Redundancy Allocation Problem for a Continuous-State Series-Parallel System With Degrading Components: Electric Vehicle Application
- Authors
- Chen, Yuan; Yuan, Tao; Bae, Suk Joo
- Issue Date
- Mar-2025
- Publisher
- John Wiley and Sons Ltd
- Keywords
- degradation; gamma process; genetic algorithm; stand-by; system reliability
- Citation
- Quality and Reliability Engineering International, v.41, no.2, pp 719 - 731
- Pages
- 13
- Indexed
- SCIE
SCOPUS
- Journal Title
- Quality and Reliability Engineering International
- Volume
- 41
- Number
- 2
- Start Page
- 719
- End Page
- 731
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212420
- DOI
- 10.1002/qre.3689
- ISSN
- 0748-8017
1099-1638
- Abstract
- System reliability is a critical factor in designing complex engineering systems. Redundancy allocation problem (RAP) has attracted more interest owing to its wide scope of industrial applications for system reliability optimization. RAPs for binary-state and multistate systems have been extensively studied. However, the redundancy allocation for continuous-state systems composed of degrading components has not yet been fully explored. This study attempts to build the RAP for the continuous-state parallel-series system consisting of identical, independent, and nonrepairable components under active and cold-standby redundancy strategies. The degradation of individual components in a system is continuous and modeled by the gamma process. The degradation at the system level is derived according to a deterministic structure function that relates the system degradation to the degradation of its components. Genetic algorithm and exhaustive search method are used to find the cost-optimal redundancy design while satisfying a system reliability requirement. Series-parallel lithium-ion battery pack systems for electric vehicles (EVs) are used as an illustrative example to validate the proposed RAP and optimization model.
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