We present results from a prototype experiment in which we actively induce, observe, and quantify in situ nonlinear sediment response in the near surface. This experiment was part of a suite of experiments conducted during August 2004 in Garner Valley, California, using a large mobile shaker truck from the Network for Earthquake Engineering Simulation (NEES) facility. We deployed a dense accelerometer array within meters of the mobile shaker truck to replicate a controlled, laboratory-style soil dynamics experiment in order to observe wave-amplitude-dependent sediment properties. Ground motion exceeding 1g acceleration was produced near the shaker truck. The wave field was dominated by Rayleigh surface waves and ground motions were strong e...
We study the reduction of peak velocity on the ground surface of a soil valley for excitation by an ...
This article investigates the effects of the nonlinear behavior of soils on site response, through v...
We study the reduction of peak velocity on the ground surface of a soil valley caused by loss of wav...
We present results from a prototype experiment in which we actively induce, observe, and quantify in...
We present results from a prototype experiment in which we actively induce, observe, and quantify in...
We present results and in situ measurements from a field experiment in which a large seismic shaker ...
Soil sites have a profound effect on ground motion during earthquakes due to their low wave speeds,...
Instrumented geotechnical field sites are designed to capture the infrequent but critically importan...
An in-situ measurement method is proposed to evaluate the nonlinear properties of near-surface soils...
We analyze the nonlinear and near-surface geological effects of two Network for Earthquake Engineeri...
We investigate the empirical relationship between site response nonlinearity, soil properties, and g...
Abstract We evaluate the nonlinear behavior of soil sediments during strong ground shaking based on ...
In this paper we present the results of a seismic experiment using data produced by an active Vibros...
We study how the peak velocity of an SV-wave pulse on the ground surface of a two-dimensional soil v...
Refuge accelerogram, 1987 Superstition Hills, CA; and the Kushiro Port station, 1993 Kushiro-Oki, Ja...
We study the reduction of peak velocity on the ground surface of a soil valley for excitation by an ...
This article investigates the effects of the nonlinear behavior of soils on site response, through v...
We study the reduction of peak velocity on the ground surface of a soil valley caused by loss of wav...
We present results from a prototype experiment in which we actively induce, observe, and quantify in...
We present results from a prototype experiment in which we actively induce, observe, and quantify in...
We present results and in situ measurements from a field experiment in which a large seismic shaker ...
Soil sites have a profound effect on ground motion during earthquakes due to their low wave speeds,...
Instrumented geotechnical field sites are designed to capture the infrequent but critically importan...
An in-situ measurement method is proposed to evaluate the nonlinear properties of near-surface soils...
We analyze the nonlinear and near-surface geological effects of two Network for Earthquake Engineeri...
We investigate the empirical relationship between site response nonlinearity, soil properties, and g...
Abstract We evaluate the nonlinear behavior of soil sediments during strong ground shaking based on ...
In this paper we present the results of a seismic experiment using data produced by an active Vibros...
We study how the peak velocity of an SV-wave pulse on the ground surface of a two-dimensional soil v...
Refuge accelerogram, 1987 Superstition Hills, CA; and the Kushiro Port station, 1993 Kushiro-Oki, Ja...
We study the reduction of peak velocity on the ground surface of a soil valley for excitation by an ...
This article investigates the effects of the nonlinear behavior of soils on site response, through v...
We study the reduction of peak velocity on the ground surface of a soil valley caused by loss of wav...