An accurate and efficient boundary element procedure is developed for the analysis of dynamic response of rigid surface footings. The footings are assumed to be resting on an elastic half-space. The problem is formulated in the frequency domain by adopting the half-space Green's function for surface points loads. Therefore, only discretization is required for the soil-footing interface. Two types of element, linear and quadratic isoparametric elements, are employed for the discretization. Examples of the single-footing as well as two-footing system are presented to demonstrate the application of the method. The results are compared with other published results. It is demonstrated that the present results are in good agreement with the appro...
The dynamic response of rigid and flexible foundations on the soil has been subject of extensive stu...
The finite element technique is a powerful method to study the dynamic response of a structure takin...
Dynamic soil-structure interaction has been for a long time one of the most fascinating areas for th...
A combined boundary and finite element method is developed and applied to study the dynamic behaviou...
The basic step in the substructure approach based on discretization of the soil medium for the soil-...
In this work, a simple and effective numerical model is proposed for studying flexible and rigid fou...
In this paper some aspects of the use of non-reflecting boundaries in dynamic problems, analyzed in ...
The dynamic response of a rigid strip or rectangular footing perfectly bonded to an elastic layered ...
The paper deals with the boundary element method formulation of the steady-state wave propagation th...
The paper deals with the boundary element method formulation of the steady-state vibration wave prop...
The transient response of a finite elastic plate, resting on an elastic half-space, and subjected to...
A complete formulation and implementation for assessment of the response to dynamic loads of cylindr...
Soil dynamics with experimental, analytical and numerical methods are subject of research activities...
Summarization: A direct boundary element method for the dynamic analysis of thin elastoplastic flexu...
The objective of this study is to develop a theory for the response of a group of rigid structures w...
The dynamic response of rigid and flexible foundations on the soil has been subject of extensive stu...
The finite element technique is a powerful method to study the dynamic response of a structure takin...
Dynamic soil-structure interaction has been for a long time one of the most fascinating areas for th...
A combined boundary and finite element method is developed and applied to study the dynamic behaviou...
The basic step in the substructure approach based on discretization of the soil medium for the soil-...
In this work, a simple and effective numerical model is proposed for studying flexible and rigid fou...
In this paper some aspects of the use of non-reflecting boundaries in dynamic problems, analyzed in ...
The dynamic response of a rigid strip or rectangular footing perfectly bonded to an elastic layered ...
The paper deals with the boundary element method formulation of the steady-state wave propagation th...
The paper deals with the boundary element method formulation of the steady-state vibration wave prop...
The transient response of a finite elastic plate, resting on an elastic half-space, and subjected to...
A complete formulation and implementation for assessment of the response to dynamic loads of cylindr...
Soil dynamics with experimental, analytical and numerical methods are subject of research activities...
Summarization: A direct boundary element method for the dynamic analysis of thin elastoplastic flexu...
The objective of this study is to develop a theory for the response of a group of rigid structures w...
The dynamic response of rigid and flexible foundations on the soil has been subject of extensive stu...
The finite element technique is a powerful method to study the dynamic response of a structure takin...
Dynamic soil-structure interaction has been for a long time one of the most fascinating areas for th...