Structure resonant radar detection apparatus and method
First Claim
1. A method for locating a man-made structure located on land which has a multiplicity of substantially uniformly spaced elements, from a flying craft, comprising:
- transmitting radar signals in a plurality of different directions that are all at a downward incline from the craft toward the ground;
receiving reflections of said radar signals and detecting a resonant frequency that is of at least twice the amplitude of the average frequencies of the received signals; and
detecting the direction from which the received signals that included the resonant frequency, was received.
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Accused Products
Abstract
Certain man-made structures located in a complex background, such as railroad ties, telephone poles, and fences are detected by a flying craft, using a low powered structure resonant radar system. The radar system transmits a radar signal which includes wavelengths of the same order of magnitude as twice the spacing of the elements of the man-made structure or grating multiples thereof, and transmits them in a plurality of different directions and frequencies. Reflections of the transmitted radar are received and structural resonance backscatter is detected wherein the backscatter amplitude at the resonant frequency is much higher than that at adjacent frequencies or that of the clutter background, indicating the presence of the search-for type of structure. The bright structural resonance backscatter can then be exploted by the structure resonant radar for guidance, homing, etc.
24 Citations
5 Claims
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1. A method for locating a man-made structure located on land which has a multiplicity of substantially uniformly spaced elements, from a flying craft, comprising:
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transmitting radar signals in a plurality of different directions that are all at a downward incline from the craft toward the ground; receiving reflections of said radar signals and detecting a resonant frequency that is of at least twice the amplitude of the average frequencies of the received signals; and detecting the direction from which the received signals that included the resonant frequency, was received. - View Dependent Claims (2)
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3. A method for locating a man-made structure containing periodically-spaced elements, comprising:
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generating a signal of a frequency, whose inverse times the speed of light approximately equals twice the spacing of said elements times a whole number and transmitting said signal in a known direction towards the ground; at a time after transmitting approximately equal to the travel time of reflections from the ground, receiving reflections of said signal; periodically varying the frequency of said signal, and periodically varying said known direction of transmittal, and comparing the amplitudes of the received signal received after each varying of the frequency and after each varying of the direction of transmittal, and detecting any received signal which is of an amplitude at least twice the average amplitude of all received signals.
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4. Apparatus for locating a man-made structure located on land which has a multiplicity of substantially uniformly spaced elements, from a flying craft, comprising:
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means for transmitting radar signals in a plurality of different directions that are all at a downward incline from the craft toward the ground; means for receiving reflections of said radar signals and detecting a resonant frequency that is of at least twice the amplitude of the average frequencies of the received signals; and means for detecting the direction from which the received signals that included the resonant frequency, was received.
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5. Apparatus for locating a man-made structure containing periodically-spaced elements, comprising:
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means for generating a signal of a frequency, whose inverse times the speed of light approximately equals twice the spacing of said elements times a whole number, and for transmitting said signal in a known direction towards the ground; means for receiving reflections of said signal at a time after transmitting approximately equal to the travel time of reflections from the ground; periodically varying the frequency of said signal, and periodically varying said known direction of transmittal, and comparing the amplitudes of the received signal received after each varying of the frequency and after each varying of the direction of transmittal, and detecting any received signal which is of an amplitude at least twice the average amplitude of all received signals.
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Specification