Vibration and dissipation in vibro-acoustic systems can be assessed using frequency response analysis. Evaluating a frequency sweep on a full-order model can be very costly, so model order reduction methods are employed to compute cheap-to-evaluate surrogates. This work compares structure-preserving model reduction methods based on rational interpolation and balanced truncation with a specific focus on their applicability to vibro-acoustic systems. Such models typically exhibit a second-order structure and their material properties as well as their excitation may be depending on the driving frequency. We show and compare the effectiveness of all considered methods by applying them to numerical models of vibro-acoustic systems depicting stru...
Finite element analyses of vibro-acoustic systems are usually performed in the frequency domain, mea...
This work proposes novel stability-preserving model order reduction approaches for vibro-acoustic fi...
Porous materials are often used in the context of passive noise control applications due to their lo...
Numerical simulations, such as the finite element method, have been recently used to calculate and p...
Instigated by customer expectations and ever tightening regulations on noise emissions, the vibro-ac...
This paper presents a Matrix-Free rational Krylov interpolation model order reduction framework as a...
This archive contains the companion codes and computed results for the paper: Q. Aumann, S. W. R....
Over the past years, the dynamic and acoustic qualities of products have become an increasingly impo...
A parametric model order reduction scheme is presented for second order systems that does not requir...
The physical interaction between vibrating structures and acoustics is of paramount importance in mo...
The growth of computational power in the last decades has made it possible to perform more complicat...
As the high computational cost hampers simulation over large frequency bands, the current generation...
International audienceThe vibroacoustic modeling using the finite element method (FEM) still remains...
With ever more stringent requirements on noise and vibration levels, engineers often rely on multila...
This research presents a parametric model order reduction approach for vibro-acoustic problems in th...
Finite element analyses of vibro-acoustic systems are usually performed in the frequency domain, mea...
This work proposes novel stability-preserving model order reduction approaches for vibro-acoustic fi...
Porous materials are often used in the context of passive noise control applications due to their lo...
Numerical simulations, such as the finite element method, have been recently used to calculate and p...
Instigated by customer expectations and ever tightening regulations on noise emissions, the vibro-ac...
This paper presents a Matrix-Free rational Krylov interpolation model order reduction framework as a...
This archive contains the companion codes and computed results for the paper: Q. Aumann, S. W. R....
Over the past years, the dynamic and acoustic qualities of products have become an increasingly impo...
A parametric model order reduction scheme is presented for second order systems that does not requir...
The physical interaction between vibrating structures and acoustics is of paramount importance in mo...
The growth of computational power in the last decades has made it possible to perform more complicat...
As the high computational cost hampers simulation over large frequency bands, the current generation...
International audienceThe vibroacoustic modeling using the finite element method (FEM) still remains...
With ever more stringent requirements on noise and vibration levels, engineers often rely on multila...
This research presents a parametric model order reduction approach for vibro-acoustic problems in th...
Finite element analyses of vibro-acoustic systems are usually performed in the frequency domain, mea...
This work proposes novel stability-preserving model order reduction approaches for vibro-acoustic fi...
Porous materials are often used in the context of passive noise control applications due to their lo...