International audienceIn the development of numerical models, uncertainty quantification (UQ) can inform appropriate allocation of computational resources, often resulting in efficient analysis for activities such as model calibration and robust design. UQ can be especially beneficial for numerical models with significant computational expense, such as coupled models, which require several subsystem models to attain the performance of a more complex, interconnected system. In the coupled model paradigm, UQ can be applied at either the subsystem model level or the coupled model level. When applied at the subsystem level, UQ is applied directly to the physical input parameters, which can be computationally expensive. In contrast, UQ at the co...
International audienceA feasible, nonparametric, probabilistic approach for modeling and quantifying...
The characterization of uncertainty in the damping forces in a vibrating structure is of significant...
Verification and validation (V&V) are processes designed to assure, with quantifiable confidence...
International audienceThe Statistical Modal Energy Analysis (SmEdA) is a variant of the Statistical ...
Reduced-order models, substructuring techniques and uncertainty quantification are important aspects...
Computational models for large systems are sometimes built in a hierarchical way from simple compone...
International audienceRecently, a novel probabilistic method for modeling and quantifying model-form...
Different mathematical models can be developed to represent the dynamic behavior of structural syste...
In the modeling of complex dynamical systems, high-resolution finite element models are routinely ad...
The use of uncertainty propagation analysis in conjunction with the finite element method has become...
This paper is one in a sequence of presentations that consider the problem of uncertainty quantifica...
The propagation analysis of parameter uncertainty is structural dynamics has become a feasible appro...
Quantifying the uncertainty in the dynamic properties of large-scale complex engineering structures ...
International audienceThis work deals with an extension of the reduced order models (ROMs) that are ...
Statistical Energy Analysis (SEA) is an approach to vibration analysis which provides estimates of t...
International audienceA feasible, nonparametric, probabilistic approach for modeling and quantifying...
The characterization of uncertainty in the damping forces in a vibrating structure is of significant...
Verification and validation (V&V) are processes designed to assure, with quantifiable confidence...
International audienceThe Statistical Modal Energy Analysis (SmEdA) is a variant of the Statistical ...
Reduced-order models, substructuring techniques and uncertainty quantification are important aspects...
Computational models for large systems are sometimes built in a hierarchical way from simple compone...
International audienceRecently, a novel probabilistic method for modeling and quantifying model-form...
Different mathematical models can be developed to represent the dynamic behavior of structural syste...
In the modeling of complex dynamical systems, high-resolution finite element models are routinely ad...
The use of uncertainty propagation analysis in conjunction with the finite element method has become...
This paper is one in a sequence of presentations that consider the problem of uncertainty quantifica...
The propagation analysis of parameter uncertainty is structural dynamics has become a feasible appro...
Quantifying the uncertainty in the dynamic properties of large-scale complex engineering structures ...
International audienceThis work deals with an extension of the reduced order models (ROMs) that are ...
Statistical Energy Analysis (SEA) is an approach to vibration analysis which provides estimates of t...
International audienceA feasible, nonparametric, probabilistic approach for modeling and quantifying...
The characterization of uncertainty in the damping forces in a vibrating structure is of significant...
Verification and validation (V&V) are processes designed to assure, with quantifiable confidence...