High resolution synthetic aperture radar having rectilinear output image format
First Claim
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1. A method of processing digital data samples in azimuth for a synthetic aperture radar, comprising sampling the aximuth digital data for each range cell for the coherent integration time of each target and varying the rate of such sampling as a function of the range cell corresponding to such samples.
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Abstract
A method and apparatus for providing a constant scale factor in azimuth and synchronism of data blocks for a second stage fast Fourier transform in a synthetic aperture radar having two stages of FFT by varying the sampling rate at the output of the first stage FFT as an inverse function of range.
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12 Claims
- 1. A method of processing digital data samples in azimuth for a synthetic aperture radar, comprising sampling the aximuth digital data for each range cell for the coherent integration time of each target and varying the rate of such sampling as a function of the range cell corresponding to such samples.
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3. A method of providing a synchronized rectilinear image output for a synthetic aperture radar, comprising
sequentially transmitting and receiving a plurality of radar pulses having a predetermined interpulse period to provide for each received pulse complex digital data samples corresponding to each range cells during its respective coherent integration time period, and performing a time correction in azimuth for each of the complex digital data samples, said time correction being a function of a respective range cell to provide digital data samples in azimuth at a rate that decreases as the distance corresponding to a particular range cell increases.
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4. A method of providing a synchronized rectilinear image output for a synthetic aperture radar having first and second order motion compensation, said method comprising
sequentially transmitting and receiving a plurality of radar pulses having a predetermined interpulse period to provide for each received pulse complex digital data samples corresponding to a predetermined number of respective range cells during its respective coherent integration time period, performing a first time correction and phase shift on each of the complex digital data samples to effect a first order motion compensation thereon, and performing a second time correction for the complex digital data samples of each of the predetermined number of range cells to provide azimuth data samples at a rate that decreases as the range increases.
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5. A method of processing received radar pulses from a synthetic aperture radar, comprising
converting the received radar pulses to digital data samples, storing the digital data samples in real time, feeding out the stored data samples at a lower constant rate during approximately the entire interpulse period, sampling the fed data samples corresponding to azimuth at a rate that varies inversely with range, and effecting a first correlation of the samples in azimuth to effect time-frequency discrimination samples corresponding to a plurality of synthetic subbeams.
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8. A method of processing target data in a synthetic aperture radar, comprising
sequentially transmitting and receiving a plurality of radar pulses during respective coherent integration time period, said radar pulses having a predetermined interpulse period and providing analog signals therefrom, converting each analog signal into complex digital data samples corresponding to a predetermined number of respective range cells during said time periods, sequentially entering said complex data samples into a memory in sets of digital data time samples for a selected number of interpulse periods, resampling said complex data samples corresponding to azimuth at a rate for each range cell that increases as the distance corresponding to such range cell decreases, correcting said data samples corresponding to the doppler frequency of a target area from the leading edge to trailing edge of each radar beam constant, sequentially feeding the constant doppler data samples for each beam into a digital correlator to provide a plurality of frequency bands in azimuth that correspond to synthetic subbeams sequentially feeding data samples for synthetic subbeams into a memory having storage times at least equal to each such time period in selected sets of range cells, feeding out the data samples corresponding to synthetic subbeams over a predetermined number of interpulse periods into another digital correlator into data reflective of a respective plurality of sub-subbeams which correspond to azimuth cells, and feeding the sub-subbeam data to synthetic aperture display apparatus.
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10. A synthetic aperture radar system comprising
means for sequentially transmitting and receiving a plurality of radar pulses during their respective coherent integration time periods, said radar pulses having a predetermined interpulse period and providing analog signals therefrom, means for converting each analog signal into complex digital data samples corresponding to a predetermined number of respective range cells during said coherent integration time period, means for sequentially entering said complex data samples into a memory in sets of digital data time samples for a selected number of interpulse periods, means for resampling said complex data samples corresponding to azimuth at a rate for each range cell that increases as the distance corresponding to such range cell decreases, means for correcting said data samples to render constant the data corresponding to doppler frequency of a target area from the leading edge to trailing edge of each radar beam, means for sequentially feeding the constant doppler data samples for each beam into a digital correlator to provide a plurality of frequency bands in azimuth that correspond to synthetic subbeams, means for sequentially feeding data samples for synthetic subbeams into a memory in selected sets of range styles, means for feeding out the data samples corresponding synthetic subbeams over a predetermined number of interpulse periods into another digital correlator to provide data reflective of a respective plurality of subbeams which correspond to azimuth cells, and means for feeding the sub-subbeam data to synthetic aperture display apparatus.
Specification