Extraction of radar targets from clutter
First Claim
1. A method of determining the shape or pattern of a radar target from the characteristic distortion imparted in the time domain to the radar signal returned by the target from an incident, transmitted carrier-free radar signal, where the range resolution of the incident radar signal is significantly smaller than the dimensions of the target, comprising the steps of:
- (1) storing in a library a plurality of sample functions pertaining to various shapes and patterns representing radar signals returned by reflection of the incident carrier-free radar signal from targets of correspondingly varied shapes and patterns;
(2) comparing the returned signal with a set of the sample functions selected from the library; and
(3) determining the sample function best matching the returned signal in the time domain by the criterion of least-mean-square deviation.
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Abstract
The extraction of radar targets, in particular airplanes or cruise missiles, from clutter is typically based on the target'"'"'s velocity relative to the ground. Equipment using this principle is usually referred to as a doppler processor or moving target indicator. In situations where severe clutter is encountered, as for example where a look-down radar is trying to find low-flying cruise missiles, extraction of the target solely through its velocity relative to the ground is generally unsatisfactory. A similarly situated human observer looking down can recognize a target both from its motion and the characteristic shape of a fuselage with wings. The principle of this "shape recognition" or "pattern recognition" is here applied to radar by utilizing the so-called radar signature of the target. The conventional small-relative-bandwidth radar which uses signals that are amplitude modulated onto a sinusoidal carrier does not yield enough of a radar signature for this application but the so-called "carrier-free radar" does. Carrier-free radar is also known as "impulse radar", "nonsinusoidal radar", or "large-relative-bandwidth radar".
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Citations
4 Claims
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1. A method of determining the shape or pattern of a radar target from the characteristic distortion imparted in the time domain to the radar signal returned by the target from an incident, transmitted carrier-free radar signal, where the range resolution of the incident radar signal is significantly smaller than the dimensions of the target, comprising the steps of:
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(1) storing in a library a plurality of sample functions pertaining to various shapes and patterns representing radar signals returned by reflection of the incident carrier-free radar signal from targets of correspondingly varied shapes and patterns; (2) comparing the returned signal with a set of the sample functions selected from the library; and (3) determining the sample function best matching the returned signal in the time domain by the criterion of least-mean-square deviation.
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2. A method of identifying a radar target shape or pattern from the characteristic distortion imparted in the time domain to the radar signal returned by the target from an incident, transmitted carrier-free radar signal, where the range resolution of the incident radar signal is significantly smaller than the dimensions of the target, comprising the steps of:
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(1) passing the returned signal through a sliding correlator; (2) storing in a library a plurality of sample functions pertaining to various shapes and patterns representing a radar signals returned by reflection of the incident carrier-free radar signal from targets of correspondingly varied shapes and patterns, and passed through a sliding correlator; (3) comparing the output signal from the sliding correlator with a set of the sample functions selected from the library; and (4) determining the sample function best matching the correlator output signal in the time domain.
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3. A method of identifying a radar target shape or pattern from the characteristic distortion imparted in the time domain to the radar signal returned by the target from an incident, transmitted carrier-free radar signal, where the range resolution of the incident radar signal is significantly smaller than the dimensions of the target, comprising the steps of:
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(1) passing the returned signal through a moving target extractor; (2) storing in a library a plurality of sample functions pertaining various shapes and patterns representing radar signals returned by reflection of the incident carrier-free radar signal from targets of correspondingly varied shapes and patterns, and passed through a moving target extractor; (3) comparing the output signal from the moving target extractor with a set of the sample functions selected from the library; and (4) determining the sample function best matching the extractor output signal in the time domain.
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4. A method of identifying a radar target shape or pattern from the characteristic distortion imparted in the time domain to the radar signal returned by the target from an incident, transmitted carrier-free radar signal, where the range resolution of the incident radar signal is significantly smaller than the dimensions of the target, comprising the steps of:
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(1) passing the returned signal through a sliding correlator and a moving target extractor to produce a processed returned signal; (2) storing in a library a plurality of sample functions pertaining to various shapes and patterns representing radar signals returned by reflection of the incident carrier-free radar signal from targets of correspondingly varied shapes and patterns, and passed through a sliding correlator and moving target indicator; (3) comparing the processed returned signal with a set of the sample functions selected from the library; and (4) determining the sample function best matching the processed returned signal in the time domain.
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Specification