Reliability Analysis Research Articles

Advances in the Reliability Analysis of Coherent Systems under Limited Data with Confidence Boxes

Advances in the Reliability Analysis of Coherent Systems under Limited Data with Confidence Boxes

Reliability analysis of two adjacent piles in spatially variable unsaturated expansive soil

Reliability analysis of two adjacent piles in spatially variable unsaturated expansive soil

SAMG-based Human Reliability Analysis Method in Support of Level 2 PSA. Part II: Methodology and Application

SAMG-based Human Reliability Analysis Method in Support of Level 2 PSA. Part II: Methodology and Application

The power reliability event simulator tool (PRESTO): A novel approach to distribution system reliability analysis and applications

The power reliability event simulator tool (PRESTO): A novel approach to distribution system reliability analysis and applications

Advancing green and white assessment: DFT-assisted spectrofluorimetry for accurate favipiravir quantification in human plasma.

Advancing green and white assessment: DFT-assisted spectrofluorimetry for accurate favipiravir quantification in human plasma.

Efficient reliability analysis method for non-linear truss structures using machine learning-based uncertainty quantification

Efficient reliability analysis method for non-linear truss structures using machine learning-based uncertainty quantification

Subspace enhanced active learning method for high-dimensional reliability analysis

Subspace enhanced active learning method for high-dimensional reliability analysis

Evolution law of corrosion characteristics and time-dependent reliability analysis for service life prediction of corroded bridge cables

Evolution law of corrosion characteristics and time-dependent reliability analysis for service life prediction of corroded bridge cables

A theoretically-consistent parallel enrichment strategy for Bayesian active learning reliability analysis

A theoretically-consistent parallel enrichment strategy for Bayesian active learning reliability analysis

Adaptive Kriging-assisted multi-fidelity subset simulation for reliability analysis

Adaptive Kriging-assisted multi-fidelity subset simulation for reliability analysis

A new statistical model with simulation study and reliability analysis of an audio and podcast tool

A new statistical model with simulation study and reliability analysis of an audio and podcast tool

Reliability analysis of half-/full-bridge hybrid MMCs based on submodule correlation

Reliability analysis of half-/full-bridge hybrid MMCs based on submodule correlation

Efficient reliability analysis of slopes in spatially variable soils with active learning-assisted bootstrap polynomial chaos expansion

Efficient reliability analysis of slopes in spatially variable soils with active learning-assisted bootstrap polynomial chaos expansion

Reliability analysis of the intricacies of interfacial trap charges in HD-VS-FeFinFET and its applicability as CMOS inverter

Reliability analysis of the intricacies of interfacial trap charges in HD-VS-FeFinFET and its applicability as CMOS inverter

A new multiple stochastic Kriging model for active learning surrogate-assisted reliability analysis

A new multiple stochastic Kriging model for active learning surrogate-assisted reliability analysis

Towards a single-loop Gaussian process regression based-active learning method for time-dependent reliability analysis

Towards a single-loop Gaussian process regression based-active learning method for time-dependent reliability analysis

Reliability Analysis of Three-Dimensional Slopes Considering the Soil Spatial Variability Based on Particle Swarm Optimization Algorithm

This paper presents a new algorithm for assessing the reliability of three-dimensional (3D) slope stability considering the spatial variability of soil based on the Particle Swarm Optimization (PSO) algorithm. First, a 3D random field is generated using the Karhunen–Loève (K-L) expansion method. Then, the simplified Bishop method of limit equilibrium is coupled with the PSO algorithm to calculate safety factors of the slope. Finally, the failure probability of the slope is determined using the Monte Carlo Simulation method. After validating the rationality of the proposed method through a typical case study, this paper offers an in-depth examination of how soil spatial variability affects the stability of 3D slopes. It is observed that, given identical soil correlation lengths, slope geometric parameters, and failure surface widths, the failure probability is positively correlated with soil spatial variability parameters, while the mean safety factor demonstrates an inverse relationship with these variability parameters. Additionally, the failure probability tends to increase as the soil correlation lengths increase, and it also escalates with the expansion of the failure surface width. In contrast, the mean safety factor exhibits an upward trend with the augmentation of the horizontal correlation length, while it diminishes progressively as the vertical correlation length grows, and it also shows a decline with the widening of the failure surface width. The proposed algorithm significantly improves computational efficiency while ensuring accuracy, making it suitable for the reliability analysis of three-dimensional slopes.

Reliability analysis of power distribution networks considering different vehicle-grid integration modes and multiple uncertainties

Reliability analysis of power distribution networks considering different vehicle-grid integration modes and multiple uncertainties

Computer vision-based reliability analysis in digital twinning for structural dynamic safety assessment

Computer vision-based reliability analysis in digital twinning for structural dynamic safety assessment

Uniform importance sampling with rejection control for structural reliability analysis

Uniform importance sampling with rejection control for structural reliability analysis