Geophysical Exploration for Engineering and Environmental
Investigations, Engineering Design Manual (EM 1110-1-1802),
available by the US Army Corps of Engineers (1995).
Sebastiano Foti (2000), Multistation Methods for Geotechnical
Characterization using Surface Waves, PhD thesis under the
supervision of Professor Lancellotta.
John N. Louie, (2001). Faster, Better: Shear-Wave Velocity to 100
Meters Depth From Refraction Microtremor Arrays. Bulletin of the
Seismological Society of America, vol. 91, no. 2, p. 347-364. Pdf version.
Michael L. Rucker, (2003). Applying the refraction microtremor (ReMi)
shear wave technique to geotechnical characterization. Proceedings of
the third international conference on the application of geophysical
methodologies and NDT to transportation and infrastructure, Orlando,
Florido, USA.
W. J. Stephenson, J. N. Louie, S. Pullammanappallil, R. A. Williams, and
J. K. Odum, (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. Bulletin of the
Seismological Society of America, Vol 95., No 6, p. 2506-2516.
Douglas W. Lambert, Glen Adams, and Veronica Hawley, (2007). Use
of refraction microtremor (REMI) data for shear wave velocity
determination at an urban bridge rehabilitation site. Geophysics 2006
conference, St. Louis, Missouri, USA.
Michael L. Rucker. Characterizing potential 'bridging ground' conditions
using the refraction microtremor (ReMi) surface seismic technique.
Satish Pullammanappallil, Bill Honjas, and John Louie, (2003).
Determination of 1-D shear wave velocities using the refraction
microtremor method. Proceedings of the third international conference
on the application of geophysical methodologies and NDT to
transportation and infrastructure, Orlando, Florido, USA.
Satish Pullammanappallil, Bill Honjas, John Louie, J. A. Siemens, and
Hidetoshi Miura, (2003). Comparative Study of the Refraction
Microtremor (ReMi) Method: Using Seismic noise and standard P-wave
refraction equipment for deriving 1-D S-wave profiles. 6th international
SEG-J conference, Tokyo, Japan.
Luigi Veronese and Tomas Garbari, (2004). Esperienze Di Misura Vs30
Con la Tecnica Refraction Microtremor (ReMi) (in Italian). Convegno La
Geofisca e La Nuova Normativa Sismica, Venezia.
Michael W. Asten and David M. Boore, (2005). Blind Comparisons Of
Shear-Wave Velocities At Closely-Spaced Sites In San Jose, California.
U.S. Geological Survey Open-File Report 2005-1169 Version 1.0
Michael L. Rucker, (2006). Surface geophysics as tools for
characterizing existing bridge foundations and scour conditions.
Geophysics 2006 conference, St. Louis, Missouri, USA.
Michael L. Rucker, (2006). Integrating seismic refraction and surface
wave data collection and interpretation for geotechnical site
characterization. Geophysics 2006 conference, St. Louis, Missouri, USA.
Robert E. Abbott, Lewis C. Bartel, Bruce P. Engler, Satish
Pullamannappallil, (2006). Surface-wave and refraction tomography at
the FACT Site, Sandia National Laboratories, Alburquerque, New
Mexico. SAND2006--5098, Sandia National Laboratories, California.
Satish Pullammanappallil and John Louie, (1994). A Generalized
Simulated-Annealing Optimization for Inversion of First-Arrival Times.
Bulletin of the Seismological Society of America, Vol. 84, No. 5, pp.
1397-1409.
Charles F. Narwold and William P. Owen, (2002). Seismic refraction
analysis of landslides. Proceedings of the Geophysics 2002
conference, Los Angeles, California.
Michael L. Rucker, (2002). Seismic refraction interpretation with
velocity gradient and depth of investigation. Proceedings of the
Geophysics 2002 conference, Los Angeles, California.
John N. Louie, Weston Thelen, Shane B. Smith, Jim B. Scott, Matthew
Clark, Satish Pullammanappallil, (2004). The Northern Walker Lane
Refraction Experiment: Pn Arrivals and the Northern Sierra Nevada
Root. Tectonophysics, vol. 388, no. 1-4, p. 253-269.
