peer reviewedThis contribution discusses Bayesian inference (BI) as an approach to identify parameters in viscoelasticity. The aims are: (i) to show that the prior has a substantial influence for viscoelasticity, (ii) to show that this influence decreases for an increasing number of measurements and (iii) to show how different types of experiments influence the identified parameters and their uncertainties. The standard linear solid model is the material description of interest and a relaxation test, a constant strain-rate test and a creep test are the tensile experiments focused on. The experimental data are artificially created, allowing us to make a one-to-one comparison between the input parameters and the identified parameter values. B...
The aim of the current work is to develop a Bayesian approach to model and simulate the behavior of ...
Inverse problem techniques have been used in different engineering application aiming to conve...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
This contribution discusses Bayesian inference (BI) as an approach to identify parameters in viscoel...
Predicting the behaviour of various engineering systems is commonly performed using mathematical mod...
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...
We discuss Bayesian inference (BI) for the probabilistic identification of material parameters. This...
peer reviewedWe discuss Bayesian inference for the identi cation of elastoplastic material parameter...
In computational mechanics, approaches based on error minimisation (e.g. the least squares method), ...
Material parameters identified by mechanical tests can vary from one specimen to another. This varia...
To evaluate the cyclic behaviour under different loading conditions using the kinematic and isotropic...
Modelling of heterogeneous materials based on randomness of model input parameters involves paramete...
We present a statistical method for recovering the material parameters of a heterogeneous hyperelast...
We discuss Bayesian inference for the identification of elastoplastic material parameters. In additi...
The aim of the current work is to develop a Bayesian approach to model and simulate the behavior of ...
Inverse problem techniques have been used in different engineering application aiming to conve...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
This contribution discusses Bayesian inference (BI) as an approach to identify parameters in viscoel...
Predicting the behaviour of various engineering systems is commonly performed using mathematical mod...
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...
We discuss Bayesian inference (BI) for the probabilistic identification of material parameters. This...
peer reviewedWe discuss Bayesian inference for the identi cation of elastoplastic material parameter...
In computational mechanics, approaches based on error minimisation (e.g. the least squares method), ...
Material parameters identified by mechanical tests can vary from one specimen to another. This varia...
To evaluate the cyclic behaviour under different loading conditions using the kinematic and isotropic...
Modelling of heterogeneous materials based on randomness of model input parameters involves paramete...
We present a statistical method for recovering the material parameters of a heterogeneous hyperelast...
We discuss Bayesian inference for the identification of elastoplastic material parameters. In additi...
The aim of the current work is to develop a Bayesian approach to model and simulate the behavior of ...
Inverse problem techniques have been used in different engineering application aiming to conve...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...