Add to ORKGComputational models for numerically simulating physical systems are increasingly being used to support decision-making processes in engineering. Processes such as design decisions, policy level analyses, and experimental design settings are often guided by information gained from computational modeling capabilities. To ensure effective application of results obtained through numerical simulation of computational models, uncertainty in model inputs must be propagated to uncertainty in model outputs. For expensive computational models, the many thousands of model evaluations required for traditional Monte Carlo based techniques for uncertainty propagation can be prohibitive. This paper presents a novel methodology for constructing surrogate ...
An approach for robust design based on stochastic expansions is investigated. The research consists...
Problems in turbomachinery computational fluid dynamics (CFD) are often characterized by nonlinear a...
Uncertainty quantification in computational physics requires running many simulations. For some indu...
In the context of complex industrial systems and civil infrastructures, taking into account uncerta...
Nowadays computational models are used in virtually all fields of applied sciences and engineering t...
Nowadays, computational models are used in virtually all fields of applied sciences and engineering ...
Uncertainty analysis in computer models has seen a rise in interest in recent years as a result of ...
Computational models are used in virtually all fields of applied sciences and engineering to predict...
International audienceComplex computer codes, as the ones used in thermal-hydraulic accident scenari...
Complex computational models are used nowadays in all fields of applied sciences to predict the beha...
International audienceThis book results from a course developed by the author and reflects both his ...
Uncertainty propagation through coupled multiphysics systems is often intractable due to computation...
In this paper, we offer a short overview of a number of methods that have been reported in the compu...
This thesis consists of three chapters on the statistical adjustment, calibration, and uncertainty q...
Problems in turbomachinery computational fluid dynamics (CFD) are often characterized by nonlinear a...
An approach for robust design based on stochastic expansions is investigated. The research consists...
Problems in turbomachinery computational fluid dynamics (CFD) are often characterized by nonlinear a...
Uncertainty quantification in computational physics requires running many simulations. For some indu...
In the context of complex industrial systems and civil infrastructures, taking into account uncerta...
Nowadays computational models are used in virtually all fields of applied sciences and engineering t...
Nowadays, computational models are used in virtually all fields of applied sciences and engineering ...
Uncertainty analysis in computer models has seen a rise in interest in recent years as a result of ...
Computational models are used in virtually all fields of applied sciences and engineering to predict...
International audienceComplex computer codes, as the ones used in thermal-hydraulic accident scenari...
Complex computational models are used nowadays in all fields of applied sciences to predict the beha...
International audienceThis book results from a course developed by the author and reflects both his ...
Uncertainty propagation through coupled multiphysics systems is often intractable due to computation...
In this paper, we offer a short overview of a number of methods that have been reported in the compu...
This thesis consists of three chapters on the statistical adjustment, calibration, and uncertainty q...
Problems in turbomachinery computational fluid dynamics (CFD) are often characterized by nonlinear a...
An approach for robust design based on stochastic expansions is investigated. The research consists...
Problems in turbomachinery computational fluid dynamics (CFD) are often characterized by nonlinear a...
Uncertainty quantification in computational physics requires running many simulations. For some indu...