Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
X-band (9.5-10.0 GHz) backscatter at near grazing incidence (0.2 deg) from the sea off the coast of Kauai, Hawaii, was measured with a radar characterized by a high spatial resolution in range (0.3 m) and a high temporal resolution (2000 Hz pulse repetition frequency (PRF)). Extensive amounts (over 20 min per measurement) of vertically and horizontally polarized sea clutter data were taken with upwind (UP) and crosswind (CR) transmit geometries during the collection campaign. Specific but representative examples of the clutter were statistically and phenomenologically analyzed over time scales varying from long (200 s), to intermediate (5 s), to short (50 ms), and over range swaths varying from full (160 m), to partial (30 m), to a single range cell (0.3 m). All analyses and results presented here are noncoherent, involving only the clutter amplitudes. Each type of clutter exhibited the characteristic spiky behavior which has come to be expected from microwave sea backscatter observed at low grazing angles and high range resolutions, while showing, between themselves, marked transmit geometry and polarization dependent contrasts, with the horizontally polarized clutter, measured with an UP transmit geometry, being especially notable for its frequently occurring, significant high frequency spectral content. Within the same clutter type, differences were observed in the probability distributions of radar cross sections (RCS) of spatially and temporally extended spiking events
Keywords :
backscatter; electromagnetic wave polarisation; electromagnetic wave scattering; marine radar; military radar; radar clutter; radar cross-sections; radar resolution; radar target recognition; 0.3 m; 160 m; 20 min; 200 s; 2000 Hz; 30 m; 5 s; 50 ms; 9.5 to 10 GHz; RCS probability distributions; UP transmit geometry; X-band backscatter; clutter amplitudes; clutter characteristic spiky behavior; clutter type; crosswind transmit geometries; grazing angles; high frequency spectral content; horizontally polarized clutter; horizontally polarized sea clutter data; microwave sea backscatter; naval radar performance; near grazing incidence; phenomenological analysis; polarization dependent contrasts; pulse repetition frequency; radar clutter; radar cross sections; radar range; radar spatial resolution; radar temporal resolution; range resolutions; range swaths; single range cell; spatially extended spiking events; spiky sea clutter; statistical analysis; temporally extended spiking events; time scales; transmit geometry dependent contrasts; upwind transmit geometries; vertically polarized sea clutter data; Backscatter; Clutter; Frequency measurement; Information geometry; Polarization; Pulse measurements; Radar cross section; Radar measurements; Sea measurements; Spatial resolution;
