Add to ORKGUsing GPS data collected at various benchmarks in a transect across the Pacific-North American plate boundary through the eastern San Bernardino Mountains, slip rates were determined for the faults in that area. Possible slip rate combinations for thirteen faults along the North American and Pacific plate boundary were tested to determine which of these slip rate combinations best fit with observed GPS site velocities. An envelope was created to house an acceptable range of model predictions that fall among the observed velocities. The slip-rate models that fell into this acceptable range are as follows; 0-8 mm/yr for the San Andreas fault, with corresponding rates of 22 and 14 mm/yr, respectively, for the San Jacinto fault. The best-fittin...
During 2015, California State University, San Bernardino (CSUSB) students have used GPS to estimate ...
©2015. American Geophysical Union. Campaign GPS data collected from 2002 to 2014 result in 41 new si...
©2015. American Geophysical Union. All Rights Reserved. Campaign GPS data collected from 2002 to 201...
Global Positioning Systems (GPS) data were collected from various localities in the San Bernardino M...
Global Positioning System (GPS) site velocities were utilized to reveal the nature of deformation al...
Using benchmarks within the Brawley transect, possible slip rate combinations were determined for se...
GPS data monitoring motions of benchmarks at the surface of the Earth, combined with a geophysical m...
Through GPS research I have obtained probable slip rates for ten faults within a transect across the...
A model of elastic motion along with Global Positioning System (GPS) was employed in order to establ...
GPS data collected by CSUSB students from benchmarks within a transect across the Pacific-North Amer...
In this study, the slip rates of the Imperial, Elsinore, Agua Blanca, and San Miguel Faults were inv...
In this study, the slip rates of the Imperial, Elsinore, Agua Blanca, and San Miguel Faults were inv...
The San Andreas Fault and smaller surrounding faults in the San Bernardino Section were tested with ...
I used elastic modeling of GPS data from a transect across the Pacific/North American plate boundary...
This study uses elastic modeling of GPS measurements to estimate slip rates of major faults along th...
During 2015, California State University, San Bernardino (CSUSB) students have used GPS to estimate ...
©2015. American Geophysical Union. Campaign GPS data collected from 2002 to 2014 result in 41 new si...
©2015. American Geophysical Union. All Rights Reserved. Campaign GPS data collected from 2002 to 201...
Global Positioning Systems (GPS) data were collected from various localities in the San Bernardino M...
Global Positioning System (GPS) site velocities were utilized to reveal the nature of deformation al...
Using benchmarks within the Brawley transect, possible slip rate combinations were determined for se...
GPS data monitoring motions of benchmarks at the surface of the Earth, combined with a geophysical m...
Through GPS research I have obtained probable slip rates for ten faults within a transect across the...
A model of elastic motion along with Global Positioning System (GPS) was employed in order to establ...
GPS data collected by CSUSB students from benchmarks within a transect across the Pacific-North Amer...
In this study, the slip rates of the Imperial, Elsinore, Agua Blanca, and San Miguel Faults were inv...
In this study, the slip rates of the Imperial, Elsinore, Agua Blanca, and San Miguel Faults were inv...
The San Andreas Fault and smaller surrounding faults in the San Bernardino Section were tested with ...
I used elastic modeling of GPS data from a transect across the Pacific/North American plate boundary...
This study uses elastic modeling of GPS measurements to estimate slip rates of major faults along th...
During 2015, California State University, San Bernardino (CSUSB) students have used GPS to estimate ...
©2015. American Geophysical Union. Campaign GPS data collected from 2002 to 2014 result in 41 new si...
©2015. American Geophysical Union. All Rights Reserved. Campaign GPS data collected from 2002 to 201...