The aim of this contribution is to explain in a straightforward manner how Bayesian inference can be used to identify material parameters of material models for solids. Bayesian approaches have already been used for this purpose, but most of the literature is not necessarily easy to understand for those new to the field. The reason for this is that most literature focuses either on complex statistical and machine learning concepts and/or on relatively complex mechanical models. In order to introduce the approach as gently as possible, we only focus on stress–strain measurements coming from uniaxial tensile tests and we only treat elastic and elastoplastic material models. Furthermore, the stress–strain measurements are created artificially ...
Abstract The calibration of any sophisticated model, and in particular a constitutive relation, is ...
International audienceThe basic formulation of the least squares method, based on the L2 norm of the...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
In computational mechanics, approaches based on error minimisation (e.g. the least squares method), ...
Predicting the behaviour of various engineering systems is commonly performed using mathematical mod...
We discuss Bayesian inference (BI) for the probabilistic identification of material parameters. This...
Material parameters identified by mechanical tests can vary from one specimen to another. This varia...
peer reviewedThis contribution discusses Bayesian inference (BI) as an approach to identify paramete...
We discuss Bayesian inference for the identification of elastoplastic material parameters. In additi...
We discuss Bayesian inference for the identi cation of elastoplastic material parameters. In additio...
This data set consists of real and synthetic material deformation data (tensile tests and creep test...
The inverse problem of estimating the spatial distributions of elastic material properties from nois...
A key limitation of finite element analysis is accurate modelling of material damage. While addition...
Abstract The calibration of any sophisticated model, and in particular a constitutive relation, is ...
International audienceThe basic formulation of the least squares method, based on the L2 norm of the...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
In computational mechanics, approaches based on error minimisation (e.g. the least squares method), ...
Predicting the behaviour of various engineering systems is commonly performed using mathematical mod...
We discuss Bayesian inference (BI) for the probabilistic identification of material parameters. This...
Material parameters identified by mechanical tests can vary from one specimen to another. This varia...
peer reviewedThis contribution discusses Bayesian inference (BI) as an approach to identify paramete...
We discuss Bayesian inference for the identification of elastoplastic material parameters. In additi...
We discuss Bayesian inference for the identi cation of elastoplastic material parameters. In additio...
This data set consists of real and synthetic material deformation data (tensile tests and creep test...
The inverse problem of estimating the spatial distributions of elastic material properties from nois...
A key limitation of finite element analysis is accurate modelling of material damage. While addition...
Abstract The calibration of any sophisticated model, and in particular a constitutive relation, is ...
International audienceThe basic formulation of the least squares method, based on the L2 norm of the...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...