This study examines the performance of nonlinear total-stress wave-propagation site response analysis for modelling site effects in physics-based ground motion simulations of the 2010-2011 Canterbury, New Zealand earthquake sequence. This approach allows for explicit modeling of 3-dimensional ground motion phenomena at the regional scale, as well as detailed site effects and soil nonlinearity at the local scale. The approach is compared to a more commonly used empirical VS30 (30 m time-averaged shear wave velocity)-based method for computing site amplification as proposed by Graves and Pitarka (2010, 2015)
1. Background and Objectives This poster presents results from ground motion simulations of small-...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
Studies of earthquakes over the last 50 years and the examination of dynamic soil behavior reveal th...
This poster discusses several possible approaches by which the nonlinear response of surficial soils...
Heathcote Valley school strong motion station (HVSC) consistently recorded ground motions with high...
The objective of this thesis is to improve the physical understanding of earthquake ground motion ch...
Site amplification functions are used to modify ground motions from a reference bedrock condition to...
We investigate the empirical relationship between site response nonlinearity, soil properties, and g...
The modeling of earthquake-induced ground motions plays an important role in the quantification of s...
Hybrid broadband simulation methods typically compute high-frequency portion of ground-motions using...
Site response models are frequently used in engineering practice to predict surficial ground motions...
Seismic site effect has been a major issue in the field of earthquake engineering due to the large l...
The research addresses Dunedin-Mosgiel seismic hazard. We use scenario earthquakes from local active...
The 2010-2011 Canterbury earthquakes were recorded over a dense strong motion network in the near-s...
We analyze NGA-West2 data and simulations to develop a site amplification model that captures ground...
1. Background and Objectives This poster presents results from ground motion simulations of small-...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
Studies of earthquakes over the last 50 years and the examination of dynamic soil behavior reveal th...
This poster discusses several possible approaches by which the nonlinear response of surficial soils...
Heathcote Valley school strong motion station (HVSC) consistently recorded ground motions with high...
The objective of this thesis is to improve the physical understanding of earthquake ground motion ch...
Site amplification functions are used to modify ground motions from a reference bedrock condition to...
We investigate the empirical relationship between site response nonlinearity, soil properties, and g...
The modeling of earthquake-induced ground motions plays an important role in the quantification of s...
Hybrid broadband simulation methods typically compute high-frequency portion of ground-motions using...
Site response models are frequently used in engineering practice to predict surficial ground motions...
Seismic site effect has been a major issue in the field of earthquake engineering due to the large l...
The research addresses Dunedin-Mosgiel seismic hazard. We use scenario earthquakes from local active...
The 2010-2011 Canterbury earthquakes were recorded over a dense strong motion network in the near-s...
We analyze NGA-West2 data and simulations to develop a site amplification model that captures ground...
1. Background and Objectives This poster presents results from ground motion simulations of small-...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
Studies of earthquakes over the last 50 years and the examination of dynamic soil behavior reveal th...