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거리 지표 기반의 공간 상관성을 고려한 열화 모형 구축에 관한 연구Degradation Modeling Considering Spatial Correlations Based on Distance Indicators

Other Titles
Degradation Modeling Considering Spatial Correlations Based on Distance Indicators
Authors
한종훈배석주
Issue Date
Jun-2026
Publisher
한국신뢰성학회
Keywords
Spatial Correlation; Nonlinear Wiener Process; Degradation Model
Citation
신뢰성 응용연구, v.26, no.2, pp 91 - 99
Pages
9
Indexed
KCI
Journal Title
신뢰성 응용연구
Volume
26
Number
2
Start Page
91
End Page
99
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/219171
DOI
10.33162/JAR.2026.6.26.2.091
ISSN
1738-9895
2733-8320
Abstract
Purpose: In hydrogen fuel cell stacks, degradation in one cell can accelerate degradation in neighboring cells. For this reason, accurately predicting the lifetime of a stack requires accounting for both individual cell data and spatial influences among adjacent cells. Therefore, this study aims to propose a degradation model that incorporates spatial correlation information. Methods: The proposed approach applies a degradation model that explicitly incorporates spatial correlation among individual cells within the stack, employing exponential covariance functions based on Euclidean and Mahalanobis distances. Results: The proposed method was applied to degradation data from 18 cells of a stack and demonstrated a lower prediction error compared to an independent cell model. Estimated correlations were stronger among physically closer cells, supporting the presence of localized inter-cell interactions and degradation propagation effects. Conclusion: This study suggests that modeling spatial dependence among cells significantly improves the accuracy and reliability of lifetime predictions for hydrogen fuel cell stacks. Extending this approach to a full multivariate and potentially mixed-effects spatial framework across all cells is a key direction for building more robust prognostic systems.
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