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The dynamic interaction between civil engineering structures and the surrounding soil domain often plays a crucial role and should be accounted for in numerical models. T [...]
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This paper examines the influence of imperfectly known local subsoil conditions on the response prediction of buildings to ground-borne environmental vibration. A probabi [...]
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This paper reports on the dynamic soil-structure analysis of a telescope pier of an astrophysical laboratory in the Sierra de Javalambre, Teruel (Spain). Vibration contro [...]
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This paper studies the efficiency of subgrade stiffening next to the track as a mitigation measure for railway induced vibrations. A computationally efficient two-and-a-h [...]
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This paper discusses the coupling of finite element and fast boundary element methods based on hierarchical matrices to solve problems of visco–elastodynamic wave propa [...]
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Ground borne vibration in buildings due to railway traffic is a major concern in densely built up areas. In practice, railway induced vibration is often predicted by mean [...]
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This paper presents a general 2.5D coupled finite element – boundary element methodology for the computation of the dynamic interaction between a layered soil and longi [...]
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This paper presents the ElastoDynamics Toolbox (EDT) for MATLAB.1 EDT provides an extensive set of MATLAB functions to model seismic wave propagation in layered soils. It [...]
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