Large area sea mapping with Ground-Ionosphere-Ocean-Space (GIOS)
- Resource Type
- Authors
- Andrew W. Yau; Gordon James; Paul A. Bernhardt; Greg Enno; Carl L. Siefring; S. J. Briczinski; Donald E. Barrick; Jehu Bryant; Andrew G Howarth
- Source
- OCEANS 2016 MTS/IEEE Monterey.
- Subject
- 010504 meteorology & atmospheric sciences
Spacecraft
business.industry
Geodesy
High frequency
01 natural sciences
Physics::Geophysics
law.invention
Bistatic radar
law
Surface wave
Physics::Space Physics
0103 physical sciences
Orbit (dynamics)
Satellite
Radar
Ionosphere
business
010303 astronomy & astrophysics
Physics::Atmospheric and Oceanic Physics
Geology
0105 earth and related environmental sciences
Remote sensing
- Language
The GIOS program has conducted HF scatter and ionosphere propagation tests to show that a single HF transmitter can illuminate greater than 1000 km of ocean surface and scatter waves to single satellite in low earth orbit. The receiver in orbit samples the HF illuminated area to measure Brag scatter from the ocean with signals that pass through the ionosphere. The Doppler shifts and group delays map to specific points on the ocean surface at each point in the satellite orbit. Using the theory of ocean scatter, both coherent (specular) and incoherent (Bragg) scatter components at HF frequency provides bistatic sampling of global ocean surface. Data based models of the waveheight spectrum have been used in simulations to validate this concept. Experimental tests with the HF transmitter of ROTHR/VA and space based receiver of ePOP/RRI have provided data that were collected in April 2015. Actual interpretation in of the satellite measurements in terms of ocean surface parameters is in progress. A practical GIOS system will require measurements from a spacecraft flying below the ionosphere. For this purpose, the Naval Research Laboratory has designed a satellite called CARINA which will orbit the earth at an altitude of 200 to 250 km for 60 days.