Whitening of sidelobe powers by pattern switching in radar array antenna
Abstract
Presented here is a concept for nearly eliminating bias errors in reflectivity and velocity estimates due to power received through antenna sidelobes of pulse Doppler radars. The antenna pattern is switched from pulse to pulse among specially designed patterns, with near identical main lobes, but with sidelobes having randomly distributed phases and amplitudes. The sidelobe signal then becomes incoherent without affecting the coherency of the main lobe signal. The whitened sidelobe signal does not bias the mean velocity estimate computed by Doppler processing, and an unbiased estimate of reflectivity can be computed with the knowledge of the mean whitened power level. Pattern design criteria and a method for the design of optimum patterns are developed for a linear array. The extent of sidelobe reduction by way of whitening has been studied in detail for special case of only two patterns switched randomly using a pseudonoise sequence. Pattern switching realizes an effectively low sidelobe pattern without sacrifice of main lobe resolution. A possible extension to two-dimensional arrays is suggested.
- Publication:
-
IEEE Transactions on Antennas and Propagation
- Pub Date:
- July 1985
- DOI:
- Bibcode:
- 1985ITAP...33..727S
- Keywords:
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- Antenna Arrays;
- Antenna Radiation Patterns;
- Doppler Radar;
- Power Spectra;
- Radar Antennas;
- Sidelobes;
- Bias;
- Meteorological Radar;
- Switching;
- Communications and Radar