and Management Sciences Business, Management and Accounting-Business, Management and Accounting (all)
CiteScore
2.70
自引率
0.00%
发文量
5
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