The nonintrusive polynomial chaos expansion method is used to quantify the uncertainty of a stochastic system. It potentially reduces the number of numerical simulations in modeling process, thus improving efficiency while ensuring accuracy. However, the number of polynomial bases grows substantially with the increase of random parameters, which may render the technique ineffective due to the excessive computational resources. To address such problems, methods based on the sparse strategy such as the least angle regression (LARS) method with hyperbolic index sets can be used. This paper presents the first work to improve the accuracy of the original LARS method for uncertainty quantification. We propose an adaptive LARS method in order to q...
Uncertainty exists widely in engineering design. As one of the key components of engineering design,...
Non-intrusive polynomial chaos expansion (PCE) and stochastic collocation (SC) meth-ods are attracti...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
The nonintrusive polynomial chaos expansion method is used to quantify the uncertainty of a stochast...
This research data relates to the article of "An adaptive least angle regression method for uncertai...
In uncertainty analysis, surrogate modelling techniques demonstrate high efficiency and reliable pre...
In this paper, we present a framework to deal with uncertainty quantification in case where the rang...
Non-intrusive Polynomial Chaos (NIPC) methods have become popular for uncertainty quantification, as...
Uncertainty quantification (UQ) is an emerging research area that aims to develop methods for accura...
Uncertainty quantification is an emerging research area aiming at quantifying the variation in engin...
Uncertainty quantification seeks to provide a quantitative means to understand complex systems that ...
This paper presents an algorithm for efficient uncertainty quantification (UQ) in the presence of ma...
International audienceWe propose a non-iterative robust numerical method for the non-intrusive uncer...
Non-intrusive polynomial chaos expansion (PCE) and stochastic collocation (SC) meth-ods are attracti...
In this work we review a reduced basis method for the solution of uncertainty quantification problem...
Uncertainty exists widely in engineering design. As one of the key components of engineering design,...
Non-intrusive polynomial chaos expansion (PCE) and stochastic collocation (SC) meth-ods are attracti...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
The nonintrusive polynomial chaos expansion method is used to quantify the uncertainty of a stochast...
This research data relates to the article of "An adaptive least angle regression method for uncertai...
In uncertainty analysis, surrogate modelling techniques demonstrate high efficiency and reliable pre...
In this paper, we present a framework to deal with uncertainty quantification in case where the rang...
Non-intrusive Polynomial Chaos (NIPC) methods have become popular for uncertainty quantification, as...
Uncertainty quantification (UQ) is an emerging research area that aims to develop methods for accura...
Uncertainty quantification is an emerging research area aiming at quantifying the variation in engin...
Uncertainty quantification seeks to provide a quantitative means to understand complex systems that ...
This paper presents an algorithm for efficient uncertainty quantification (UQ) in the presence of ma...
International audienceWe propose a non-iterative robust numerical method for the non-intrusive uncer...
Non-intrusive polynomial chaos expansion (PCE) and stochastic collocation (SC) meth-ods are attracti...
In this work we review a reduced basis method for the solution of uncertainty quantification problem...
Uncertainty exists widely in engineering design. As one of the key components of engineering design,...
Non-intrusive polynomial chaos expansion (PCE) and stochastic collocation (SC) meth-ods are attracti...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...