Efficient phase correction scheme for range migration algorithm
First Claim
1. A system for phase correction in synthetic aperture-radar (SAR) systems with multiple targets having corresponding signal support areas comprising:
- first means for aligning said signal support areas from all targets through phase adjustments in the spatial domain, wherein said first means includes third means for converting range compressed input data to the spatial domain, fourth means for shifting the phase of the resulting spatial domain data, and fifth means for converting said spatial domain data back to the spatial frequency domain; and
second means for correcting common phase error after said signal support areas have been aligned.
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Abstract
A system and method for efficient phase error correction in range migration algorithm (RMA) for synthetic aperture radar (SAR) systems implemented by making proper shifts for each position dependent phase history so that phase correction can readily be performed using the aligned phase history data during batch processing. In its simplest form, the invention (44) is comprised of two main parts. First (60), alignment of the phase error profile is achieved by proper phase adjustment in the spatial (or image) domain using a quadratic phase function. Second (62), the common phase error can be corrected using autofocus algorithms. Two alternative embodiments of the invention are described. The first embodiment (44a) adds padded zeros to the range compressed data in order to avoid the wrap around effect introduced by the FFT (Fast Fourier Transform). This embodiment requires a third step (64): the target dependent signal support needs to be shifted back to the initial position after phase correction. The second embodiment (44b) uses the range compressed data without padded zeros. Instead, an aperture of greater length needs to be generated by the Stolt interpolation. In this embodiment, the third step (64) of shifting the signal support back can be eliminated.
25 Citations
13 Claims
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1. A system for phase correction in synthetic aperture-radar (SAR) systems with multiple targets having corresponding signal support areas comprising:
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first means for aligning said signal support areas from all targets through phase adjustments in the spatial domain, wherein said first means includes third means for converting range compressed input data to the spatial domain, fourth means for shifting the phase of the resulting spatial domain data, and fifth means for converting said spatial domain data back to the spatial frequency domain; and
second means for correcting common phase error after said signal support areas have been aligned. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
where λ
is the wavelength of the transmitted radar signal, R is the distance from the radar platform to the image center, dpxl is the pixel spacing, and n is the pixel index from the map center.
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5. The invention of claim 1 wherein said fifth means includes an inverse Fast Fourier Transform (IFFT).
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6. The invention of claim 1 wherein said second means includes an autofocus function.
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7. The invention of claim 2 wherein said system further includes sixty means for avoiding a wrap around effect introduced by the FFT.
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8. The invention of claim 7 wherein said sixth means includes generating extended aperture input data.
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9. The invention of claim 7 wherein said sixth means includes zero padding of the input data.
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10. The invention of claim 9 wherein said system further includes seventh means for shifting said signal support areas back to their initial positions after phase error has been corrected.
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11. The invention of claim 10 wherein said seventh means includes:
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eighth means for converting phase corrected data to the spatial domain;
ninth means for shifting the phase of the resulting spatial domain data; and
tenth means for converting said spatial domain data back to the spatial frequency domain.
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12. The invention of claim 10 wherein said system further includes means for removing said zero padding after said signal support areas are shifted back to their initial positions.
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13. A range migration algorithm for synthetic aperture radar systems comprising:
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a motion compensation function;
a range deskew function;
an along-track FFT function;
a matched filter;
a Stolt interpolation function;
a range FFT function;
a phase correction system comprised of;
a first function for aligning said signal support areas from all targets through phase adjustments in the spatial domain, and a second function for correcting common phase error after said signal support areas have been aligned; and
a data weighting and azimuth FFT function.
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Specification
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- Resources
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Current AssigneeRaytheon Company (Rtx Corporation)
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Original AssigneeRaytheon Company (Rtx Corporation)
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InventorsCho, Kwang M.
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Primary Examiner(s)Tarcza, Thomas H.
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Assistant Examiner(s)Andrea, Brian
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Application NumberUS10/060,647Publication NumberTime in Patent Office699 DaysField of Search342/25, 342/192, 342/195, 342/196US Class Current342/25.00RCPC Class CodesG01S 13/9011 with frequency domain proce...G01S 13/9019 Auto-focussing of the SAR s...G01S 13/904 SAR modesG01S 13/9041 Squint modeG01S 7/4021 of receivers
