Add to ORKGThe SKYLAB-193 radar altimeter was operated nearly continuously around the world on January 31, 1974. This direct measurement of the sea surface topography provided an independent basis for the evaluation of global geoids computed from satellite derived gravity models. The differences between the altimeter geoid and the satellite geoids were as large as 25 meters with rms values ranging from 8 to 10 meters. These differences also indicated a systematic long wavelength variation (approximately 100 deg) not related to error in the SKYLAB orbits. Truncation of the models to degree and order eight did not eliminate the long wavelength variation, but in every case the rms agreement between satellite and altimeter geoids was improved. Orbits comp...
For the Skylab S-193 radar altimeter, data processing flow charts and identification of calibration ...
Progress in the following areas is described: refining altimeter and altimeter crossover measurement...
The accuracy with which the local ocean geoid structure could be determined using satellite altimetr...
The determination of the sea surface/geoid and its relative variation were investigated and results ...
The author had identified the following significant results. The major results can be divided broadl...
The Skylab Altimeter Experiment has proven the capability of the altimeter for measurement of sea su...
A detailed gravimetric geoid was computed for the Northwest Atlantic Ocean and Caribbean Sea area in...
The author has identified the following significant results. The analysis was based on a time series...
The author has identified the following significant results. The analysis was based on a time series...
A summary of the significant hardware characteristics of the S-193 altimeter experiment portion of t...
The design of optimum filtering procedures for geoid recovery is discussed. Statistical error bounds...
The GEOS-C spacecraft is scheduled to carry onboard a radar altimeter for the purpose of measuring t...
The SKYLAB S-193 altimeter altitude results are presented in a concise format for further use and an...
The data were adjusted to remove orbit error and altimeter bias in a primary adjustment and four reg...
Gravity anomalies have been recovered in the North Atlantic and the Indian Ocean regions. Comparison...
For the Skylab S-193 radar altimeter, data processing flow charts and identification of calibration ...
Progress in the following areas is described: refining altimeter and altimeter crossover measurement...
The accuracy with which the local ocean geoid structure could be determined using satellite altimetr...
The determination of the sea surface/geoid and its relative variation were investigated and results ...
The author had identified the following significant results. The major results can be divided broadl...
The Skylab Altimeter Experiment has proven the capability of the altimeter for measurement of sea su...
A detailed gravimetric geoid was computed for the Northwest Atlantic Ocean and Caribbean Sea area in...
The author has identified the following significant results. The analysis was based on a time series...
The author has identified the following significant results. The analysis was based on a time series...
A summary of the significant hardware characteristics of the S-193 altimeter experiment portion of t...
The design of optimum filtering procedures for geoid recovery is discussed. Statistical error bounds...
The GEOS-C spacecraft is scheduled to carry onboard a radar altimeter for the purpose of measuring t...
The SKYLAB S-193 altimeter altitude results are presented in a concise format for further use and an...
The data were adjusted to remove orbit error and altimeter bias in a primary adjustment and four reg...
Gravity anomalies have been recovered in the North Atlantic and the Indian Ocean regions. Comparison...
For the Skylab S-193 radar altimeter, data processing flow charts and identification of calibration ...
Progress in the following areas is described: refining altimeter and altimeter crossover measurement...
The accuracy with which the local ocean geoid structure could be determined using satellite altimetr...