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Physics-embedding multi-response regressor for time-variant system reliability assessment

Author

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  • Song, Lu-Kai
  • Tao, Fei
  • Li, Xue-Qin
  • Yang, Le-Chang
  • Wei, Yu-Peng
  • Beer, Michael

Abstract

Efficient time-variant reliability assessment for complex systems is of great interest but challenging as the highly complex multiple output responses under time-variant uncertainties are hard to quantify. The task becomes even more challenging if the interconnected dependencies between multiple failure modes are involved. In this study, an eXtreme physics-embedding multi-response regressor (X-PMR) is presented for time-variant system reliability assessment. Firstly, by transforming time-variant multiple responses to time-invariant extreme values, an eXtreme multi-domain transformation concept is presented, to establish the time-invariant multi-input multi-output (TiMIMO) dataset; moreover, by embedding physics/mathematics knowledge into multi-objective ensemble modeling, a physics-embedding multi-response regressor is proposed, to synchronously construct the surrogate model for highly complex multiple output responses. The validation effectiveness and benefit illustration of the X-PMR method are revealed by introducing three numerical systems (i.e., series system, parallel system and series/parallel hybrid system) and a real application system (i.e., dynamic aeroengine turbine blisk), in comparison with a number of state-of-the-art methods investigated in the literature. The current efforts can provide a novel sight to address the time-variant system reliability assessment problems.

Suggested Citation

  • Song, Lu-Kai & Tao, Fei & Li, Xue-Qin & Yang, Le-Chang & Wei, Yu-Peng & Beer, Michael, 2025. "Physics-embedding multi-response regressor for time-variant system reliability assessment," Reliability Engineering and System Safety, Elsevier, vol. 263(C).
    • Handle: RePEc:eee:reensy:v:263:y:2025:i:c:s0951832025004636
    DOI: 10.1016/j.ress.2025.111262
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    References listed on IDEAS

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    3. Zhao, Qian & Jia, Xiang & Li, Bingyi & Long, Jiahui & Guo, Bo & Jin, Guang, 2026. "AK-TSESC: A two-stage hybrid active learning Kriging algorithm combining an efficient error-based stopping criterion for time-dependent reliability analysis," Reliability Engineering and System Safety, Elsevier, vol. 265(PB).
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    5. Yang, Shiyuan & Meng, Debiao & Yang, Hengfei & Keshtegar, Behrooz & De Jesus, Abílio M.P. & Zhu, Shun-Peng, 2026. "Adaptive Kriging‑assisted enhanced sparrow search with augmented‑Lagrangian first-order reliability method for highly efficient structural reliability analysis," Reliability Engineering and System Safety, Elsevier, vol. 267(PB).

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