Reliability Analysis of Nonlinear Vibratory Systems Under Non-Gaussian Loads Using a Sensitivity-Based Propagation of Moments

Papadimitriou, Dimitrios; Mourelatos, Zissimos P.; Patil, Santosh; Hu, Zhen; Tsianika, Vasiliki; Geroulas, Vasileios

doi:10.1115/1.4046070

Cited by 5 publications

(2 citation statements)

References 30 publications

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“…Reliability analyses are widely used in industry, ranging from structural engineering [3][4][5] to mechanical engineering [6,7] and material design [8][9][10]. Various reliability analysis strategies have been developed to estimate the probability of technical structure failure effectively.…”

Section: Introductionmentioning

confidence: 99%

Dynamic reliability calculation of random structures by conditional probability method

Kubica,

Ahmed,

Muhammad

et al. 2024

Eksploatacja i Niezawodność – Maintenance and Reliability

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For the composite random reliability problem, based on the Markov hypothesis of the dynamic response spanning action, two procedures of conditional probability explanation are accomplished: to derive the 2nd-order approximate expression for the calculation of the dynamic reliability of the random structure based on Taylor expansion method; secondly is to determine a mathematical sampling technique based on the Kriging model derive from the statistical analysis. Between them, the sampling procedure by the Kriging interpolation model meets the nonlinear correlation among dynamic reliability and structural random boundaries. Consequently, the finite element results can be used instantly to anatomize the significance of random structural parameters on dynamic reliability, avoiding the tedious and cumbersome theoretical derivation. The numerical example outcomes demonstrate that the numerical sampling method established upon the Kriging model is inconsiderate to the ratio to represent the dispersion and has additional benefits in computational verisimilitude and calculation productivity

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Section: Introductionmentioning

confidence: 99%

Dynamic reliability calculation of random structures by conditional probability method

Kubica,

Ahmed,

Muhammad

et al. 2024

Eksploatacja i Niezawodność – Maintenance and Reliability

View full text Add to dashboard Cite

show abstract

“…Reliability analysis is widely used in industrial applications, ranging from structural (Chojaczyk et al 2015;Mansour et al 2019a;Hultgren et al 2021a) and mechanical engineering (Papadimitriou et al 2020;Sandberg et al 2017) to materials design (Liu et al 2018;Mansour et al 2019b;Alzweighi et al 2020). Regardless of the application, the reliability is defined as the probability that an intended function is satisfied in the presence of uncertainties.…”

Section: Introductionmentioning

confidence: 99%

Second-order reliability methods: a review and comparative study

Mansour

Olsson

et al. 2021

Struct Multidisc Optim

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Second-order reliability methods are commonly used for the computation of reliability, defined as the probability of satisfying an intended function in the presence of uncertainties. These methods can achieve highly accurate reliability predictions owing to a second-order approximation of the limit-state function around the Most Probable Point of failure. Although numerous formulations have been developed, the lack of full-scale comparative studies has led to a dubiety regarding the selection of a suitable method for a specific reliability analysis problem. In this study, the performance of commonly used second-order reliability methods is assessed based on the problem scale, curvatures at the Most Probable Point of failure, first-order reliability index, and limit-state contour. The assessment is based on three performance metrics: capability, accuracy, and robustness. The capability is a measure of the ability of a method to compute feasible probabilities, i.e., probabilities between 0 and 1. The accuracy and robustness are quantified based on the mean and standard deviation of relative errors with respect to exact reliabilities, respectively. This study not only provides a review of classical and novel second-order reliability methods, but also gives an insight on the selection of an appropriate reliability method for a given engineering application.

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Structural reliability analysis based on interval analysis method in statistical energy analysis framework

Song

Zhang

2021

Mechanics Research Communications

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Reliability Analysis of Nonlinear Vibratory Systems Under Non-Gaussian Loads Using a Sensitivity-Based Propagation of Moments

Cited by 5 publications

References 30 publications

Dynamic reliability calculation of random structures by conditional probability method

Dynamic reliability calculation of random structures by conditional probability method

Second-order reliability methods: a review and comparative study

Structural reliability analysis based on interval analysis method in statistical energy analysis framework

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