In this report, we study how finite differences can be used to simulate acoustic wave propagation originating from a point source in the ocean using the Helmholtz equation. How to model sediment layers and the vast size of the ocean is studied in particular. The finite differences are implemented with summation by parts operators with boundary conditions enforced with simultaneous approximation terms and projection. The numerical solver is combined with the WaveHoltz method to improve the performance. Sediment layers are handled with interface conditions and the domain is artificially expanded using absorbing layers. The absorbing layer is implemented with an alternative approach to the super-grid method where the domain expansion is accomp...
3The need to understand how complex acoustic sources propagate noise in a realistic environment is o...
Wave equations are hyperbolic partial differential equations (PDEs) which describe the propagation o...
State-of-the-art computational methods for linear acoustics are reviewed. The equations of linear ac...
In this report, we study how finite differences can be used to simulate acoustic wave propagation or...
In this paper we are mainly concerned with the development of efficient computer models capable of a...
AbstractThe Helmholtz Equation (− Δ − K2n2)u = 0 with a variable index of refraction, n, and a suita...
Imaging techniques for geophysic prospection of sea bottom are extremely demanding in terms of mathe...
AbstractApproximating the elliptic wave equation by a parabolic equation (PE) allows a rapid computa...
The ultimate goal of this research is to construct a hybrid model for sound propagation in layered u...
The highly heterogeneous and anelastic nature of deep ocean seafloor results in complex reverberatio...
Forward modeling plays a key role in both the creation of predictive models and the study of the sur...
ABSTRACTWhen modeling wave propagation, truncation of the computational domain to a manageable size ...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
Our long-term goal is to provide a more complete understanding of the forward propagation of acousti...
Solutions to ocean acoustic scattering problems are often formulated in the frequency domain, which ...
3The need to understand how complex acoustic sources propagate noise in a realistic environment is o...
Wave equations are hyperbolic partial differential equations (PDEs) which describe the propagation o...
State-of-the-art computational methods for linear acoustics are reviewed. The equations of linear ac...
In this report, we study how finite differences can be used to simulate acoustic wave propagation or...
In this paper we are mainly concerned with the development of efficient computer models capable of a...
AbstractThe Helmholtz Equation (− Δ − K2n2)u = 0 with a variable index of refraction, n, and a suita...
Imaging techniques for geophysic prospection of sea bottom are extremely demanding in terms of mathe...
AbstractApproximating the elliptic wave equation by a parabolic equation (PE) allows a rapid computa...
The ultimate goal of this research is to construct a hybrid model for sound propagation in layered u...
The highly heterogeneous and anelastic nature of deep ocean seafloor results in complex reverberatio...
Forward modeling plays a key role in both the creation of predictive models and the study of the sur...
ABSTRACTWhen modeling wave propagation, truncation of the computational domain to a manageable size ...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
Our long-term goal is to provide a more complete understanding of the forward propagation of acousti...
Solutions to ocean acoustic scattering problems are often formulated in the frequency domain, which ...
3The need to understand how complex acoustic sources propagate noise in a realistic environment is o...
Wave equations are hyperbolic partial differential equations (PDEs) which describe the propagation o...
State-of-the-art computational methods for linear acoustics are reviewed. The equations of linear ac...