System and method for correcting global navigation satellite system pseudorange measurements in receivers having controlled reception pattern antennas
First Claim
1. An apparatus for calibrating a global navigation satellite system (GNSS) receiver system for group delay errors in GNSS transmitter signals, the apparatus comprising:
- a controlled reception pattern antenna (CRPA) comprising a plurality of receiving elements and configured to sense a plurality of signals from a plurality of GNSS transmitters using one or more transmitter frequencies;
a signal conditioner configured to convert a plurality of sensed GNSS signals to a plurality of time domain digital signals;
a processor configured to;
convert the time domain digital signals into a plurality of filtered signals using a plurality of signal weights;
access group delay calibration correction data for combinations of the plurality of receiving elements, a plurality of transmitter orientations with respect to the CRPA, and the one or more transmitter frequencies;
track code modulations of the plurality of filtered signals and convert the filtered signals into GNSS pseudorange measurements for the plurality of GNSS transmitters at the one or more transmitter frequencies;
combine the group delay calibration correction data and the signal weights to generate weighted pseudorange error corrections for the plurality of GNSS transmitters at the one or more transmitter frequencies; and
combine the weighted pseudorange error corrections and the GNSS pseudorange measurements to generate corrected pseudorange measurements for the plurality of GNSS transmitters at the one or more transmitter frequencies.
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Accused Products
Abstract
Global Navigation Satellite System (GNSS) pseudorange measurements are compensated for receiver hardware and directionally dependent antenna errors to obtain desired accuracies for high precision GNSS positioning applications using a multiple element controlled reception pattern antenna (CRPA). Pseudorange errors are calibrated and stored in a sky map by azimuth, elevation, radio frequency (RF) channel, and frequency. Corrections are applied in real time to each pseudorange measurement by applying a combination of the stored errors. The coefficients of the errors in the combination are computed as a function of steering vectors and CRPA filter weights. This implements a generalized pseudorange correction able to compensate a GNSS CRPA sensor for channel dependent errors such as group delay for both the case of uniform weights for all frequencies and the more complex case of frequency-dependent weights.
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Citations
13 Claims
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1. An apparatus for calibrating a global navigation satellite system (GNSS) receiver system for group delay errors in GNSS transmitter signals, the apparatus comprising:
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a controlled reception pattern antenna (CRPA) comprising a plurality of receiving elements and configured to sense a plurality of signals from a plurality of GNSS transmitters using one or more transmitter frequencies; a signal conditioner configured to convert a plurality of sensed GNSS signals to a plurality of time domain digital signals; a processor configured to; convert the time domain digital signals into a plurality of filtered signals using a plurality of signal weights; access group delay calibration correction data for combinations of the plurality of receiving elements, a plurality of transmitter orientations with respect to the CRPA, and the one or more transmitter frequencies; track code modulations of the plurality of filtered signals and convert the filtered signals into GNSS pseudorange measurements for the plurality of GNSS transmitters at the one or more transmitter frequencies; combine the group delay calibration correction data and the signal weights to generate weighted pseudorange error corrections for the plurality of GNSS transmitters at the one or more transmitter frequencies; and combine the weighted pseudorange error corrections and the GNSS pseudorange measurements to generate corrected pseudorange measurements for the plurality of GNSS transmitters at the one or more transmitter frequencies. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for calibrating a global navigation satellite system (GNSS) receiver system for group delay errors in GNSS transmitter signals, the method comprising:
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sensing a plurality of signals from a plurality of GNSS transmitters with a controlled reception pattern antenna (CRPA) comprising a plurality of receiving elements using one or more transmitter frequencies; converting the plurality of sensed GNSS signals to a plurality of time domain digital signals; converting the time domain digital signals into a plurality of filtered signals using a plurality of signal weights; accessing group delay calibration correction data for combinations of the plurality of receiving elements, a plurality of transmitter orientations with respect to the CRPA, and the one or more transmitter frequencies; tracking code modulations of the plurality of filtered signals and converting the filtered signals into GNSS pseudorange measurements for the plurality of GNSS transmitters at the one or more transmitter frequencies; combining the group delay calibration correction data and the signal weights to generate weighted pseudorange error corrections for the plurality of GNSS transmitters at the one or more transmitter frequencies; and combining the weighted pseudorange error corrections and the GNSS pseudorange measurements to generate corrected pseudorange measurements for the plurality of GNSS transmitters at the one or more transmitter frequencies. - View Dependent Claims (13)
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Specification