Allocation strategies of standby redundancies in series/parallel system

Jianbin Chen; Yiying Zhang; Peng Zhao; Shan Zhou

doi:10.1080/03610926.2017.1313984

Allocation strategies of standby redundancies in series/parallel system

Jianbin Chen, Yiying Zhang, Peng Zhao^*, Shan Zhou

^*Corresponding author for this work

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

12 Citations (Scopus)

Abstract

This article deals with the topic of optimal allocation of two standby redundancies in a two-component series/parallel system. There are two original components C₁ and C₂ which can be used to construct a series/parallel system, and two spares R₁ (same as C₁) and R₂ (different from both C₁ and C₂) at hand with them being standby redundancies so as to enhance the reliability level of the system. The goal for an engineer is to seek after the optimal allocation policy in this framework. It is shown that, for the series structure, the engineer should allocate R₂ to C₁ and R₁ to C₂ provided that C₁ (or R₁) performs either the best or worst among all the units; otherwise, the allocation policy should be reversed. For the parallel structure, the optimal allocation strategy is just opposed to that of series case. We also provide some numerical examples for illustrating the theoretical results.

Original language	English
Pages (from-to)	708-724
Number of pages	17
Journal	Communications in Statistics - Theory and Methods
Volume	47
Issue number	3
DOIs	https://doi.org/10.1080/03610926.2017.1313984
Publication status	Published - 1 Feb 2018
Externally published	Yes

Keywords

Hazard rate order
Parallel system
Standby redundancies
Usual stochastic order
series system

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10.1080/03610926.2017.1313984

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title = "Allocation strategies of standby redundancies in series/parallel system",

abstract = "This article deals with the topic of optimal allocation of two standby redundancies in a two-component series/parallel system. There are two original components C1 and C2 which can be used to construct a series/parallel system, and two spares R1 (same as C1) and R2 (different from both C1 and C2) at hand with them being standby redundancies so as to enhance the reliability level of the system. The goal for an engineer is to seek after the optimal allocation policy in this framework. It is shown that, for the series structure, the engineer should allocate R2 to C1 and R1 to C2 provided that C1 (or R1) performs either the best or worst among all the units; otherwise, the allocation policy should be reversed. For the parallel structure, the optimal allocation strategy is just opposed to that of series case. We also provide some numerical examples for illustrating the theoretical results.",

keywords = "Hazard rate order, Parallel system, Standby redundancies, Usual stochastic order, series system",

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AU - Chen, Jianbin

AU - Zhang, Yiying

AU - Zhao, Peng

AU - Zhou, Shan

PY - 2018/2/1

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N2 - This article deals with the topic of optimal allocation of two standby redundancies in a two-component series/parallel system. There are two original components C1 and C2 which can be used to construct a series/parallel system, and two spares R1 (same as C1) and R2 (different from both C1 and C2) at hand with them being standby redundancies so as to enhance the reliability level of the system. The goal for an engineer is to seek after the optimal allocation policy in this framework. It is shown that, for the series structure, the engineer should allocate R2 to C1 and R1 to C2 provided that C1 (or R1) performs either the best or worst among all the units; otherwise, the allocation policy should be reversed. For the parallel structure, the optimal allocation strategy is just opposed to that of series case. We also provide some numerical examples for illustrating the theoretical results.

AB - This article deals with the topic of optimal allocation of two standby redundancies in a two-component series/parallel system. There are two original components C1 and C2 which can be used to construct a series/parallel system, and two spares R1 (same as C1) and R2 (different from both C1 and C2) at hand with them being standby redundancies so as to enhance the reliability level of the system. The goal for an engineer is to seek after the optimal allocation policy in this framework. It is shown that, for the series structure, the engineer should allocate R2 to C1 and R1 to C2 provided that C1 (or R1) performs either the best or worst among all the units; otherwise, the allocation policy should be reversed. For the parallel structure, the optimal allocation strategy is just opposed to that of series case. We also provide some numerical examples for illustrating the theoretical results.

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KW - Parallel system

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KW - Usual stochastic order

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Allocation strategies of standby redundancies in series/parallel system

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Keywords

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