Time-domain prediction models have been developed forauditorium reflectors and room acoustic diffusers. The models are time-domain equivalents of the single-frequency formulations that exploit the Kirchhoff boundary conditions. Consequently, they are approximate, wave-based solutions to the Kirchhoff integral equation usingsurface meshes. The new time-domain formulations are validated by comparison to their frequency-domain equivalents for three different surfaces: a plane surface, a curved reflector, and a Schroeder diffuser. Interms of computation time and accuracy, the new models lie between the finite difference time domain and geometric room models
Time domain modelling offers many advantages for room acoustics investigations. It directly generate...
| openaire: EC/H2020/721536/EU//AcoutectThis paper presents an approach for optimizing a diffuser ge...
Two room-acoustical prediction models were previously developed in the UBC Acoustics and Noise Resea...
Time-domain prediction models have been developed forauditorium reflectors and room acoustic diffuse...
Room acoustic diffusers can be used to treat critical listening environments to improve sound qualit...
This paper presents an algorithm which couples the time domain Boundary Element Method (BEM) with a ...
Boundary Element Methods (BEMs) may be used to model scattering of sound by surfaces such as diffuse...
Traditional sound diffusers are quasi-random phase gratings attached to reflecting surfaces whose pu...
This dissertation seeks to advance the current state of computer-based sound field simulations for r...
Based on the time domain boundary integral equation formulation of the linear convective wave equati...
A major challenge in architectural acoustics is the unification of diffraction models and geometric ...
Since the invention of sound diffusers three decades ago a substantial effort has been made to predi...
In room acoustics, numerical computation of scattering phenomena is an important subject, since it i...
The best way of representing compliant surfaces in time domain prediction models, such as the transi...
Although it is widely accepted that the diffusion of early reflections in acoustic spaces intended f...
Time domain modelling offers many advantages for room acoustics investigations. It directly generate...
| openaire: EC/H2020/721536/EU//AcoutectThis paper presents an approach for optimizing a diffuser ge...
Two room-acoustical prediction models were previously developed in the UBC Acoustics and Noise Resea...
Time-domain prediction models have been developed forauditorium reflectors and room acoustic diffuse...
Room acoustic diffusers can be used to treat critical listening environments to improve sound qualit...
This paper presents an algorithm which couples the time domain Boundary Element Method (BEM) with a ...
Boundary Element Methods (BEMs) may be used to model scattering of sound by surfaces such as diffuse...
Traditional sound diffusers are quasi-random phase gratings attached to reflecting surfaces whose pu...
This dissertation seeks to advance the current state of computer-based sound field simulations for r...
Based on the time domain boundary integral equation formulation of the linear convective wave equati...
A major challenge in architectural acoustics is the unification of diffraction models and geometric ...
Since the invention of sound diffusers three decades ago a substantial effort has been made to predi...
In room acoustics, numerical computation of scattering phenomena is an important subject, since it i...
The best way of representing compliant surfaces in time domain prediction models, such as the transi...
Although it is widely accepted that the diffusion of early reflections in acoustic spaces intended f...
Time domain modelling offers many advantages for room acoustics investigations. It directly generate...
| openaire: EC/H2020/721536/EU//AcoutectThis paper presents an approach for optimizing a diffuser ge...
Two room-acoustical prediction models were previously developed in the UBC Acoustics and Noise Resea...