Imprecise probabilities have gained increasing popularity for quantitatively modeling uncertainty under incomplete information in various fields. However, it is still a computationally challenging task to propagate imprecise probabilities because a double-loop procedure is usually involved. In this contribution, a fully decoupled method, termed as active learning-augmented probabilistic integration (ALAPI), is developed to efficiently estimate the failure probability function (FPF) in the presence of imprecise probabilities. Specially, the parameterized probability-box models are of specific concern. By interpreting the failure probability integral from a Bayesian probabilistic integration perspective, the discretization error can be regard...
Uncertainty propagation through the simulation models is critical for computational mechanics engine...
© 2019 Elsevier Ltd Uncertainty propagation through the simulation models is critical for computatio...
System reliability assessment is a critical task for design engineers. Identifying the least reliabl...
Imprecise probability allows quantifying the level of safety of a system taking into account the eff...
Efficient propagation of imprecise probability models is one of the most important, yet challenging ...
The efficient estimation of the failure probability function of rare failure events is a challenging...
Numerical methods play a dominant role in structural reliability analysis, and the goal has long bee...
Structural reliability analysis for rare failure events in the presence of hybrid uncertainties is a...
© 2019 Elsevier Ltd Structural reliability analysis for rare failure events in the presence of hybri...
The efficient propagation of imprecise probabilities through expensive simulators has emerged to be ...
An efficient procedure is proposed to estimate the failure probability function (FPF) with respect t...
Two challenges may exist in the reliability analysis of highly reliable structures in, e.g., aerospa...
Various numerical methods have been extensively studied and used for reliability analysis over the p...
Exact analytic expressions are given to evaluate the reliability of systems consisting of components...
A novel method for estimation of rare event probability is proposed, which works also for computatio...
Uncertainty propagation through the simulation models is critical for computational mechanics engine...
© 2019 Elsevier Ltd Uncertainty propagation through the simulation models is critical for computatio...
System reliability assessment is a critical task for design engineers. Identifying the least reliabl...
Imprecise probability allows quantifying the level of safety of a system taking into account the eff...
Efficient propagation of imprecise probability models is one of the most important, yet challenging ...
The efficient estimation of the failure probability function of rare failure events is a challenging...
Numerical methods play a dominant role in structural reliability analysis, and the goal has long bee...
Structural reliability analysis for rare failure events in the presence of hybrid uncertainties is a...
© 2019 Elsevier Ltd Structural reliability analysis for rare failure events in the presence of hybri...
The efficient propagation of imprecise probabilities through expensive simulators has emerged to be ...
An efficient procedure is proposed to estimate the failure probability function (FPF) with respect t...
Two challenges may exist in the reliability analysis of highly reliable structures in, e.g., aerospa...
Various numerical methods have been extensively studied and used for reliability analysis over the p...
Exact analytic expressions are given to evaluate the reliability of systems consisting of components...
A novel method for estimation of rare event probability is proposed, which works also for computatio...
Uncertainty propagation through the simulation models is critical for computational mechanics engine...
© 2019 Elsevier Ltd Uncertainty propagation through the simulation models is critical for computatio...
System reliability assessment is a critical task for design engineers. Identifying the least reliabl...