J. M. Diamante scite author profile

J. M. Diamante

4Publications

13Citation Statements Received

11Citation Statements Given

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Affiliations

Office of Oceanic and Atmospheric Research, National Oceanic and Atmospheric Administration, National Ocean Service

Publications

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The application of geodetic radio interferometric surveying to the monitoring of sea-level

1986

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Under project IRIS (International Radio lnterferometric Surveying) geodesists are using Very Long Baseline Interferometry (VLBI) to monitor polar motion to 1-2 ms of arc and UTl to 0.05-0.10 ms, and to develop a global geodynamic network to detect and study centimetre level displacements of reference points associated with large-scale phenomena such as tectonic plate motion and glacial rebound. Differential positioning techniques using the signals broadcast by the satellites of the Global Positioning System (GPS) are being used to study fiier scale phenomena, such as localized subsidence, and economically to relate these specialized surveys to the geodynamic network. Including tide gauge stations in this system will make it possible to detect motions of specific gauges and correct or delete the measurements from those gauges when computing changes in sea-level. The National Oceanic and Atmospheric Administration (NOAA) has selected several tide gauges on the east and west coasts of the United States, and initial epoch GPS surveys to tie the gauges to VLBI observations have already begun. Other countries participating in project IRIS are planning similar activities. In addition to providing a globally based land reference datum for the tide gauge measurements, the IRIS polar motion and UTl time series may contribute directly to monitoring and interpreting global sea level changes. Changes in the volume and distribution of ice masses result in longterm motions of the axis of rotation, and sea-level changes affect the length of day (lod). The IRIS time series will certainly have the resolution required to detect the expected polar motion and changes in lod, and a properly designed global VLBI/GPS network should allow the ice/sea-level effects to be separated from crustal dynamics effects.

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Seasat Altimeter Calibration: Initial Results

Tapley

Born

Hagar

et al. 1979

Science

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Preliminary analysis of radar altimeter data indicates that the instrument has met its specifications for measuring spacecraft height above the ocean surface (+/- 10 centimeters) and significant wave height (+/- 0.5 meter). There is ample evidence that the radar altimeter, having undergone development through three earth orbit missions [Skylab, Geodynamics Experimental Ocean Satellite 3 (GEOS-3), and Seasat], has reached a level of precision that now makes possible its use for important quantitative oceanographic investigations and practical applications.

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Application of Satellite Radar Altimeter Data to the Determination of Regional Tidal Constituents and the Mean Sea Surface

Diamante

Nee

1981

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Global absolute sea level: The Hawaiian network

et al. 1988

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J. M. Diamante

The application of geodetic radio interferometric surveying to the monitoring of sea-level

Seasat Altimeter Calibration: Initial Results

Application of Satellite Radar Altimeter Data to the Determination of Regional Tidal Constituents and the Mean Sea Surface

Global absolute sea level: The Hawaiian network

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