عنوان
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Tolerance limits for minimal repair times of a series system with Rayleigh distributed component lifetimes
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نوع پژوهش
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مقاله چاپ شده
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کلیدواژهها
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$k$-Record data, Minimal repair strategy, $k$-component series system, Rayleigh distribution, $\beta$-content and $\beta$-expectation tolerance limits.
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چکیده
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Assuming that component lifetimes are Rayleigh distributed, guaranteed-coverage and expected-coverage tolerance limits are computed for minimal repair times of series systems. In the frequentist setting, the empirical information about the unknown Rayleigh parameter is provided by a type-II right censored sample of component lifetimes. A Bayesian approach for constructing tolerance limits is also proposed, which may be viewed as a generalization of the frequentist viewpoint since classical and Bayesian perspectives harmonize in the noninformative case. Moreover, the accuracy of a given tolerance limit and the number of failures needed to attain a desired accuracy level are derived. Bayesian tolerance limits are shown to be more accurate than the corresponding frequentist ones, especially when prior knowledge is relevant. Optimal sample sizes for constructing tolerance limits are determined by minimizing appropriate cost functions. In general, the Bayesian point of view allows the reliability engineer to shorten test duration and save testing costs. A numerical example is presented for illustrative and comparative purposes.
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پژوهشگران
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آرتور فرناندز (نفر سوم)، مهران نقی زاده قمی (نفر دوم)، سیدمحمدتقی کامل میرمصطفائی (نفر اول)
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