A methodology to design broadband time-domain impedance boundary conditions (TDIBCs) from the analysis of acoustical models is presented. The derived TDIBCs are recast exclusively as firstorder differential equations, well-suited for high-order numerical simulations. Broadband approximations are yielded from an elementary linear least squares optimization that is, for most models, independent of the absorbing material geometry. This methodology relies on a mathematical technique referred to as the oscillatory-diffusive (or poles and cuts) representation, and is applied to a wide range of acoustical models, drawn from duct acoustics and outdoor sound propagation, which covers perforates, semi-infinite ground layers, as well as cavities fille...
AbstractToday, there is a high, often not fully evolved potential of noise attenuation by passive ac...
Finite Difference Time Domain room acoustics modelling provides accurate emulation of sound propagat...
AbstractToday, there is a high, often not fully evolved potential of noise attenuation by passive ac...
International audienceA methodology to design broadband time-domain impedance boundary conditions (T...
A time domain boundary integral equation with Burton-Miller reformulation is presented for acoustic ...
The time-domain nodal discontinuous Galerkin (TD-DG) method is emerging as a potential wave-based me...
The application of wall acoustic lining is a major factor in the reduction of aircraft engine noise....
In order to achieve accurate time-domain wave-based simulations of a real room, the acoustical prope...
In computational aeroacoustics, time-domain impedance boundary conditions (TDIBCs) can be employed t...
Accurate modeling of boundary conditions is of critical importance for acoustic simulations. Recentl...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
The time-domain nodal discontinuous Galerkin (TD-DG) method is emerging as a potential wave-based me...
Defining acoustically well-posed boundary conditions is one of the major numerical and theoretical c...
AbstractToday, there is a high, often not fully evolved potential of noise attenuation by passive ac...
Finite Difference Time Domain room acoustics modelling provides accurate emulation of sound propagat...
AbstractToday, there is a high, often not fully evolved potential of noise attenuation by passive ac...
International audienceA methodology to design broadband time-domain impedance boundary conditions (T...
A time domain boundary integral equation with Burton-Miller reformulation is presented for acoustic ...
The time-domain nodal discontinuous Galerkin (TD-DG) method is emerging as a potential wave-based me...
The application of wall acoustic lining is a major factor in the reduction of aircraft engine noise....
In order to achieve accurate time-domain wave-based simulations of a real room, the acoustical prope...
In computational aeroacoustics, time-domain impedance boundary conditions (TDIBCs) can be employed t...
Accurate modeling of boundary conditions is of critical importance for acoustic simulations. Recentl...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
The time-domain nodal discontinuous Galerkin (TD-DG) method is emerging as a potential wave-based me...
Defining acoustically well-posed boundary conditions is one of the major numerical and theoretical c...
AbstractToday, there is a high, often not fully evolved potential of noise attenuation by passive ac...
Finite Difference Time Domain room acoustics modelling provides accurate emulation of sound propagat...
AbstractToday, there is a high, often not fully evolved potential of noise attenuation by passive ac...