A novel reliability analysis technique is presented to estimate the reliability of real structural systems. Its unique feature is that the dynamic loadings can be applied in time domain. It is a nonlinear stochastic finite element logarithm combined with the response surface method (RSM). It generates the response surface around the most probable failure point and incorporates information of the distribution of the random variables in the RSM formulation. It is verified using the Monte Carlo simulation technique, and is found to be very efficient and accurate. Most sources of nonlinearlity and uncertainty can be explicitly incorporated in the formulation. The flexibility of connections, represented by moment-relative rotation (M-θ) curves, ...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
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...
A novel reliability analysis technique is presented to estimate the reliability of real structural s...
A novel reliability analysis technique is presented to estimate the reliability of real structural s...
An efficient and accurate algorithm is developed to evaluate reliability in the time domain for nonl...
A unified performance-based seismic design procedure is proposed and successfully implemented in thi...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
The objective of this study is development of a method for evaluation of performance of moment resi...
A method for the evaluation of structural performance of moment resisting steel frames in future ear...
Performance-based earthquake engineering is an emerging field of study that complements the prescrip...
The current trend towards Performance Based Design (PBD) requiresthe development of methodologies fo...
Nonlinear seismic analysis is used in structural engineering profession to design steel frames for m...
A novel concept of multiple deterministic analyses is proposed to design safer and more damage-toler...
Structural design under seismic load requires proper consideration of uncertainties associated with ...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
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...
A novel reliability analysis technique is presented to estimate the reliability of real structural s...
A novel reliability analysis technique is presented to estimate the reliability of real structural s...
An efficient and accurate algorithm is developed to evaluate reliability in the time domain for nonl...
A unified performance-based seismic design procedure is proposed and successfully implemented in thi...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
The objective of this study is development of a method for evaluation of performance of moment resi...
A method for the evaluation of structural performance of moment resisting steel frames in future ear...
Performance-based earthquake engineering is an emerging field of study that complements the prescrip...
The current trend towards Performance Based Design (PBD) requiresthe development of methodologies fo...
Nonlinear seismic analysis is used in structural engineering profession to design steel frames for m...
A novel concept of multiple deterministic analyses is proposed to design safer and more damage-toler...
Structural design under seismic load requires proper consideration of uncertainties associated with ...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
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...