Reducing degradation and age of items in imperfect repair modeling

Maxim Finkelstein; Ji Hwan Cha

doi:10.1007/s11749-022-00813-2

Reducing degradation and age of items in imperfect repair modeling

Research output: Contribution to journal › Article › peer-review

Abstract

We develop new models for imperfect repair and the corresponding generalized renewal processes for stochastic description of repairable items that fail when their degradation reaches the specified deterministic or random threshold. The discussion is based on the recently suggested notion of a random virtual age and is applied to monotone processes of degradation with independent increments. Imperfect repair reduces degradation of an item on failure to some intermediate level. However, for the nonhomogeneous processes, the corresponding age reduction, which sets back the 'clock' of the process, is also performed. Some relevant stochastic comparisons are obtained. It is shown that the cycles of the corresponding generalized imperfect renewal process are stochastically decreasing/increasing depending on the monotonicity properties of the failure rate that describes the random failure threshold of an item.

Original language	English
Pages (from-to)	1058-1081
Number of pages	24
Journal	TEST
Volume	31
Issue number	4
Early online date	5 May 2022
DOIs	https://doi.org/10.1007/s11749-022-00813-2
Publication status	Published - 31 Dec 2022

Keywords

imperfect repair
virtual age
renewal process
remaining lifetime
stochastic comparisons
gamma process

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10.1007/s11749-022-00813-2

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Finkelstein-Hwan-Cha-TEST-2022-Reducing-degradation-and-age-of-items-in-imperfect-repair-modeling
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Embargo ends: 5/05/23

Cite this

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N2 - We develop new models for imperfect repair and the corresponding generalized renewal processes for stochastic description of repairable items that fail when their degradation reaches the specified deterministic or random threshold. The discussion is based on the recently suggested notion of a random virtual age and is applied to monotone processes of degradation with independent increments. Imperfect repair reduces degradation of an item on failure to some intermediate level. However, for the nonhomogeneous processes, the corresponding age reduction, which sets back the 'clock' of the process, is also performed. Some relevant stochastic comparisons are obtained. It is shown that the cycles of the corresponding generalized imperfect renewal process are stochastically decreasing/increasing depending on the monotonicity properties of the failure rate that describes the random failure threshold of an item.

AB - We develop new models for imperfect repair and the corresponding generalized renewal processes for stochastic description of repairable items that fail when their degradation reaches the specified deterministic or random threshold. The discussion is based on the recently suggested notion of a random virtual age and is applied to monotone processes of degradation with independent increments. Imperfect repair reduces degradation of an item on failure to some intermediate level. However, for the nonhomogeneous processes, the corresponding age reduction, which sets back the 'clock' of the process, is also performed. Some relevant stochastic comparisons are obtained. It is shown that the cycles of the corresponding generalized imperfect renewal process are stochastically decreasing/increasing depending on the monotonicity properties of the failure rate that describes the random failure threshold of an item.

KW - imperfect repair

KW - virtual age

KW - renewal process

KW - remaining lifetime

KW - stochastic comparisons

KW - gamma process

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Reducing degradation and age of items in imperfect repair modeling

Abstract

Keywords

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