Wideband waveform synthesis using frequency jump burst-type waveforms
First Claim
Patent Images
1. A methodwherein each of variables k and m starts out at with a value of zero, and comprising the steps of:
- transmitting (k+1)th subpulse of (m+1)th pulse of a transmit signal from a transmitter, wherein the transmit signal includes M pulses and wherein each of the M pulses has K subpulses, wherein each of M and K are positive integers;
receiving a return signal due to the (k+1)th subpulse of the (m+1)th pulse of the transmit signal at a receiver;
supplying a filter input signal for the (k+1)th subpulse of the (m+1)th pulse, which is based on the return signal due the (k+1)th subpulse of the (m+1)th pulse, to a plurality of filter inputs of a corresponding plurality of filters;
using the plurality of filters to produce a corresponding plurality of filter output signals for the (k+1)th subpulse of the (m+1)th pulse, at a corresponding plurality of filter outputs;
combining the plurality of filter output signals for the (k+1)th subpulse of the (m+1)th pulse to produce a combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse;
supplying the combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse to a synthetic aperture radar processor;
using the synthetic aperture radar processor to produce a coarse range/cross range resolution synthetic aperture radar map for the combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse of the transmit signal;
incrementing k, and then repeating the above steps, until k equals the number K;
incrementing m, restarting k at a value of zero, and then repeating the above steps, until m equals the number M;
wherein the above steps produce a plurality of coarse range/cross range resolution synthetic aperture radar maps, one coarse range/cross range resolution synthetic aperture radar map for each subpulse of each pulse of the transmit signal;
combining the coarse range/cross range resolution synthetic aperture radar maps for the ith subpulses of all M pulses, for i=1 to K, to produce K coarse range resolution synthetic radar aperture maps; and
combining the K coarse range resolution synthetic radar aperture maps to produce a final combined map.
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Abstract
Methods are provided for obtaining wideband waveforms from a set of narrowband waveforms. The synthesized wideband waveforms are suitable for generating fine range resolution synthetic aperture radar images. Furthermore, narrowband pulse compressed data can be siphoned from the processing chain to be used in multi-look GMTI processing either independently or jointly.
18 Citations
15 Claims
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1. A method
wherein each of variables k and m starts out at with a value of zero, and comprising the steps of: -
transmitting (k+1)th subpulse of (m+1)th pulse of a transmit signal from a transmitter, wherein the transmit signal includes M pulses and wherein each of the M pulses has K subpulses, wherein each of M and K are positive integers; receiving a return signal due to the (k+1)th subpulse of the (m+1)th pulse of the transmit signal at a receiver; supplying a filter input signal for the (k+1)th subpulse of the (m+1)th pulse, which is based on the return signal due the (k+1)th subpulse of the (m+1)th pulse, to a plurality of filter inputs of a corresponding plurality of filters; using the plurality of filters to produce a corresponding plurality of filter output signals for the (k+1)th subpulse of the (m+1)th pulse, at a corresponding plurality of filter outputs; combining the plurality of filter output signals for the (k+1)th subpulse of the (m+1)th pulse to produce a combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse; supplying the combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse to a synthetic aperture radar processor; using the synthetic aperture radar processor to produce a coarse range/cross range resolution synthetic aperture radar map for the combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse of the transmit signal; incrementing k, and then repeating the above steps, until k equals the number K; incrementing m, restarting k at a value of zero, and then repeating the above steps, until m equals the number M; wherein the above steps produce a plurality of coarse range/cross range resolution synthetic aperture radar maps, one coarse range/cross range resolution synthetic aperture radar map for each subpulse of each pulse of the transmit signal; combining the coarse range/cross range resolution synthetic aperture radar maps for the ith subpulses of all M pulses, for i=1 to K, to produce K coarse range resolution synthetic radar aperture maps; and combining the K coarse range resolution synthetic radar aperture maps to produce a final combined map. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An apparatus comprising
a transmitter; -
a receiver; a computer processor; and a computer memory; wherein each of variables k and m starts out at with a value of zero, and wherein the computer processor is programmed by a computer program stored in the computer memory to execute the following sequence of operations; to cause the transmitter to transmit a (k+1)th subpulse of an (m+1)th pulse of a transmit signal from the transmitter, wherein the transmit signal includes M pulses and wherein each of the M pulses has K subpulses, wherein each of M and K are positive integers; to cause the receiver to receive a return signal at the receiver due to the (k+1)th subpulse of the (m+1)th pulse of the transmit signal; to supply a filter input signal for the (k+1)th subpulse of the (m+1)th pulse, which is based on the return signal due the (k+1)th subpulse of the (m+1)th pulse, to a plurality of filter inputs of a corresponding plurality of filters; to use the plurality of filters to produce a corresponding plurality of filter output signals for the (k+1)th subpulse of the (m+1)th pulse, at a corresponding plurality of filter outputs; to combine the plurality of filter output signals for the (k+1)th subpulse of the (m+1)th pulse to produce a combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse; to supply the combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse to a synthetic aperture radar processor; to use the synthetic aperture radar processor to produce a coarse range/cross range resolution synthetic aperture radar map for the combination filtered signal for the (k+1)th subpulse of the (m+1)th pulse of the transmit signal; wherein the computer processor is programmed by a computer program stored in the computer memory to increment k, and then repeat the sequence of operations, until k equals the number K; wherein the computer processor is programmed by a computer program stored in the computer memory to increment m, restarting k at a value of zero, and then to repeat the sequence of operations, until m equals the number M; wherein the computer processor by the repetition of the sequence of operations produces a plurality of coarse range/cross range resolution synthetic aperture radar maps, one coarse range/cross range resolution synthetic aperture radar map for each subpulse of each pulse of the transmit signal; wherein the computer processor is programmed by a computer processor stored in the computer memory to combine the coarse range/cross range resolution synthetic aperture radar maps for the ith subpulses of all M pulses, for i=1 to K, to produce K coarse range resolution synthetic radar aperture maps; and wherein the computer processor is programmed by a computer program stored in the computer memory to combine the K coarse range resolution synthetic radar aperture maps to produce a final combined map. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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Specification