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Main Authors: Modok, Bidhan, Chowdhury, Shovan, Kundu, Amarjit
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.15823
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author Modok, Bidhan
Chowdhury, Shovan
Kundu, Amarjit
author_facet Modok, Bidhan
Chowdhury, Shovan
Kundu, Amarjit
contents Researchers and practitioners in the field of reliability engineering and optimization frequently use active redundancy techniques to intensify the performance of systems. In this article, we study allocation strategies of non-matching active redundancies (spares) in coherent systems consisting of possibly dependent and identical components for achieving better system reliability. The dependence of the components is modeled through copulas using the distortion function. Sufficient conditions are derived to establish optimal allocation strategies for two heterogeneous active redundancies at the component or system levels. Moreover, the results are true for the component lifetimes following a general family of parametric distributions. The results guarantee the likelihood ratio (reversed hazard) ordering between the coherent systems at the component level (system level) active redundancies. Some aging properties are also established in this endeavor. Several examples are provided to demonstrate the theoretical results.
format Preprint
id arxiv_https___arxiv_org_abs_2605_15823
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Active Redundancy Allocation Strategy at Component and System Level
Modok, Bidhan
Chowdhury, Shovan
Kundu, Amarjit
Applications
Information Theory
Researchers and practitioners in the field of reliability engineering and optimization frequently use active redundancy techniques to intensify the performance of systems. In this article, we study allocation strategies of non-matching active redundancies (spares) in coherent systems consisting of possibly dependent and identical components for achieving better system reliability. The dependence of the components is modeled through copulas using the distortion function. Sufficient conditions are derived to establish optimal allocation strategies for two heterogeneous active redundancies at the component or system levels. Moreover, the results are true for the component lifetimes following a general family of parametric distributions. The results guarantee the likelihood ratio (reversed hazard) ordering between the coherent systems at the component level (system level) active redundancies. Some aging properties are also established in this endeavor. Several examples are provided to demonstrate the theoretical results.
title Active Redundancy Allocation Strategy at Component and System Level
topic Applications
Information Theory
url https://arxiv.org/abs/2605.15823