Method and apparatus for calibration of a GPS receiver
First Claim
1. A method of calibrating a GPS receiver for accurately determining the position of said GPS receiver as it moves, comprising the steps of:
- a) positioning said GPS receiver at a reference location having a known position;
b) determining an apparent position of said GPS receiver at said reference location using a first set of GPS satellites;
c) comparing said reference location known position with the apparent position;
d) determining an error correction based on said comparison between said known position and apparent position;
e) positioning said GPS receiver at a second location having an unknown position;
f) determining a second apparent position of said GPS receiver at said second location using only satellites from said first set of GPS satellites; and
g) determining an estimated position of said GPS receiver at said second location based on said second apparent position and said error correction.
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Accused Products
Abstract
The methods and apparatus of the present invention provides for determining accurate positions using a global positioning satellite system (GPS), either the United States Navstar or Russian Glonass, without the use of radio broadcast differential corrections. The method contemplates that selective availability (S/A) is either disabled or satellites with S/A active can be identified and not used. In one method, a GPS receiver is positioned at a reference location with a known position. The apparent position determined by the GPS receiver is then compared to the known position to determine an error correction. Preferably, the error correction is made to each satellite'"'"'s pseudorange as a timing or range correction. When the GPS receiver moves, the error correction is applied to each satellite'"'"'s pseudorange. The satellites used for position determination are chosen based on the "quality" of the satellite. Here, "quality" can mean the geometry of the satellite relative to the earth and the absence of SIA. With the combination of GPS and Glonass satellites to choose from, the four or five highest quality satellites are used for the position calculation. The method contemplates the addition of a new satellite to the current "quality" set of satellites being used for position determination. Range from the new satellite is compared to the range of the GPS receiver using the position based on the current "quality" set of satellites. Thus, a range correction for the new satellite is continuously computed. Once the new satellite is added to the "quality" set of satellites being used for position determination, the range correction is continuously applied to the new satellite to enhance accuracy.
57 Citations
14 Claims
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1. A method of calibrating a GPS receiver for accurately determining the position of said GPS receiver as it moves, comprising the steps of:
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a) positioning said GPS receiver at a reference location having a known position; b) determining an apparent position of said GPS receiver at said reference location using a first set of GPS satellites; c) comparing said reference location known position with the apparent position; d) determining an error correction based on said comparison between said known position and apparent position; e) positioning said GPS receiver at a second location having an unknown position; f) determining a second apparent position of said GPS receiver at said second location using only satellites from said first set of GPS satellites; and g) determining an estimated position of said GPS receiver at said second location based on said second apparent position and said error correction. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of determining a range error correction for a certain GPS satellite, comprising the steps of:
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selecting a first set of GPS satellites, not including said certain GPS satellite, from the GPS satellites in view of a GPS receiver; providing a predetermined range error correction for each GPS satellite in said first set; positioning said GPS receiver at a first, unknown location; determining an apparent position of said GPS receiver at said first location using said first set of GPS satellites; calculating a corrected position of said GPS receiver based on said apparent position and predetermined range error corrections;
calculating a computed range from said GPS receiver positioned at said first location to said certain GPS satellite using said corrected position;determining an apparent range of said GPS receiver positioned at said first location to said certain GPS satellite, and calculating a range error correction for said certain GPS satellite based on the difference between said computed range and apparent range. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A system for accurately determining a position of a GPS receiver movable about a predefined navigational area comprising:
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a reference location having a known position within the navigational area; said GPS receiver including means for determining when said receiver is positioned at said reference location, means for determining an apparent position when said receiver is positioned at said reference location using a first set of GPS satellites, and for determining a range error correction for each satellite in said first set based on the difference between said apparent position and said known position, means for calculating a computed position of the GPS receiver at a second location by applying said range error corrections, comprising, means for determining an apparent position of said receiver at said second location using only GPS satellites selected from said first set, means for adjusting said apparent position by applying said range error corrections to calculate said computed position. - View Dependent Claims (14)
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Specification