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Autori principali: Cho, Yongkyu, Baik, Seung Min, Ko, Young Myoung
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2305.06919
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author Cho, Yongkyu
Baik, Seung Min
Ko, Young Myoung
author_facet Cho, Yongkyu
Baik, Seung Min
Ko, Young Myoung
contents This paper considers a circular k-out-of-n: G balance system equipped with homogeneous and stationary units. Building on previous research by Endharta et al. (Reliability Engineering & System Safety, 2018), we propose a new balance definition in circular k-out-of-n: G balance systems based on the concept of center of gravity. According to this condition, a circular k-out-of-n: G balance system is considered balanced if its center of gravity is located at the origin. This new balance condition is not only simple but also advantageous as it covers the previous two balance conditions of symmetry and proportionality. To evaluate the system's reliability, we consider the minimum tie-sets, and extensive numerical studies verify the enhancement of system reliability resulting from the proposed balance definition.
format Preprint
id arxiv_https___arxiv_org_abs_2305_06919
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Reliability Improvement of Circular k-out-of-n: G Balanced Systems through Center of Gravity
Cho, Yongkyu
Baik, Seung Min
Ko, Young Myoung
Systems and Control
This paper considers a circular k-out-of-n: G balance system equipped with homogeneous and stationary units. Building on previous research by Endharta et al. (Reliability Engineering & System Safety, 2018), we propose a new balance definition in circular k-out-of-n: G balance systems based on the concept of center of gravity. According to this condition, a circular k-out-of-n: G balance system is considered balanced if its center of gravity is located at the origin. This new balance condition is not only simple but also advantageous as it covers the previous two balance conditions of symmetry and proportionality. To evaluate the system's reliability, we consider the minimum tie-sets, and extensive numerical studies verify the enhancement of system reliability resulting from the proposed balance definition.
title Reliability Improvement of Circular k-out-of-n: G Balanced Systems through Center of Gravity
topic Systems and Control
url https://arxiv.org/abs/2305.06919