System and method for narrowband pre-detection signal processing for passive coherent location applications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01S-003/16
G01S-003/14
출원번호
US-0878170
(2004-06-28)
발명자
/ 주소
Baugh,Kevin W.
Benner,Robert H.
출원인 / 주소
Lockheed Martin Corporation
대리인 / 주소
Marsh Fischmann &
인용정보
피인용 횟수 :
7인용 특허 :
7
초록▼
A system and method for narrowband pre-detection signal processing in passive coherent location applications is disclosed. A receiving subsystem receives a reference signal and a target signal from an uncontrolled transmitter. The target signal is reflected from a target. The passive coherent locat
A system and method for narrowband pre-detection signal processing in passive coherent location applications is disclosed. A receiving subsystem receives a reference signal and a target signal from an uncontrolled transmitter. The target signal is reflected from a target. The passive coherent location system includes subprocessors that perform pre-detection operations on the reference and target signals. The functions include zero-doppler cancellation, quadrature demodulation, reference beam regeneration, coherent processing interval selection, power spectral density estimation, cross ambiguity function formation, and the like. Within these operations, the reference signal is filtered with respect to the target signal to form a first output reference signal. The first output reference signal is combined with the first target signal to form a first output target signal. The output target signal then is used for subsequent passive coherent location processing operations. The filter is updated with respect to a difference between the target signal and a subsequent target signal. Further, two paths are used for correlation processing of the reference and target signals.
대표청구항▼
What is claimed is: 1. A method for narrowband pre-detection signal processing for passive coherent location applications comprising: receiving an input signal including a target signal and a reference signal, the reference signal being received on a direct path from an uncontrolled transmitter and
What is claimed is: 1. A method for narrowband pre-detection signal processing for passive coherent location applications comprising: receiving an input signal including a target signal and a reference signal, the reference signal being received on a direct path from an uncontrolled transmitter and the target signal comprising the reference signal reflected from a target; and passing the input signal in two paths for parallel processing, wherein each of the paths includes a target channel and a reference channel for the target signal and the reference signal, respectively, and one of the paths is for correlation signal processing. 2. The method according to claim 1, wherein the method further includes selecting a coherent processing interval in the each of the paths. 3. The method according to claim 2, wherein the method further includes compensating for motion by accepting tracker feedback for a target and compensating for motion over the coherent processing interval in the each of the paths. 4. The method according to claim 3, wherein the method further includes estimating a power spectral density after the motion compensation. 5. The method according to claim 1, wherein the method further includes estimating a power spectral density for the each of the paths and estimating a cross ambiguity function for one of the paths simultaneously. 6. The method according to claim 5, wherein Hamming window is used in estimating the power spectral density. 7. The method according to claim 5, wherein Blackman window is used in estimating the power spectral density. 8. The method according to claim 1, wherein the method further includes estimating the reference signal and the target signal from the input signal. 9. The method according to claim 8, wherein estimating reference signal includes estimating a magnitude of the reference signal from the first input signal. 10. The method according to claim 8, wherein the method further includes demodulating and producing complex-valued representation of the input signal before estimating the reference signal and the target signal. 11. The method according to claim 10, wherein the method further includes decimating the complex-valued representation of the input signal. 12. A method for narrowband pre-detection signal processing for passive coherent location applications, comprising: receiving an input signal including a target signal reflected from a target; selecting a coherent processing interval; and compensating for motion by accepting tracker feedback for a target and compensating for motion over the coherent processing interval. 13. The method according to claim 12, wherein the method further includes estimating a power spectral density after the motion compensation. 14. A method for narrowband pre-detection signal processing in passive coherent location applications, comprising: receiving an input signal; extracting a target signal and a reference signal from the input signal; passing the target signal and the reference signal in two paths for parallel processing, wherein the each of the paths includes a target channel and a reference channel for the target signal and the reference signal, respectively; implementing a transformation operation on the target signal and the reference signal; compensating the transformed target signal and the transformed reference signal for channel distortion; demodulating and forming complex-valued representations of the reference signal and the target signal; implementing an inverse; and estimating a power spectral density in one of the paths and estimating a power spectral density and a cross ambiguity function in the other paths. 15. The method according to claim 14, wherein the method further includes reducing a portion of the reference signal in the target signal by adaptively filtering the reference signal with respect to the target signal and combining with the target signal. 16. The method according to claim 14, the method further comprising: selecting a coherent processing interval; and compensating for motion by accepting tracker feedback for a target and compensating for motion over the coherent processing interval. 17. A method for narrowband pre-detection signal processing in passive coherent location applications, comprising: receiving an input signal; passing the input signal in two paths for parallel processing; implementing a transformation operation on the input signal; compensating the transformed input signal for channel distortion; demodulating and forming complex-valued representations of the compensated input signal; estimating a reference signal and a target signal from the demodulated input signal, wherein estimating the reference signal includes estimating a magnitude of the reference signal from the input signal; implementing an inverse transformation; and estimating a power spectral density in one of the paths and estimating a power spectral density and a cross ambiguity function in the other paths. 18. The method according to claim 17, wherein the method further includes: reducing a portion of the estimated reference signal in the estimated target signal by adaptively filtering the estimated reference signal with respect to the estimated target signal and combining with the estimated target signal. 19. The method according to claim 17, the method further comprising: selecting a coherent processing interval; and compensating for motion by accepting tracker feedback for a target and compensating for motion over the coherent processing interval. 20. A system for narrowband pre-detection signal processing for passive coherent location applications comprising: means for receiving an input signal including a target signal and a reference signal, wherein the reference signal is receivable on a direct path from an uncontrolled transmitter and the target signal comprises the reference signal reflected from a target; and means for passing the input signal in two paths for parallel processing, wherein each of the paths includes a target channel and a reference channel for the target signal and the reference signal, respectively, and one of the paths is for correlation signal processing. 21. A system for narrowband pre-detection signal processing for passive coherent location applications, comprising: means for receiving an input signal including a target signal reflected from a target; means for selecting a coherent processing interval; and means for compensating for motion by accepting tracker feedback for a target and compensating for motion over the coherent processing interval. 22. A system for narrowband pre-detection signal processing in passive coherent location applications, comprising: means for receiving an input signal; means for extracting a target signal and a reference signal from the input signal; means for passing the target signal and the reference signal to a first and second paths for parallel processing, wherein the each of the paths includes a target channel and a reference channel for the target signal and the reference signal, respectively; means for implementing a transformation operation on the target signal and the reference signal; means for compensating the transformed target signal and the transformed reference signal for channel distortion; means for demodulating and forming complex-valued representations of the reference signal and the target signal; means for implementing an inverse; and means for estimating a power spectral density in one of the paths and estimating a power spectral density and a cross ambiguity function in the other paths. 23. A system for narrowband pre-detection signal processing in passive coherent location applications, comprising: means for receiving an input signal; means for passing the input signal in two paths for parallel processing; means for implementing a transformation operation on the input signal; means for compensating the transformed input signal for channel distortion; means for demodulating and forming complex-valued representations of the compensated input signal; means for estimating a reference signal and a target signal from the demodulated input signal, wherein estimating the reference signal includes estimating a magnitude of the reference signal from the input signal; means for implementing an inverse transformation; and means for estimating a power spectral density in one of the paths and estimating a power spectral density and a cross ambiguity function in the other paths.
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