Ionospheric propagation effects on ground and space based radars

This paper discusses the application of EM propagation theory to account for observations of scintillation from equatorial satellite beacon and radar measurements of transionospheric propagation. Satellite beacon measurements from the wideband satellite experiment are used to calculate the degradati...

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Bibliographic Details
Main Authors: Knepp, D.L., Hausman, M.A.
Format: Conference Proceeding
Language:English
Subjects:
Bandwidth
Degradation
Doppler radar
Earth
Partial differential equations
Radar measurements
Radar scattering
Satellites
Spaceborne radar
UHF measurements
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Summary:This paper discusses the application of EM propagation theory to account for observations of scintillation from equatorial satellite beacon and radar measurements of transionospheric propagation. Satellite beacon measurements from the wideband satellite experiment are used to calculate the degradation caused by scintillation in the radar coherent integration process. Coherent integration will be required in any space based radar to achieve separation in Doppler of moving targets from the large return of the earth. Measurements of ionospheric scintillation in the equatorial region taken with the VHF/UHF ALTAIR radar in the Marshall Islands are described. These measurements support the use of the strong scatter limit of the parabolic wave equation that accounts for certain features of the observations. A technique is illustrated to calculate realizations or sample functions of wide bandwidth radar signals that have passed through the ionosphere. This technique gives realizations that are consistent with the ALTAIR observations. Results are given for radar performance of target detection for several different radar signal combining techniques.
DOI:10.1109/RADAR.2003.1278713