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In situ timing and pointing verification of the ICESat altimeter using a ground‐based system
Author(s) -
Magruder L.,
Silverberg E.,
Webb C.,
Schutz B.
Publication year - 2005
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2005gl023504
Subject(s) - altimeter , geolocation , remote sensing , footprint , laser , environmental science , in situ , detector , computer science , geology , geodesy , optics , physics , meteorology , telecommunications , paleontology , world wide web
To provide validation of the ICESat laser altimeter time of measurement and geolocation, a ground‐based technique was implemented at White Sands Space Harbor (WSSH), during the Laser 2a and 3a operational periods. The activities used an electro‐optical detection system and a passive array of corner cube retro reflectors (CCR). The detectors and the CCRs were designed to provide an independent assessment of the laser footprint location, while the detectors also provide timing verification. This ground‐based system unambiguously validated the elevation product time tag to 3 μsec ± 1 μsec. In addition, the ground equipment provided in situ geolocations of the laser pulse. Comparing the in situ results to the ICESat GLA14 data product the positions differ by 10.6 m ± 4.5 m for Laser 2a (Release 21) operations and 7.5 m ± 6.6 m for Laser 3a (Release 23). These comparisons correlate to pointing validations at this site, for the specific overflight configurations.

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