John Louie, Satish Pullammanappallil, and Bill Honjas, (1997). Velocity
Models for the Highly Extended Crust of Death Valley, California.
Geophysical Research Letters, v. 24, p. 735-738.
Satish Pullammanappallil and John Louie, (1993). Inversion of seismic
reflection traveltimes using a nonlinear optimization scheme.
Geophysics, vol. 58, No. 11, p 1607-1620.
Satish Pullammanappallil and John Louie, (1997). A combined
first-arrival travel time and reflection coherency optimization approach
to velocity estimation. Geophysical Research Letters, vol. 24, no. 5, p.
511-514.
Satish Pullammanappalil, Bill Honjas, Jeff Unruh, and Frank Monastero,
(2001).Use of Advanced Data Processing Techniques in the Imaging of
the Coso Geothermal Field. Proceedings 26th Workshop on
Geothermal Reservoir Engineering, Stanford University, California.
Jeff Unruh, Satish Pullammanappallil, Bill Honjas, and Frank Monastero.
New Seismic Imaging of the Coso Geothermal Field, Eastern California.
Abu M. Asad, Satish Pullammanappallil, Rasool Anooshehpoor, and
John Louie, (1999). Inversion of travel time data for earthquake
locations and three-dimensional velocity structure in the Eureka Valley
area, eastern California. Bulletin of Seismological Society of America,
89, pp 796-810.
Jacob R. Sheehan, William E. Doll and Wayne A. Mandell, (2005). An
Evaluation of Methods and Available Software for Seismic Refraction
Tomography Analysis. Abstract. Journal of Environmental &
Engineering Geophysics; March 2005; Vol. 10; pp. 21-34.
Dennis R. Hiltunen, Nick Hudyma, Timothy P. Quigley, Chandra
Samakur, (2006). Ground Proving Three Seismic Refraction
Tomography Programs. Abstract. Geophysics 2006 conference, St.
Louis, Missouri, USA.
Investigations, Engineering Design Manual (EM 1110-1-1802),
available by the US Army Corps of Engineers (1995).
Sebastiano Foti (2000), Multistation Methods for Geotechnical
Characterization using Surface Waves, PhD thesis under the
supervision of Professor Lancellotta.
John N. Louie, (2001). Faster, Better: Shear-Wave Velocity to 100
Meters Depth From Refraction Microtremor Arrays. Bulletin of the
Seismological Society of America, vol. 91, no. 2, p. 347-364. Pdf version.
Michael L. Rucker, (2003). Applying the refraction microtremor (ReMi)
shear wave technique to geotechnical characterization. Proceedings of
the third international conference on the application of geophysical
methodologies and NDT to transportation and infrastructure, Orlando,
Florido, USA.
W. J. Stephenson, J. N. Louie, S. Pullammanappallil, R. A. Williams, and
J. K. Odum, (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. Bulletin of the
Seismological Society of America, Vol 95., No 6, p. 2506-2516.
Douglas W. Lambert, Glen Adams, and Veronica Hawley, (2007). Use
of refraction microtremor (REMI) data for shear wave velocity
determination at an urban bridge rehabilitation site. Geophysics 2006
conference, St. Louis, Missouri, USA.
Michael L. Rucker. Characterizing potential 'bridging ground' conditions
using the refraction microtremor (ReMi) surface seismic technique.
Satish Pullammanappallil, Bill Honjas, and John Louie, (2003).
Determination of 1-D shear wave velocities using the refraction
microtremor method. Proceedings of the third international conference
on the application of geophysical methodologies and NDT to
transportation and infrastructure, Orlando, Florido, USA.
Satish Pullammanappallil, Bill Honjas, John Louie, J. A. Siemens, and
Hidetoshi Miura, (2003). Comparative Study of the Refraction
Microtremor (ReMi) Method: Using Seismic noise and standard P-wave
refraction equipment for deriving 1-D S-wave profiles. 6th international
SEG-J conference, Tokyo, Japan.
