The paper addresses the handling of frequency-dependent, local admittance boundary conditions in acoustic transient finite/infinite-element models. The proposed approach avoids the evaluation of a convolution integral along the related boundary. Based on a similar technique developed in an aeroacoustic/finite difference context, the spatially local boundary condition is rewritten in a discrete form that involves normal accelerations and pressure time derivatives at the current time step and few steps before. The incorporation of such a discrete (in time) boundary condition in a finite/infinite-element context is addressed. The infinite-element scheme selected for that purpose relies on the conjugated Astley-Leis formulation. Implementation ...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
We study wave transmission through infinite media. From the computational point of view, an infinite...
International audienceThe proposed study focuses on the modeling of acoustic wave propagation in inf...
Many acoustic problems (especially in environmental acoustics) involve half-space domains bounded by...
In this paper, different implementations of numerical locally reacting boundary conditions are studi...
This thesis describes the results of a comprehensive numerical study into the performance of conjuga...
A time-domain boundary condition is derived that accounts for the acoustic impedance of a thin bound...
International audienceA methodology to design broadband time-domain impedance boundary conditions (T...
A novel family of infinite wave envelope elements is described which can be used in conjunction with...
Accurate modeling of boundary conditions is of critical importance for acoustic simulations. Recentl...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
International audienceTime-domain impedance boundary conditions (TDIBCs) can be enforced using the i...
Finite Difference Time Domain room acoustics modelling provides accurate emulation of sound propagat...
Variable order mapped infinite wave envelope elements are developed for finite-element modelling (FE...
A variable-order, infinite ‘‘wave-envelope’’ element scheme is formulated for transient, unbounded a...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
We study wave transmission through infinite media. From the computational point of view, an infinite...
International audienceThe proposed study focuses on the modeling of acoustic wave propagation in inf...
Many acoustic problems (especially in environmental acoustics) involve half-space domains bounded by...
In this paper, different implementations of numerical locally reacting boundary conditions are studi...
This thesis describes the results of a comprehensive numerical study into the performance of conjuga...
A time-domain boundary condition is derived that accounts for the acoustic impedance of a thin bound...
International audienceA methodology to design broadband time-domain impedance boundary conditions (T...
A novel family of infinite wave envelope elements is described which can be used in conjunction with...
Accurate modeling of boundary conditions is of critical importance for acoustic simulations. Recentl...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
International audienceTime-domain impedance boundary conditions (TDIBCs) can be enforced using the i...
Finite Difference Time Domain room acoustics modelling provides accurate emulation of sound propagat...
Variable order mapped infinite wave envelope elements are developed for finite-element modelling (FE...
A variable-order, infinite ‘‘wave-envelope’’ element scheme is formulated for transient, unbounded a...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
We study wave transmission through infinite media. From the computational point of view, an infinite...
International audienceThe proposed study focuses on the modeling of acoustic wave propagation in inf...