We discuss a new method for handling random acoustic excitations in finite-element models. The idea is to approximate the cross power spectral density matrix of the response by a low rank matrix. We illustrate the low rank approximation can be computed efficiently by the implicitly restarted block Lanczos method. The novelty lies in applying the Lanczos method to the cross power spectral density matrix of the response rather than the excitation. We give a theoretical explanation for finite-element models with modal damping. © 2007 Elsevier Ltd. All rights reserved.status: publishe
The analysis of the response of a stochastic system, through a discrete coordinate set, can become c...
This work is concerned with the variability exhibited by ensembles of vibro-acoustic systems of the ...
Determination of the stresses and displacements which occur in response to random excitations cannot...
We discuss a new method for handling random acoustic excitations. The idea is to approximate the cro...
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Acoustic transmission properties of sound-insulating structures play an important role in the design...
Complete simulation of random response induced in service by complex, ergodic, Gaussian excitation r...
An automatic sub-structuring method applicable in the low- and medium-frequency ranges is proposed. ...
In this paper, the mathematical framework for a computationally efficient stochastic finite element ...
Finite element (FEM) and boundary element (BEM) methods are used extensively for simulating the beha...
Vibro-acoustic analysis of complex systems at higher frequencies faces two challenges: how to comput...
Instigated by customer expectations and ever tightening regulations on noise emissions, the vibro-ac...
At present, several numerical prediction techniques are available for the steady-state dynamic analy...
Efficient vibroacoustic response prediction on complex structures, such as spacecraft, represents a ...
Part I of this paper presents a self-contained analytical framework for determining the vibro-acoust...
The analysis of the response of a stochastic system, through a discrete coordinate set, can become c...
This work is concerned with the variability exhibited by ensembles of vibro-acoustic systems of the ...
Determination of the stresses and displacements which occur in response to random excitations cannot...
We discuss a new method for handling random acoustic excitations. The idea is to approximate the cro...
This chapter is devoted to the predictions of complex structural-acoustic systems in the low and med...
Acoustic transmission properties of sound-insulating structures play an important role in the design...
Complete simulation of random response induced in service by complex, ergodic, Gaussian excitation r...
An automatic sub-structuring method applicable in the low- and medium-frequency ranges is proposed. ...
In this paper, the mathematical framework for a computationally efficient stochastic finite element ...
Finite element (FEM) and boundary element (BEM) methods are used extensively for simulating the beha...
Vibro-acoustic analysis of complex systems at higher frequencies faces two challenges: how to comput...
Instigated by customer expectations and ever tightening regulations on noise emissions, the vibro-ac...
At present, several numerical prediction techniques are available for the steady-state dynamic analy...
Efficient vibroacoustic response prediction on complex structures, such as spacecraft, represents a ...
Part I of this paper presents a self-contained analytical framework for determining the vibro-acoust...
The analysis of the response of a stochastic system, through a discrete coordinate set, can become c...
This work is concerned with the variability exhibited by ensembles of vibro-acoustic systems of the ...
Determination of the stresses and displacements which occur in response to random excitations cannot...