Minimum risk sequential point estimation of the stress-strength reliability parameter for exponential distribution

IF 0.6 4区 数学 Q4 STATISTICS & PROBABILITY
E. Mahmoudi, Ashkan Khalifeh, V. Nekoukhou
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引用次数: 10

Abstract

Abstract In this article, using purely and two-stage sequential procedures, the problem of minimum risk point estimation of the reliability parameter (R) under the stress–strength model, in case the loss function is squared error plus sampling cost, is considered when the random stress (X) and the random strength (Y) are independent and both have exponential distributions with different scale parameters. The exact distribution of the total sample size and explicit formulas for the expected value and mean squared error of the maximum likelihood estimator of the reliability parameter under the stress–strength model are provided under the two-stage sequential procedure. Using the law of large numbers and Monte Carlo integration, the exact distribution of the stopping rule under the purely sequential procedure is approximated. Moreover, it is shown that both proposed sequential procedures are finite and for special cases the exact distribution of stopping times has a degenerate distribution at the initial sample size. The performances of the proposed methodologies are investigated with the help of simulations. Finally, using a real data set, the procedures are clearly illustrated.
指数分布下应力-强度可靠性参数的最小风险序贯点估计
摘要本文采用纯粹的两阶段顺序过程,研究了在随机应力(X)和随机强度(Y)独立且均具有不同尺度参数的指数分布的情况下,当损失函数为误差平方加抽样代价时,应力-强度模型下可靠性参数R的最小风险点估计问题。给出了应力-强度模型下可靠性参数最大似然估计量的期望值和均方误差的显式表达式。利用大数定律和蒙特卡罗积分,逼近了纯顺序过程下停止规律的精确分布。此外,还证明了所提出的两种顺序过程都是有限的,并且在特殊情况下,停止时间的精确分布在初始样本量处具有退化分布。通过仿真研究了所提方法的性能。最后,通过一个实际数据集,对该方法进行了清晰的说明。
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来源期刊
CiteScore
1.40
自引率
12.50%
发文量
20
期刊介绍: The purpose of Sequential Analysis is to contribute to theoretical and applied aspects of sequential methodologies in all areas of statistical science. Published papers highlight the development of new and important sequential approaches. Interdisciplinary articles that emphasize the methodology of practical value to applied researchers and statistical consultants are highly encouraged. Papers that cover contemporary areas of applications including animal abundance, bioequivalence, communication science, computer simulations, data mining, directional data, disease mapping, environmental sampling, genome, imaging, microarrays, networking, parallel processing, pest management, sonar detection, spatial statistics, tracking, and engineering are deemed especially important. Of particular value are expository review articles that critically synthesize broad-based statistical issues. Papers on case-studies are also considered. All papers are refereed.
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