Yin, JianhuaDu, Xiaoping2023-02-172023-02-172022-04Yin, J., & Du, X. (2022). High-Dimensional Reliability Method Accounting for Important and Unimportant Input Variables. Journal of Mechanical Design, 144(4), 041702. https://doi.org/10.1115/1.40519821050-0472, 1528-9001https://hdl.handle.net/1805/31294Reliability analysis is a core element in engineering design and can be performed with physical models (limit-state functions). Reliability analysis becomes computationally expensive when the dimensionality of input random variables is high. This work develops a high-dimensional reliability analysis method through a new dimension reduction strategy so that the contributions of unimportant input variables are also accommodated after dimension reduction. Dimension reduction is performed with the first iteration of the first-order reliability method (FORM), which identifies important and unimportant input variables. Then a higher order reliability analysis is performed in the reduced space of only important input variables. The reliability obtained in the reduced space is then integrated with the contributions of unimportant input variables, resulting in the final reliability prediction that accounts for both types of input variables. Consequently, the new reliability method is more accurate than the traditional method which fixes unimportant input variables at their means. The accuracy is demonstrated by three examples.en-USPublisher Policyreliability analysisdimension reductionuncertainty analysisreliability in designArticle