This paper provides a general framework for the quantitative estimation of the effects of removing negative features on engineering analysis, or modification sensitivity for short. There are two main applications: (i) when defeaturing models so that finite element analysis may be carried out more quickly and with lower memory requirements, and (ii) when performing iterative design based on finite element analysis. Our approach can handle large as well as small features, and features with Neumann/natural boundary conditions prescribed on them; previous methods have difficulties in handling such cases. Estimation of the modification sensitivity is achieved by reformulating it as a modeling error caused by use of different mathematical mode...
Journal ArticleThe goal of efficient and robust error control, through local mesh adaptation in the ...
International audienceCalibration of damage parameters is an important issue for the use of damage l...
Optimal engineering design specifications are usually derived from an iterative design process. Here...
This paper provides a general framework for the quantitative estimation of the effects of removing n...
The paper provides novel approaches for a posteriori estimation of goal-oriented engineering analysi...
Defeaturing consists in simplifying geometrical models by removing the geometrical features that are...
When preparing a design model for engineering analysis, model idealization is often used, where defe...
A posteriori estimation of defeaturing error, that is, engineering analysis error caused by defeatur...
Finite element model updating has been an area of active research for the past thirty years. The goa...
Simplifying the geometry of a CAD model using defeaturing techniques enables more efficient discreti...
An approach for adjustment of defects in constitutive models is presented. First, the parameters in ...
<div><p>Engineering model development involves several simplifying assumptions for the purpose of ma...
This presentation deals with sensitivity calculations for load-carrying linearly elastic continuum s...
Sensitivity analysis is widely used in engineering fields, such as structural damage identification,...
Engineering models are becoming increasingly complex, involving a larger number of variables. As a r...
Journal ArticleThe goal of efficient and robust error control, through local mesh adaptation in the ...
International audienceCalibration of damage parameters is an important issue for the use of damage l...
Optimal engineering design specifications are usually derived from an iterative design process. Here...
This paper provides a general framework for the quantitative estimation of the effects of removing n...
The paper provides novel approaches for a posteriori estimation of goal-oriented engineering analysi...
Defeaturing consists in simplifying geometrical models by removing the geometrical features that are...
When preparing a design model for engineering analysis, model idealization is often used, where defe...
A posteriori estimation of defeaturing error, that is, engineering analysis error caused by defeatur...
Finite element model updating has been an area of active research for the past thirty years. The goa...
Simplifying the geometry of a CAD model using defeaturing techniques enables more efficient discreti...
An approach for adjustment of defects in constitutive models is presented. First, the parameters in ...
<div><p>Engineering model development involves several simplifying assumptions for the purpose of ma...
This presentation deals with sensitivity calculations for load-carrying linearly elastic continuum s...
Sensitivity analysis is widely used in engineering fields, such as structural damage identification,...
Engineering models are becoming increasingly complex, involving a larger number of variables. As a r...
Journal ArticleThe goal of efficient and robust error control, through local mesh adaptation in the ...
International audienceCalibration of damage parameters is an important issue for the use of damage l...
Optimal engineering design specifications are usually derived from an iterative design process. Here...