A practical and efficient coupling method for performing nonlinear static pushover or time history analysis for soil-structure interaction (SSI) systems is presented. The method combines the advantages of efficient analysis of a half-space soil medium represented as discrete filters and powerful modeling capabilities of finite element analysis (FEA) software for large scale nonlinear structural systems, thus is potentially useful for solving large scale realistic civil infrastructure problems. The boundary conditions of displacement continuity and force equilibrium between soil and structure are satisfied by using Newton's method. The coupling between the two substructures is based on a real-time data communication technique called the clie...
The objective of this paper focuses primarily on the numerical approach based on two-dimensional (2-...
A time domain analysis procedure and computational models for seismic soil-structure interaction are...
Convolutional perfectly matched layer (CPML) models in the finite element time domain (FETD) can sav...
A practical and efficient coupling method for performing nonlinear static pushover or time history a...
This work is a multi-disciplinary research concerned with the generic computational modelling of cou...
In civil engineering, and more particularly in structural mechanics, computational tools are used to...
A finite element (FE) based soil-structure interaction (SSI) model is presented and parallelized for...
International audienceThis paper describes a soil-structure coupling method to simulate blast loadin...
A time domain analysis procedure and method for seismic soil-structure interaction analysis are intr...
This paper proposes a new approach for modelling coupled nonlinear soil-structure interaction proble...
Structural elements, in many situations, are supported by other surfaces, such as soil, which may of...
In the analysis of the dynamic behaviour of many civil engineering structures, it is essential to ac...
This thesis presents the development of the displacement-unit-impulse-response-based modelling of un...
International audienceSoil-structure interaction problems are modeled coupling finite elements and b...
A common assumption for a structure that is subjected to an earthquake is that the structure is cons...
The objective of this paper focuses primarily on the numerical approach based on two-dimensional (2-...
A time domain analysis procedure and computational models for seismic soil-structure interaction are...
Convolutional perfectly matched layer (CPML) models in the finite element time domain (FETD) can sav...
A practical and efficient coupling method for performing nonlinear static pushover or time history a...
This work is a multi-disciplinary research concerned with the generic computational modelling of cou...
In civil engineering, and more particularly in structural mechanics, computational tools are used to...
A finite element (FE) based soil-structure interaction (SSI) model is presented and parallelized for...
International audienceThis paper describes a soil-structure coupling method to simulate blast loadin...
A time domain analysis procedure and method for seismic soil-structure interaction analysis are intr...
This paper proposes a new approach for modelling coupled nonlinear soil-structure interaction proble...
Structural elements, in many situations, are supported by other surfaces, such as soil, which may of...
In the analysis of the dynamic behaviour of many civil engineering structures, it is essential to ac...
This thesis presents the development of the displacement-unit-impulse-response-based modelling of un...
International audienceSoil-structure interaction problems are modeled coupling finite elements and b...
A common assumption for a structure that is subjected to an earthquake is that the structure is cons...
The objective of this paper focuses primarily on the numerical approach based on two-dimensional (2-...
A time domain analysis procedure and computational models for seismic soil-structure interaction are...
Convolutional perfectly matched layer (CPML) models in the finite element time domain (FETD) can sav...