An efficient and accurate algorithm is developed to evaluate reliability in the time domain for nonlinear structures subjected to short duration dynamic loadings, including earthquake loading. The algorithm is based on the nonlinear stochastic finite element method (SFEM). Uncertainties in the dynamic and seismic excitation, and resistance-related parameters are incorporated by modeling them as realistically as possible. The uncertainty in them is explicitly addressed. The proposed algorithm intelligently integrates the concepts of response surface method (RSM), finite element method (FEM), first-order reliability method (FORM), and an iterative linear interpolation scheme. This leads to the stochastic finite element concept. It has the pot...
A stochastic finite element method is developed to study the reliability of structures such as beams...
Within the performance-based earthquake engineering (PBEE) framework, the fragility model plays a pi...
A novel reliability evaluation method for large nonlinear engineering systems excited by dynamic loa...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
Abstract. A novel reliability analysis technique is presented to estimate the reli-ability of real s...
A novel reliability analysis technique is presented to estimate the reliability of real structural s...
For large-scale dome structures subjected to earthquake ground motions, the need for accurate and ef...
A robust and sophisticated structural reliability evaluation procedure is presented. Reliability of ...
Effective and accurate algorithms are developed to evaluate the reliability of frame and shear wall ...
Seismic reliability assessment of nonlinear stochastic structures is a challenging problem in that t...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
Performance-based earthquake engineering is an emerging field of study that complements the prescrip...
The present work aims towards the development of a general framework of time varying unconditional r...
The dynamic reliability analysis of complex structures is very useful because of its applications to...
The current trend towards Performance Based Design (PBD) requiresthe development of methodologies fo...
A stochastic finite element method is developed to study the reliability of structures such as beams...
Within the performance-based earthquake engineering (PBEE) framework, the fragility model plays a pi...
A novel reliability evaluation method for large nonlinear engineering systems excited by dynamic loa...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
Abstract. A novel reliability analysis technique is presented to estimate the reli-ability of real s...
A novel reliability analysis technique is presented to estimate the reliability of real structural s...
For large-scale dome structures subjected to earthquake ground motions, the need for accurate and ef...
A robust and sophisticated structural reliability evaluation procedure is presented. Reliability of ...
Effective and accurate algorithms are developed to evaluate the reliability of frame and shear wall ...
Seismic reliability assessment of nonlinear stochastic structures is a challenging problem in that t...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
Performance-based earthquake engineering is an emerging field of study that complements the prescrip...
The present work aims towards the development of a general framework of time varying unconditional r...
The dynamic reliability analysis of complex structures is very useful because of its applications to...
The current trend towards Performance Based Design (PBD) requiresthe development of methodologies fo...
A stochastic finite element method is developed to study the reliability of structures such as beams...
Within the performance-based earthquake engineering (PBEE) framework, the fragility model plays a pi...
A novel reliability evaluation method for large nonlinear engineering systems excited by dynamic loa...