Reliability assessment of system under a generalized run shock model

Ming GONG; Min XIE; Yaning YANG

doi:10.1017/jpr.2018.83

Reliability assessment of system under a generalized run shock model

Ming GONG, Min XIE, Yaning YANG

Shenzhen Research Institute

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

32 Citations (Scopus)

Abstract

In this paper we are concerned with modelling the reliability of a system subject to external shocks. In a run shock model, the system fails when a sequence of shocks above a threshold arrive in succession. Nevertheless, using a single threshold to measure the severity of a shock is too critical in real practice. To this end, we develop a generalized run shock model with two thresholds. We employ a phase-type distribution to model the damage size and the inter-arrival time of shocks, which is highly versatile and may be used to model many quantitative features of random phenomenon. Furthermore, we use the Markovian property to construct a multi-state system which degrades with the arrival of shocks. We also provide a numerical example to illustrate our results.

Original language	English
Pages (from-to)	1249-1260
Journal	Journal of Applied Probability
Volume	55
Issue number	4
DOIs	https://doi.org/10.1017/jpr.2018.83
Publication status	Published - Dec 2018

Research Keywords

inter-arrival time
Markov chain
mean residual life
phase-type distribution
reliability function
Run shock model

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title = "Reliability assessment of system under a generalized run shock model",

abstract = "In this paper we are concerned with modelling the reliability of a system subject to external shocks. In a run shock model, the system fails when a sequence of shocks above a threshold arrive in succession. Nevertheless, using a single threshold to measure the severity of a shock is too critical in real practice. To this end, we develop a generalized run shock model with two thresholds. We employ a phase-type distribution to model the damage size and the inter-arrival time of shocks, which is highly versatile and may be used to model many quantitative features of random phenomenon. Furthermore, we use the Markovian property to construct a multi-state system which degrades with the arrival of shocks. We also provide a numerical example to illustrate our results.",

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author = "Ming GONG and Min XIE and Yaning YANG",

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T1 - Reliability assessment of system under a generalized run shock model

AU - GONG, Ming

AU - XIE, Min

AU - YANG, Yaning

PY - 2018/12

Y1 - 2018/12

N2 - In this paper we are concerned with modelling the reliability of a system subject to external shocks. In a run shock model, the system fails when a sequence of shocks above a threshold arrive in succession. Nevertheless, using a single threshold to measure the severity of a shock is too critical in real practice. To this end, we develop a generalized run shock model with two thresholds. We employ a phase-type distribution to model the damage size and the inter-arrival time of shocks, which is highly versatile and may be used to model many quantitative features of random phenomenon. Furthermore, we use the Markovian property to construct a multi-state system which degrades with the arrival of shocks. We also provide a numerical example to illustrate our results.

AB - In this paper we are concerned with modelling the reliability of a system subject to external shocks. In a run shock model, the system fails when a sequence of shocks above a threshold arrive in succession. Nevertheless, using a single threshold to measure the severity of a shock is too critical in real practice. To this end, we develop a generalized run shock model with two thresholds. We employ a phase-type distribution to model the damage size and the inter-arrival time of shocks, which is highly versatile and may be used to model many quantitative features of random phenomenon. Furthermore, we use the Markovian property to construct a multi-state system which degrades with the arrival of shocks. We also provide a numerical example to illustrate our results.

KW - inter-arrival time

KW - Markov chain

KW - mean residual life

KW - phase-type distribution

KW - reliability function

KW - Run shock model

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U2 - 10.1017/jpr.2018.83

DO - 10.1017/jpr.2018.83

M3 - RGC 21 - Publication in refereed journal

SN - 0021-9002

VL - 55

SP - 1249

EP - 1260

JO - Journal of Applied Probability

JF - Journal of Applied Probability

IS - 4

ER -

Reliability assessment of system under a generalized run shock model

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Research Keywords

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GRF: Reliability Analysis and Maintenance of Multi-state Repairable Systems

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Reliability assessment of system under a generalized run shock model

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Research Keywords

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GRF: Reliability Analysis and Maintenance of Multi-state Repairable Systems

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