Adaptive radar for reducing background clutter
First Claim
1. A method for substantially reducing in radar the relatively time-invariant background clutter at low grazing angles, said method being used in a radar of the type having means for transmitting radar signals having a selectable polarization, and having means for determining the polarization of received signals, said method comprising the steps of:
- (a) transmitting test radar signals having a selected polarization, said test signal being directed toward a preestablished group of radar range cells and azimuth cells;
(b) receiving radar return signals generated by said transmitted test signals;
(c) determining the polarization state of the radar return signals for each of said radar range and azimuth cells;
(d) calculating, for the radar return signal from each range cell, the position of the polarization state of said radar return signal on the Poincare polarization sphere;
(e) calculating the means central angle of said radar return signals on said Poincare polarization sphere, said means central angle representing the means null polarization of the background clutter, said means central angle identifying a specific polarization;
(f) transmitting operational radar signals having said specific polarization state;
(g) receiving the operational radar return signals generated by said transmitted radar signals having said specific polarization state; and
(h) processing said operational radar return signals at said specific polarization state.
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Accused Products
Abstract
An adaptive radar apparatus is provided for substantially reducing background clutter, particularly relatively time-invariant clutter, such as sea clutter, and especially at low radar grazing angles. The apparatus includes a transmitting antenna having horizontally and vertically oriented, transmitting elements and a relative phase control therebetween and a receiving antenna also with horizontally and vertically oriented receiving elements also having relative phase detection and phase shift possible therebetween. A controllable radar signal generator is provided for supplying signals to the transmitting antenna and a controllable signal processor is provided for processing return signals from the receiving antenna. Means are included for determining, from return test signals, a background mean null polarization for a number of radar range and azimuth cells and for providing null polarization control signals Ho, Vo and φo, to the signal generator and return signal processor to cause the radar to operate at a polarization state which is the same as the clutter mean null polarization. A corresponding method is provided for reducing background clutter, especially relatively time-invariant sea clutter, a low grazing angle radar.
45 Citations
1 Claim
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1. A method for substantially reducing in radar the relatively time-invariant background clutter at low grazing angles, said method being used in a radar of the type having means for transmitting radar signals having a selectable polarization, and having means for determining the polarization of received signals, said method comprising the steps of:
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(a) transmitting test radar signals having a selected polarization, said test signal being directed toward a preestablished group of radar range cells and azimuth cells; (b) receiving radar return signals generated by said transmitted test signals; (c) determining the polarization state of the radar return signals for each of said radar range and azimuth cells; (d) calculating, for the radar return signal from each range cell, the position of the polarization state of said radar return signal on the Poincare polarization sphere; (e) calculating the means central angle of said radar return signals on said Poincare polarization sphere, said means central angle representing the means null polarization of the background clutter, said means central angle identifying a specific polarization; (f) transmitting operational radar signals having said specific polarization state; (g) receiving the operational radar return signals generated by said transmitted radar signals having said specific polarization state; and (h) processing said operational radar return signals at said specific polarization state.
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Specification