Doppler detection system for determining initial position of a maneuvering target
First Claim
1. A system for detecting the initial position of a target comprising at least one Doppler radar transmitter and at least one Doppler radar receiver arranged to provide at least two bistatic range measurements, NLS estimator means, to assume an initial position as an input initial position for a target reflecting bistatic CW radar signals from said Doppler transmitters to said Doppler receiver, to perturb said input initial position, and to generate a test statistic from Doppler measurements made by said Doppler receivers compared with predicted Doppler measurements, Kalman filter means to generate predicted Doppler measurements for a trajectory starting from said input initial position and to generate a correction value for said input initial position in response to a perturbation in said initial value, said Doppler measurements and said predicted Doppler measurements, and programming means to cause said NLS estimator means and said Kalman filter means to perform the following steps:
- (1) supply said initial position assumed by said NLS estimator means as an input initial position to said Kalman filter means,(2) cause said Kalman filter means to generate a set of predicted Doppler measurements from an input initial position received from said NLS estimator means,(3) supply a perturbed initial position from said NLS estimator to said Kalman filter means,(4) cause said NLS estimator means to generate a correction to said input initial position from said perturbed initial position, from said Doppler measurement, and from said predicted Doppler measurements,(5) cause said Kalman filter to generate a second set of predicted Doppler measurements from said input position corrected by said correction,(6) cause said NLS estimator means to compute a first value for said test statistic from said Doppler measurements compared to said first set of predicted Doppler measurements and to compute a second value for said test statistic from said Doppler measurements compared to said second set of predicted Doppler measurements,(7) cause said NLS estimator means to update said input initial position with said correction if said second value of said test statistic is less than said first value of said test statistic computed in step (6), and(8) reiterate steps (2) through (7) each time the second value of said test statistic is less than the first value of said test statistic.
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Abstract
In a system for detecting the position and trajectory of a target, Doppler measurements from a bistatic continuous wave radar system are used exclusively to provide information about the target. Radar signals are transmitted to the target by a plurality of transmitters and at least one receiver is provided to receive the signals from the target and make Doppler measurements. A nonlinear least squares estimator is used to estimate the initial target position and a Kalman filter is used to predict the target trajectory from the initial position assumed by the NLS estimator and from the Doppler measurements. The Kalman filter also generates a set of predicted Doppler measurements from the predicted trajectory. The nonlinear least squares estimator is used to compute a correction to the estimated initial position from partial differentials of the initial position and from the differences between the predicted and actual Doppler measurements. The difference between the actual Doppler measurements and the predicted Doppler measurements are also used to generate a test statistic as an indication of the accuracy of the predicted trajectory.
84 Citations
6 Claims
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1. A system for detecting the initial position of a target comprising at least one Doppler radar transmitter and at least one Doppler radar receiver arranged to provide at least two bistatic range measurements, NLS estimator means, to assume an initial position as an input initial position for a target reflecting bistatic CW radar signals from said Doppler transmitters to said Doppler receiver, to perturb said input initial position, and to generate a test statistic from Doppler measurements made by said Doppler receivers compared with predicted Doppler measurements, Kalman filter means to generate predicted Doppler measurements for a trajectory starting from said input initial position and to generate a correction value for said input initial position in response to a perturbation in said initial value, said Doppler measurements and said predicted Doppler measurements, and programming means to cause said NLS estimator means and said Kalman filter means to perform the following steps:
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(1) supply said initial position assumed by said NLS estimator means as an input initial position to said Kalman filter means, (2) cause said Kalman filter means to generate a set of predicted Doppler measurements from an input initial position received from said NLS estimator means, (3) supply a perturbed initial position from said NLS estimator to said Kalman filter means, (4) cause said NLS estimator means to generate a correction to said input initial position from said perturbed initial position, from said Doppler measurement, and from said predicted Doppler measurements, (5) cause said Kalman filter to generate a second set of predicted Doppler measurements from said input position corrected by said correction, (6) cause said NLS estimator means to compute a first value for said test statistic from said Doppler measurements compared to said first set of predicted Doppler measurements and to compute a second value for said test statistic from said Doppler measurements compared to said second set of predicted Doppler measurements, (7) cause said NLS estimator means to update said input initial position with said correction if said second value of said test statistic is less than said first value of said test statistic computed in step (6), and (8) reiterate steps (2) through (7) each time the second value of said test statistic is less than the first value of said test statistic. - View Dependent Claims (2)
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3. A method of determining the initial position of a target at the start of a trajectory through which said target moves comprising the following steps:
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1) reflecting bistatic CW radar signals from said target, 2) receiving bistatic CW radar signals from said target to provide a plurality of Doppler measurements at each of a plurality of points distributed along said trajectory, 3) assuming a position of said target as an initial position at the start of said trajectory, 4) determining a predicted trajectory for said target from said initial position of said target as starting position for said predicted trajectory and from said Doppler measurements, 5) determining a predicted set of Doppler measurements from the predicted trajectory determined in step
4),6) computing a test statistic from a comparison of the actual Doppler measurements obtained in step
2) with the predicted Doppler measurements obtained in step
5),7) determining a correction for the initial position, 8) repeating steps
4) through
6) using an initial position corrected in accordance with the correction determined in step
7) to thereby compute a test statistic for the corrected initial position,9) determining whether the test statistic computed in step
8) is greater or less than the test statistic in the previous iteration of step
6) and if the test statistic has decreased, repeating steps
7) through
9) until test statistic stops decreasing. - View Dependent Claims (4, 5, 6)
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Specification
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- Resources
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Current AssigneeLockheed Martin Corporation (Martin Marietta Corporation)
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Original AssigneeLoral Federal Systems Company
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InventorsBenner, Robert H.
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Primary Examiner(s)Eldred, J. Woodrow
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Application NumberUS08/480,704Time in Patent Office370 DaysField of Search342/90, 342/107, 342/114, 342/146, 342/195, 342/95US Class Current342/90CPC Class CodesG01S 13/003 Bistatic radar systems; Mul...G01S 13/583 using transmission of conti...
