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On the derivation of coseismic displacement fields using differential radar interferometry: The Landers earthquake (1994)

Rosen, Paul A. ; Zebker, Howard A. ; Goldstein, Richard M. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: We present a map of the coseimic displacement field resulting from the Landers, California, June 28, 1992, earthquake derived using data acquired from an orbiting high-resolution radar system. We achieve results more accurate than previous space studies and similar in accuracy to those obtained by conventional field survey techniques. Data from the ERS 1 synthetic aperture radar instrument acquired in April, July, and August 1992 are used to generate a high-resolution, wide area map of the displacements. The data represent the motion in the direction of the radar line of sight to centimeter level precision of each 30-m resolution element in a 113 km by 90 km image. Our coseismic displacement contour map gives a lobed pattern consistent with theoretical models of the displacement field from the earthquake. Fine structure observed as displacement tiling in regions several kilometers from the fault appears to be the result of local surface fracturing. Comparison of these data with Global Positioning System and electronic distance measurement survey data yield a correlation of 0.96; thus the radar measurements are a means to extend the point measurements acquired by traditional techniques to an area map format. The technique we use is (1) more automatic, (2) more precise, and (3) better validated than previous similar applications of differential radar interferometry. Since we require only remotely sensed satellite data with no additioanl requirements for ancillary information. the technique is well suited for global seismic monitoring and analysis.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 99; B10; p. 19,617-19,635

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Status of a UAV SAR Designed for Repeat Pass Interferometry for Deformation Measurements (2004)

Madsen, Soren ; Zebker, Howard ; Lou, Yunling ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Under the NASA ESTO sponsored Instrument Incubator Program we have designed a lightweight, reconfigurable polarimetric L-band SAR designed for repeat pass deformation measurements of rapidly deforming surfaces of geophysical interest such as volcanoes or earthquakes. This radar will be installed on an unmanned airborne vehicle (UAV) or a lightweight, high-altitude, and long endurance platform such as the Proteus. After a study of suitable available platforms we selected the Proteus for initial development and testing of the system. We want to control the repeat track capability of the aircraft to be within a 10 m tube to support the repeat deformation capability. We conducted tests with the Proteus using real-time GPS with sub-meter accuracy to see if pilots could fly the aircraft within the desired tube. Our results show that pilots are unable to fly the aircraft with the desired accuracy and therefore an augmented autopilot will be required to meet these objectives. Based on the Proteus flying altitude of 13.7 km (45,000 ft), we are designing a fully polarimetric L-band radar with 80 MHz bandwidth and 16 km range swath. This radar will have an active electronic beam steering antenna to achieve Doppler centroid stability that is necessary for repeat-pass interferometry (RPI). This paper will present are design criteria, current design and expected science applications.

Keywords: Geophysics

Type: Earth Science Technology Conference; Jun 22, 2004; Palto Alto, CA; United States

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NASA-ISRO SAR Collaboration: Monitoring the Dynamic Earth from Space - a NASA-ISRO Radar Mission (2013)

Chatterjee, Alok ; Rosen, Paul

In: Other Sources

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Spacecraft Design, Testing and Performance; Earth Resources and Remote Sensing; Communications and Radar

Type: IIT Alumni Association Public Lecture Series; Nov 24, 2013; Kolkata; India

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Detection of aseismic creep along the San Andreas fault near Parkfield, California with ERS-1 radar interferometry (1997)

Fielding, Eric ; Buckley, Sean ; Hensley, Scott ; [et al.]

In: CASI

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Publication Date: 2019-08-15

Description: The differential interferometric analysis of ERS data from Parkfield (CA) observations revealed the wide area distribution of creep along the moving fault segment of the San Andreas fault over a 15 month interval. The removal of the interferometric phase related to the surface topography was carried out. The fault was clearly visible in the differential interferogram. The magnitude of the tropospheric water vapor phase distortions is greater than the signal and hinders quantitative analysis beyond order of magnitude calculations.

Keywords: Geophysics

Type: Proceedings of the 3rd ERS Symposium on Space at the Service of Our Environment, volume 1; 1; 521-524; ESA-SP-414-Vol-1

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