The International Information Center for Geotechnical Engineers

Geophysical Exploration

Practical Reviews on CO Sequestration in Korean Sedimentary Basins and Geophysical Responses of CO -injected Sediments
I.H. Chang,T.H. Kwon,G.C. Cho,A.R. Kim. (2013).
Massive landslide at Utah copper mine generates wealth of geophysical data
Kristine L. Pankow, Jeffrey R. Moore, J. Mark Hale, Keith D. Koper, Tex Kubacki, Katherine M. Whidden, Michael K. McCarter. (2013).
New Seismic Imaging of the Coso Geothermal Field, Eastern California
S. Pullammanappallil, Bill Honjas, Jeff Unruh, Frank Monastero. ().
Characterizing potential 'bridging ground' conditions using the refraction microtremor (ReMi) surface seismic technique
Michael L. Rucker. ().
Inversion of seismic reflection traveltimes using a nonlinear optimization scheme
John N. Louie, S. Pullammanappallil. (1993).
A Generalized Simulated-Annealing Optimization for Inversion of First-Arrival Times
S. Pullammanappallil, John N. Louie. (1994).
Geophysical Exploration for Engineering and Environmental Investigations
. (1995).
A combined first-arrival travel time and reflection coherency optimization approach to velocity estimation
John N. Louie, S. Pullammanappallil. (1997).
Velocity Models for the Highly Extended Crust of Death Valley, California
John N. Louie, S. Pullammanappallil, Bill Honjas. (1997).
Inversion of travel time data for earthquake locations and three-dimensional velocity structure in the Eureka Valley area, eastern California
Abu M. Asad, S. Pullammanappallil, Rasool Anooshehpoor, John N. Louie. (1999).
AUse of Advanced Data Processing Techniques in the Imaging of the Coso Geothermal Field
S. Pullammanappallil, Bill Honjas, Jeff Unruh, Frank Monastero. (2001).
Faster, Better: Shear-Wave Velocity to 100 Meters Depth From Refraction Microtremor Arrays
John N. Louie. (2001).
Numerical and experimental comparison between 2-station and multistation methods for spectral analysis of surface waves
S. Foti. (2002).
Seismic refraction interpretation with velocity gradient and depth of investigation
Michael L. Rucker. (2002).
Seismic refraction analysis of landslides
Charles F. Narwold, William P. Owen. (2002).
Comparative Study of the Refraction Microtremor (ReMi) Method: Using Seismic noise and standard P-wave refraction equipment for deriving 1-D S-wave profiles
S. Pullammanappallil, Bill Honjas, John N. Louie, J. A. Siemens, Hidetoshi Miura. (2003).
Determination of 1-D shear wave velocities using the refraction microtremor method
S. Pullammanappallil, Bill Honjas, John N. Louie. (2003).
Applying the refraction microtremor (ReMi) shear wave technique to geotechnical characterization
Michael L. Rucker. (2003).
The Northern Walker Lane Refraction Experiment: Pn Arrivals and the Northern Sierra Nevada Root
John N. Louie, Weston Thelen, Shane B. Smith, Matthew Clark, S. Pullammanappallil, B. Scott. (2004).
Esperienze Di Misura Vs30 Con la Tecnica Refraction Microtremor (ReMi) (in Italian)
Luigi Veronese, Tomas Garbari. (2004).
An Evaluation of Methods and Available Software for Seismic Refraction Tomography Analysis
Jacob R. Sheehan, William E. Doll, Wayne A. Mandell. (2005).
Blind Comparisons Of Shear-Wave Velocities At Closely-Spaced Sites In San Jose, California
Michael W. Asten, David M. Boore. (2005).
Blind shear-wave velocity comparison of ReMi and MASW results with boreholes to 200m in Santa Clara Valley: Implications for earthquake ground motion assessment
W. J. Stephenson, John N. Louie, R. A. Williams, J. K. Odum, S. Pullammanappallil. (2005).
Ground Proving Three Seismic Refraction Tomography Programs
Dennis R. Hiltunen, Nick Hudyma, Timothy P. Quigley, Chandra Samakur. (2006).
Integrating seismic refraction and surface wave data collection and interpretation for geotechnical site characterization
Michael L. Rucker. (2006).
Surface geophysics as tools for characterizing existing bridge foundations and scour conditions
Michael L. Rucker. (2006).
Use of refraction microtremor (REMI) data for shear wave velocity determination at an urban bridge rehabilitation site
Douglas W. Lambert, C.G. Adams, Veronica Hawley. (2006).
Reliability of combined active and passive surface wave methods
D. Boiero, C. Comina, S. Foti. (2007).