The finite element method is a popular numerical method in engineering applications. However, there is not enough research about the finite element method in underwater sound propagation. The finite element method can achieve high accuracy and great universality. We aim to develop a three-dimensional finite element model focusing on underwater sound propagation. As the foundation of this research, we put forward a finite element model in the Cartesian coordinate system for a sound field in a two-dimensional environment. We firstly introduce the details of the implementation of the finite element model, as well as different methods to deal with boundary conditions and a comparison of these methods. Then, we use four-node quadrilateral elemen...
This paper summarizes 10 years of NURC experience with the application of a state-of-the-art FE code...
AbstractA mathematical model is developed to represent sound propagation in a 3-dimensional ocean. T...
We developed a finite difference time domain (FDTD) model for sound propagation using pressure and v...
A Finite Element Method (FEM) is developed to calculate rotationally symmetric acoustic propagation ...
Three-dimensional (3D) effects can profoundly influence underwater sound propagation in shallow-wate...
AbstractA model is developed mathematically to represent sound propagation in a three-dimensional oc...
Object and purpose of research. The progress in numerical simulation methods significantly widens th...
We compare the results of a coupled mode method with those of a finite element method and also of CO...
textThree-dimensional acoustic propagation in shallow water waveguides is studied using the longitud...
This paper proposes a propagation model to calculate the three-dimensional (3-D) sound scattering fr...
In view of the low-frequency sound energy propagation in range-dependent waveguides in shallow water...
In this paper we are mainly concerned with the development of efficient computer models capable of a...
3The need to understand how complex acoustic sources propagate noise in a realistic environment is o...
AbstractThe Helmholtz Equation (− Δ − K2n2)u = 0 with a variable index of refraction, n, and a suita...
Efficient and accurate predictions of wave propagation are a vital component of wave-based non-destr...
This paper summarizes 10 years of NURC experience with the application of a state-of-the-art FE code...
AbstractA mathematical model is developed to represent sound propagation in a 3-dimensional ocean. T...
We developed a finite difference time domain (FDTD) model for sound propagation using pressure and v...
A Finite Element Method (FEM) is developed to calculate rotationally symmetric acoustic propagation ...
Three-dimensional (3D) effects can profoundly influence underwater sound propagation in shallow-wate...
AbstractA model is developed mathematically to represent sound propagation in a three-dimensional oc...
Object and purpose of research. The progress in numerical simulation methods significantly widens th...
We compare the results of a coupled mode method with those of a finite element method and also of CO...
textThree-dimensional acoustic propagation in shallow water waveguides is studied using the longitud...
This paper proposes a propagation model to calculate the three-dimensional (3-D) sound scattering fr...
In view of the low-frequency sound energy propagation in range-dependent waveguides in shallow water...
In this paper we are mainly concerned with the development of efficient computer models capable of a...
3The need to understand how complex acoustic sources propagate noise in a realistic environment is o...
AbstractThe Helmholtz Equation (− Δ − K2n2)u = 0 with a variable index of refraction, n, and a suita...
Efficient and accurate predictions of wave propagation are a vital component of wave-based non-destr...
This paper summarizes 10 years of NURC experience with the application of a state-of-the-art FE code...
AbstractA mathematical model is developed to represent sound propagation in a 3-dimensional ocean. T...
We developed a finite difference time domain (FDTD) model for sound propagation using pressure and v...