Add to ORKGSoftware MOR for ANSYS has been developed at IMTEK in 2003. It allows us to perform model reduction directly to finite element models developed in ANSYS. The goal of the present paper is to describe progress achieved for the last two years and review our publications with application of MOR for ANSYS to various engineering problems for different domains: heat transfer, structural mechanics, thermomechanical models, and acoustics including fluid-structure interaction. We also discuss computational scalability of model reduction and the advanced development such as parametric and weakly nonlinear model reduction
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
In this paper we compare the numerical results obtained by different model order reduction software ...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...
perform model reduction directly to finite element models developed in ANSYS. The goal of the presen...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we present a methodology for applying mathematical model order reduction (MOR) to elec...
The software mor4ansys that allowsengish4f employ the modern modelreducti4 techni4 to thefihfS eleme...
Thermo-mechanical finite element (FE) models predict the thermal behavior of machine tools and the a...
Model reduction is a new numerical technique [1, 2] that allows us to obtain an accurate low-dimensi...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
In this paper we compare the numerical results obtained by different model order reduction software ...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...
perform model reduction directly to finite element models developed in ANSYS. The goal of the presen...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we compare the numerical results obtained by different model order reduction software ...
In this paper we present a methodology for applying mathematical model order reduction (MOR) to elec...
The software mor4ansys that allowsengish4f employ the modern modelreducti4 techni4 to thefihfS eleme...
Thermo-mechanical finite element (FE) models predict the thermal behavior of machine tools and the a...
Model reduction is a new numerical technique [1, 2] that allows us to obtain an accurate low-dimensi...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
In this paper we compare the numerical results obtained by different model order reduction software ...
Computational methods for reducing the complexity of Finite Element (FE) models in structural dynami...