A new prediction technique has been developed for the steady-state dynamic analysis of coupled vibro-acoustic systems. The technique is based on the indirect Trefftz method, in which the dynamic field variable expansions are exact solutions of the governing dynamic equations. This paper presents the basic principles of the prediction technique and applies it for the modelling of a three-dimensional plate-cavity coupling problem. This application illustrates that a high accuracy is obtained from substantially smaller models, compared to the finite element method, since an approximation is induced only in the representation of the boundary conditions. Moreover, a comparison between the new technique and the conventional finite element method ...
Nowadays, the finite element method is the most commonly used prediction method for dynamic simulati...
AbstractRecently, a new numerical prediction technique has been developed for the analysis of vibro-...
The Finite Element Method is the most commonly used prediction technique for dynamic simulations of ...
© 2003 Elsevier Science Ltd. All rights reserved. This paper discusses a new numerical prediction te...
The finite element method and the boundary element method are the most commonly used methods for ana...
At present, the main numerical modelling techniques for acoustic and (coupled) vibro-acoustic analys...
This paper discusses the principles of a newly developed wave based prediction technique for the ste...
At present, several numerical prediction techniques are available for the steady-state dynamic analy...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The most commonly used numerical modelling techniques for acoustics and vibration are based on eleme...
In the automotive industry, vehicle interior acoustics has become an important design criterion. Bot...
This dissertation considers the development of wave based prediction methods for the analysis of ste...
The most commonly used numerical modelling techniques for acoustics and vibration are based on eleme...
This work is concerned with the variability exhibited by ensembles of vibro-acoustic systems of the ...
The theory of Biot is most commonly used to model the behaviour of poroelastic materials. Nowadays, ...
Nowadays, the finite element method is the most commonly used prediction method for dynamic simulati...
AbstractRecently, a new numerical prediction technique has been developed for the analysis of vibro-...
The Finite Element Method is the most commonly used prediction technique for dynamic simulations of ...
© 2003 Elsevier Science Ltd. All rights reserved. This paper discusses a new numerical prediction te...
The finite element method and the boundary element method are the most commonly used methods for ana...
At present, the main numerical modelling techniques for acoustic and (coupled) vibro-acoustic analys...
This paper discusses the principles of a newly developed wave based prediction technique for the ste...
At present, several numerical prediction techniques are available for the steady-state dynamic analy...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The most commonly used numerical modelling techniques for acoustics and vibration are based on eleme...
In the automotive industry, vehicle interior acoustics has become an important design criterion. Bot...
This dissertation considers the development of wave based prediction methods for the analysis of ste...
The most commonly used numerical modelling techniques for acoustics and vibration are based on eleme...
This work is concerned with the variability exhibited by ensembles of vibro-acoustic systems of the ...
The theory of Biot is most commonly used to model the behaviour of poroelastic materials. Nowadays, ...
Nowadays, the finite element method is the most commonly used prediction method for dynamic simulati...
AbstractRecently, a new numerical prediction technique has been developed for the analysis of vibro-...
The Finite Element Method is the most commonly used prediction technique for dynamic simulations of ...