Method and apparatus for calibrating gyroscopically-stabilized, magnetically-slaved heading reference system
First Claim
1. Apparatus for compensating for errors in the heading output signal of a magnetic azimuth detector mounted in an aircraft, comprising:
- inertial heading reference means for providing a heading reference signal in accordance with the heading of said aircraft,heading compensation means responsive to said heading output signal and said heading reference signal for compensating said heading output signal for said errors in accordance with the differences between said heading output signal and said heading reference signal at a plurality of predetermined headings of said aircraft, anddrift compensation means for compensating said heading reference signal for drift of said inertial heading reference means with respect to said plurality of predetermined headings, thereby providing a compensated heading output signal compensated for said errors.
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Abstract
A heading reference system mounted in a vehicle, e.g. an aircraft or a ta includes a magnetic compass and a gyroscope. The magnetic compass is subject to deviation in the magnetic field, hence the system must be calibrated. If the vehicle is oriented in a starting direction, and the output of the magnetic compass compared to the output of the gyroscope, an error signal is developed. This error signal is filtered to reduce noise, then stored. The vehicle is then re-oriented and the procedure repeated until sufficient information is available to calibrate the system. A microprocessor may be used for the computations and filtering of noise.
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Citations
22 Claims
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1. Apparatus for compensating for errors in the heading output signal of a magnetic azimuth detector mounted in an aircraft, comprising:
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inertial heading reference means for providing a heading reference signal in accordance with the heading of said aircraft, heading compensation means responsive to said heading output signal and said heading reference signal for compensating said heading output signal for said errors in accordance with the differences between said heading output signal and said heading reference signal at a plurality of predetermined headings of said aircraft, and drift compensation means for compensating said heading reference signal for drift of said inertial heading reference means with respect to said plurality of predetermined headings, thereby providing a compensated heading output signal compensated for said errors. - View Dependent Claims (2, 3, 4)
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5. Method for compensating the heading output signal of a magnetic azimuth detector mounted in an aircraft for errors, said aircraft having an inertial heading reference, comprising the steps of:
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orienting said aircraft successively to a plurality of predetermined headings, obtaining differences between the heading output signal of said magnetic azimuth detector and the heading reference signal from said inertial heading reference at said plurality of predetermined headings, compensating said heading reference signal for drift of said inertial heading reference with respect to said plurality of predetermined headings, and compensating said heading output signal for said errors in accordance with said differences between said heading output signal and said heading reference signal.
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6. A method of calibrating a gyroscopically-stabilized, magnetically-slaved heading reference system, said system being mounted in a vehicle and including a flux valve magnetic sensor and a gyroscopic compass both of which generate an output signal which is a function of the heading of the vehicle, which comprises the steps of:
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(a) orienting said vehicle in a first direction; (b) comparing the output signal from said flux valve magnetic sensor with the output signal from said gyroscopic compass, thereby to generate an error signal; (c) storing said error signal; and
then(d) re-iterating steps (a) through (c) until sufficient error signals have been stored to form an equation to calibrate said reference system. - View Dependent Claims (7, 8, 9)
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10. Apparatus for calibrating a gyroscopically-stabilized, magnetically-slaved heading reference system, said system being mounted in a vehicle and including a flux valve magnetic sensor and gyroscopic compass, both of which generate an output signal which is a function of the heading of the vehicle which comprises:
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a first A/D converter for converting the analog output of said flux valve magnetic sensor into a digital output; a second A/D converter for converting the analog output of said gyroscopic compass into a digital output; means, connected to said first and second A/D converter for generating an error signal corresponding to the difference between the two digital outputs;
wherein said generating means comprises a programmed digital computer, including;means for filtering said error signal to reduce noise; and
memory means for storing said filtered error signal;whereby said programmed digital computer is used to form an equation for calibrating outputs of said flux valve and gyroscopic compass into an actual heading. - View Dependent Claims (11)
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12. A method of calibrating a gyroscopically-stabilized, magnetically-slaved heading reference system, said system being mounted in a vehicle and including a strapdown-type flux valve magnetic sensor and a gyroscopic compass both of which generate an output signal which is a function of the heading of the vehicle, which comprises the steps of:
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(a) orienting said vehicle in a first direction; (b) comparing the output signal from said flux valve magnetic sensor with the output signal from said gyroscopic compass, thereby to generate an error signal; (c) storing said error signal; and (d) continuously rotating the vehicle so as to reiterate steps (a) through (c), continuously generating error signals and wherein a programmed computer is used to generate calibration constants for the reference system. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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14. The method of claim 13 wherein the method of calculating the constants comprises use of a Kalman filter algorithm.
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15. The method of claim 13 wherein the method of calculating the constants comprises use of a Fourier Transform Series algorithm.
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16. The method of claim 13 wherein the method of calculating the constants comprises use of a weighted least squares algorithm.
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17. The method of claim 13 wherein the computer is a programmed digital computer which samples and averages, thereby smoothing, the error signal, being a difference angle between the compass and sensor generated angles.
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18. The method of claim 17 whereby the sampling is done by a simple averaging filter.
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19. The method of claim 18 wherein the validity of the calibration constants is checked by the computer.
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20. The method of claim 19 wherein the constants are stored in non-volatile memory and wherein upon power being applied to the heading reference system, the constants stored in non-volatile memory are used to produce an initially corrected magnetic heading.
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21. Apparatus for compensating for errors in the heading output signal of a magnetic azimuth detector mounted in a moving vehicle, comprising:
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inertial heading reference means for providing a heading reference signal in accordance with the heading of said moving vehicle, heading compensation means responsive to said heading output signal and said heading reference signal for compensating said heading output signal for said errors in accordance with the differences between said heading output signal and said heading reference signal at a plurality of headings of said moving vehicle, and drift compensation means for compensating said heading reference signal for drift of said inertial heading reference means with respect to said plurality of headings, thereby providing a compensated heading output signal compensated for said errors.
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22. Method for compensating the heading output signal of a magnetic azimuth detector mounted in a moving vehicle for errors, said moving vehicle having an inertial heading reference, comprising the steps of:
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orienting said moving vehicle successively to a plurality of headings, obtaining differences between the heading output signal of said magnetic azimuth detector and the heading reference signal from said inertial heading reference at said plurality of headings, compensating said heading reference signal for drift of said inertial heading reference with respect to said plurality of headings, and compensating said heading output signal for said errors in accordance with said differences between said heading output signal and said heading reference signal.
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Specification