In this study, a Monte Carlo simulation (MCs)-based isogeometric stochastic Finite Element Method (FEM) is proposed for uncertainty quantification in the vibration analysis of piezoelectric materials. In this method, deterministic solutions (natural frequencies) of the coupled eigenvalue problem are obtained via isogeometric analysis (IGA). Moreover, MCs is employed to solve various uncertainty parameters, including separate elastic and piezoelectric constants and their combined cases
A non-intrusive stochastic finite-element method is proposed for uncertainty propagation through me...
The consideration of uncertainty becomes increasingly necessary for complex engineering structures. ...
A new finite element method is developed to analyse the structures with more than one parameter beha...
A novel spectral stochastic isogeometric analysis (SSIGA) is proposed for the free vibration analysi...
Structural stochastic analysis is vital to engineering. However, current material related uncertaint...
In this study, the effect of uncertainty in elastic modulus of a plate on free vibration response is...
The Monte Carlo method is widely used for the estimation of uncertainties in mechanical engineering ...
In this study, we use the stochastic finite element method for vibration analysis of functionally gr...
This paper proposes a new method of calculating stochastic field. It is an improvement of the midpoi...
We present and analyze a new hybrid stochastic finite element method for solving eigenmodes of struc...
The presented research is related to the propagation of epistemic uncertainty in the fields of seism...
This paper presents two efficient modal approaches as an alternative to direct formulations for the ...
The stochastic isogeometric analysis of linear elasticity problem is investigated in this study. The...
The system parameter uncertainties are investigated using the stochastic finite element method (SFEM...
The great influence of uncertainties on the behavior of physical systems has always drawn attention ...
A non-intrusive stochastic finite-element method is proposed for uncertainty propagation through me...
The consideration of uncertainty becomes increasingly necessary for complex engineering structures. ...
A new finite element method is developed to analyse the structures with more than one parameter beha...
A novel spectral stochastic isogeometric analysis (SSIGA) is proposed for the free vibration analysi...
Structural stochastic analysis is vital to engineering. However, current material related uncertaint...
In this study, the effect of uncertainty in elastic modulus of a plate on free vibration response is...
The Monte Carlo method is widely used for the estimation of uncertainties in mechanical engineering ...
In this study, we use the stochastic finite element method for vibration analysis of functionally gr...
This paper proposes a new method of calculating stochastic field. It is an improvement of the midpoi...
We present and analyze a new hybrid stochastic finite element method for solving eigenmodes of struc...
The presented research is related to the propagation of epistemic uncertainty in the fields of seism...
This paper presents two efficient modal approaches as an alternative to direct formulations for the ...
The stochastic isogeometric analysis of linear elasticity problem is investigated in this study. The...
The system parameter uncertainties are investigated using the stochastic finite element method (SFEM...
The great influence of uncertainties on the behavior of physical systems has always drawn attention ...
A non-intrusive stochastic finite-element method is proposed for uncertainty propagation through me...
The consideration of uncertainty becomes increasingly necessary for complex engineering structures. ...
A new finite element method is developed to analyse the structures with more than one parameter beha...