Finite Element Reliability Analysis (FERA) has been used to evaluate the reliability of structures. Mean and variance of the structural response is often estimated with the use of approximate methods, while structural response distribution is approximated based on Monte Carlo simulation (MCS). In this paper, FERA is applied in an efficient manner with the use of a Multiplicative form of Dimensional Reduction Method (M-DRM), which can estimate accurately the statistical moments and the probability distribution of the structural response, e.g., drift of a structure. The proposed approach is combined with OpenSees FE software and illustrated through the nonlinear pushover and nonlinear dynamic analysis of a steel frame. MCS is also performed f...
The ground external columns of buildings are vulnerable to the extreme actions such as a vehicle col...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
Finite Element Reliability Analysis (FERA) has been used to evaluate the reliability of structures. ...
Most reliability methods are applicable only for relatively simple structural systems with analytica...
A robust and sophisticated structural reliability evaluation procedure is presented. Reliability of ...
A Finite Element Reliability Method (FERM) is introduced to perform reliability analyses on two-dime...
Structural reliability analysis is increasingly used in conjunction with the design of offshore stru...
The paper describes two well known but adapted methods for calculating the probability of failure of...
A combined method of finite element reliability analysis and multiplicative dimensional reduction me...
Traditional engineering analyses and designs are based on deterministic input variables, and variabi...
The problem of reliability analysis of randomly parametered, linear (or) nonlinear, structures Subje...
It is known that uncertainties or variabilities exhibit in structures. Parameters such as loading, m...
Probabilistic techniques in engineering problems are needed because they provide a deeper understand...
In structural design, the uncertainties in load, materials and environment cannot be avoided and it ...
The ground external columns of buildings are vulnerable to the extreme actions such as a vehicle col...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
Finite Element Reliability Analysis (FERA) has been used to evaluate the reliability of structures. ...
Most reliability methods are applicable only for relatively simple structural systems with analytica...
A robust and sophisticated structural reliability evaluation procedure is presented. Reliability of ...
A Finite Element Reliability Method (FERM) is introduced to perform reliability analyses on two-dime...
Structural reliability analysis is increasingly used in conjunction with the design of offshore stru...
The paper describes two well known but adapted methods for calculating the probability of failure of...
A combined method of finite element reliability analysis and multiplicative dimensional reduction me...
Traditional engineering analyses and designs are based on deterministic input variables, and variabi...
The problem of reliability analysis of randomly parametered, linear (or) nonlinear, structures Subje...
It is known that uncertainties or variabilities exhibit in structures. Parameters such as loading, m...
Probabilistic techniques in engineering problems are needed because they provide a deeper understand...
In structural design, the uncertainties in load, materials and environment cannot be avoided and it ...
The ground external columns of buildings are vulnerable to the extreme actions such as a vehicle col...
The geometric, mechanical, material and loading parameters used to define the mechanics-based finite...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...