Convolutional perfectly matched layer (CPML) models in the finite element time domain (FETD) can save computational costs when the original problem domain is relatively large or where three-dimensional (3-d) modeling is needed. The use of CPML for solving soil-structure interaction (SSI) problems in truncated domains using finite element method has been explored in this paper. It provides a method of applying CPML models to dynamic SSI analysis in FETD with displacement as the only unknown. Relevant benchmark examples with small bounded domains have been included to demonstrate the stability and efficiency of the proposed model and formulation. An interesting application of this technique can also be found about the classical SSI problem of...
A simple three-dimensional soil-structure interaction (SSI) model is proposed. First, a model is dev...
This paper discusses the coupling of finite element and fast boundary element methods for the soluti...
During earthquake shaking, the dam-reservoir-foundation system has to be considered a coupled system...
Convolutional perfectly matched layer (CPML) models in the finite element time domain (FETD) can sav...
The perfectly matched layer (PML) has been employed as a very efficient absorbing boundary condition...
This thesis presents the development of the displacement-unit-impulse-response-based modelling of un...
A general convolutional version of perfectly matched layer (PML) formulation for second-order wave e...
Thesis (M.S.)--University of Hawaii at Manoa, 2006.Includes bibliographical references (leaves 36-38...
A finite element (FE) based soil-structure interaction (SSI) model is presented and parallelized for...
A practical and efficient coupling method for performing nonlinear static pushover or time history a...
During earthquake shaking, the dam-reservoir-foundation system has to be considered a cou-pled syste...
A time domain analysis procedure and method for seismic soil-structure interaction analysis are intr...
In civil engineering, and more particularly in structural mechanics, computational tools are used to...
International audienceSoil-structure interaction problems are modeled coupling finite elements and b...
This dissertation is focused on creating the key ingredients of a numerical platform for reduced ord...
A simple three-dimensional soil-structure interaction (SSI) model is proposed. First, a model is dev...
This paper discusses the coupling of finite element and fast boundary element methods for the soluti...
During earthquake shaking, the dam-reservoir-foundation system has to be considered a coupled system...
Convolutional perfectly matched layer (CPML) models in the finite element time domain (FETD) can sav...
The perfectly matched layer (PML) has been employed as a very efficient absorbing boundary condition...
This thesis presents the development of the displacement-unit-impulse-response-based modelling of un...
A general convolutional version of perfectly matched layer (PML) formulation for second-order wave e...
Thesis (M.S.)--University of Hawaii at Manoa, 2006.Includes bibliographical references (leaves 36-38...
A finite element (FE) based soil-structure interaction (SSI) model is presented and parallelized for...
A practical and efficient coupling method for performing nonlinear static pushover or time history a...
During earthquake shaking, the dam-reservoir-foundation system has to be considered a cou-pled syste...
A time domain analysis procedure and method for seismic soil-structure interaction analysis are intr...
In civil engineering, and more particularly in structural mechanics, computational tools are used to...
International audienceSoil-structure interaction problems are modeled coupling finite elements and b...
This dissertation is focused on creating the key ingredients of a numerical platform for reduced ord...
A simple three-dimensional soil-structure interaction (SSI) model is proposed. First, a model is dev...
This paper discusses the coupling of finite element and fast boundary element methods for the soluti...
During earthquake shaking, the dam-reservoir-foundation system has to be considered a coupled system...