Luigi Veronese and Tomas Garbari, (2004). Esperienze Di Misura Vs30
Con la Tecnica Refraction Microtremor (ReMi) (in Italian). Convegno La
Geofisca e La Nuova Normativa Sismica, Venezia.
Michael W. Asten and David M. Boore, (2005). Blind Comparisons Of
Shear-Wave Velocities At Closely-Spaced Sites In San Jose, California.
U.S. Geological Survey Open-File Report 2005-1169 Version 1.0
Michael L. Rucker, (2006). Surface geophysics as tools for
characterizing existing bridge foundations and scour conditions.
Geophysics 2006 conference, St. Louis, Missouri, USA.
Michael L. Rucker, (2006). Integrating seismic refraction and surface
wave data collection and interpretation for geotechnical site
characterization. Geophysics 2006 conference, St. Louis, Missouri, USA.
Robert E. Abbott, Lewis C. Bartel, Bruce P. Engler, Satish
Pullamannappallil, (2006). Surface-wave and refraction tomography at
the FACT Site, Sandia National Laboratories, Alburquerque, New
Mexico. SAND2006--5098, Sandia National Laboratories, California.
Satish Pullammanappallil and John Louie, (1994). A Generalized
Simulated-Annealing Optimization for Inversion of First-Arrival Times.
Bulletin of the Seismological Society of America, Vol. 84, No. 5, pp.
1397-1409.
Charles F. Narwold and William P. Owen, (2002). Seismic refraction
analysis of landslides. Proceedings of the Geophysics 2002
conference, Los Angeles, California.
Michael L. Rucker, (2002). Seismic refraction interpretation with
velocity gradient and depth of investigation. Proceedings of the
Geophysics 2002 conference, Los Angeles, California.
John N. Louie, Weston Thelen, Shane B. Smith, Jim B. Scott, Matthew
Clark, Satish Pullammanappallil, (2004). The Northern Walker Lane
Refraction Experiment: Pn Arrivals and the Northern Sierra Nevada
Root. Tectonophysics, vol. 388, no. 1-4, p. 253-269.
John Louie, Satish Pullammanappallil, and Bill Honjas, (1997). Velocity
Models for the Highly Extended Crust of Death Valley, California.
Geophysical Research Letters, v. 24, p. 735-738.
Satish Pullammanappallil and John Louie, (1993). Inversion of seismic
reflection traveltimes using a nonlinear optimization scheme.
Geophysics, vol. 58, No. 11, p 1607-1620.
Satish Pullammanappallil and John Louie, (1997). A combined
first-arrival travel time and reflection coherency optimization approach
to velocity estimation. Geophysical Research Letters, vol. 24, no. 5, p.
511-514.
Satish Pullammanappalil, Bill Honjas, Jeff Unruh, and Frank Monastero,
(2001).Use of Advanced Data Processing Techniques in the Imaging of
the Coso Geothermal Field. Proceedings 26th Workshop on
Geothermal Reservoir Engineering, Stanford University, California.
Jeff Unruh, Satish Pullammanappallil, Bill Honjas, and Frank Monastero.
New Seismic Imaging of the Coso Geothermal Field, Eastern California.
Abu M. Asad, Satish Pullammanappallil, Rasool Anooshehpoor, and
John Louie, (1999). Inversion of travel time data for earthquake
locations and three-dimensional velocity structure in the Eureka Valley
area, eastern California. Bulletin of Seismological Society of America,
89, pp 796-810.
Jacob R. Sheehan, William E. Doll and Wayne A. Mandell, (2005). An
Evaluation of Methods and Available Software for Seismic Refraction
Tomography Analysis. Abstract. Journal of Environmental &
Engineering Geophysics; March 2005; Vol. 10; pp. 21-34.
Dennis R. Hiltunen, Nick Hudyma, Timothy P. Quigley, Chandra
Samakur, (2006). Ground Proving Three Seismic Refraction
Tomography Programs. Abstract. Geophysics 2006 conference, St.
Louis, Missouri, USA.
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