This paper introduces an effective way to equip the standard finite element method (FEM) for the solution of transient scalar wave propagation problems in unbounded domains. Similar to many other methods, we truncate the unbounded domain at an artificial boundary and convert the problem into a bounded one by prescribing appropriate absorbing boundary conditions (ABCs) at the truncating boundary. In the present method, the ABCs are time-dependent, and they are constructed by a simple collocation approach which is local in space and time. Therefore, the method does not make use of any routine schemes such as Fourier and Laplace transform. We shall show that the method is simple, and it can be easily applied to an explicit time domain FEM appr...
For the propagation of elastic waves in unbounded domains, absorbing boundary conditions (ABCs) at t...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
Accurate and efficient computational treatments of wave propagation in unbounded media rely on speci...
This paper introduces an effective way to equip the standard finite element method (FEM) for the sol...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
International audienceThis paper proposes a new method, in the frequency domain, to define absorbing...
International audienceThis monograph presents numerical methods for solving transient wave equations...
We study wave transmission through infinite media. From the computational point of view, an infinite...
The simulation of wave phenomena in unbounded domains generally requires an artificial boundary to t...
A modied version of an exact Non-re ecting Boundary Condition (NRBC) rst derived by Grote and Kelle...
Numerical computation of wave propagation in a large domain usually requires significant computation...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
The outcomes of a search for efficient and correct ways of the truncation of computational domain in...
A novel family of infinite wave envelope elements is described which can be used in conjunction with...
For the propagation of elastic waves in unbounded domains, absorbing boundary conditions (ABCs) at t...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
Accurate and efficient computational treatments of wave propagation in unbounded media rely on speci...
This paper introduces an effective way to equip the standard finite element method (FEM) for the sol...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
International audienceThis paper proposes a new method, in the frequency domain, to define absorbing...
International audienceThis monograph presents numerical methods for solving transient wave equations...
We study wave transmission through infinite media. From the computational point of view, an infinite...
The simulation of wave phenomena in unbounded domains generally requires an artificial boundary to t...
A modied version of an exact Non-re ecting Boundary Condition (NRBC) rst derived by Grote and Kelle...
Numerical computation of wave propagation in a large domain usually requires significant computation...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
The outcomes of a search for efficient and correct ways of the truncation of computational domain in...
A novel family of infinite wave envelope elements is described which can be used in conjunction with...
For the propagation of elastic waves in unbounded domains, absorbing boundary conditions (ABCs) at t...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
Accurate and efficient computational treatments of wave propagation in unbounded media rely on speci...