Precise positioning system for mobile GPS users
First Claim
1. A differential positioning system for at least one mobile GPS user comprising:
- a central processing facility, a plurality of reference stations with known geographic locations or positions, means for each reference station to receive GPS signal data, means for each reference station to communicate with the central processing facility, wherein measurement data are sent to the central processing facility where differences between the received measurement data and the known locations of the reference stations are calculated, an error model that is generated from the calculated differences, the error model covering at least the area including the central processor and all the reference stations, means for two way communicating between the at least one mobile user and the central processing facility, means for the mobile user to receive GPS signal data, wherein the mobile user sends measurement data to the central processing facility, and receives corrected positional data for the mobile user therefrom, wherein the central processor uses the error model to calculate the corrected positional data for the mobile user, and means for the mobile user to generate a local error or offset from the last corrected position received as compared to its received GPS signals and then to use this offset when the mobile user is calculating its own position from the locally received GPS signals.
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Accused Products
Abstract
Multiple geographically fixed reference stations, with precisely known locations, that each receive GPS signals send information to a central processing facility that generates a three dimension topographical gradient map or model of the differences between the known locations and the locations as calculated from the received GPS signals. GPS signals received by mobile users are communicated to the central processing facility whereupon the central processing facility, using the model, generates precise corrected locations of the mobile users which is sent back to the mobile users. The mobile users can use and display the locally generated position from the locally received GPS signals or the corrected position from the central processing facility.
28 Citations
16 Claims
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1. A differential positioning system for at least one mobile GPS user comprising:
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a central processing facility, a plurality of reference stations with known geographic locations or positions, means for each reference station to receive GPS signal data, means for each reference station to communicate with the central processing facility, wherein measurement data are sent to the central processing facility where differences between the received measurement data and the known locations of the reference stations are calculated, an error model that is generated from the calculated differences, the error model covering at least the area including the central processor and all the reference stations, means for two way communicating between the at least one mobile user and the central processing facility, means for the mobile user to receive GPS signal data, wherein the mobile user sends measurement data to the central processing facility, and receives corrected positional data for the mobile user therefrom, wherein the central processor uses the error model to calculate the corrected positional data for the mobile user, and means for the mobile user to generate a local error or offset from the last corrected position received as compared to its received GPS signals and then to use this offset when the mobile user is calculating its own position from the locally received GPS signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
means for generating a mathematical topographical model accounting for differences between the known locations of the reference stations and the locations derived from the GPS signals, and means for processing the information received from the at least one mobile user with respect to the mathematical topographical model wherein the position of the at least one mobile user is precisely computed and sent to the at least one mobile user.
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4. The differential positioning system as defined in claim 1 further comprising:
means for causing the reference stations to communicate with the central processing facility on a regular basis, wherein the central processing facility updates its difference calculations on the regular basis.
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5. The differential positioning system as defined in claim 1 further comprising means for displaying the at least one mobile user'"'"'s position as geographical coordinates, a moving map display, or as navigational guidance.
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6. The differential positioning system as defined in claim 5 further comprising means for storing the calculated position history of the at least one mobile user to the at least one mobile user, and means for displaying the history at the at least one mobile user location.
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7. The differential positioning system as defined in claim 1 further comprising a switch wherein, when the switch is set, the mobile user determines its position from its locally received GPS signals and does not use the positional data from the central processing facility.
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8. The differential positioning system as defined in claim 1 further comprising means for the mobile user to determine its position from its locally received GPS signals.
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9. A differential positioning method for at least one mobile GPS user comprising the steps of:
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determining known geographic locations or positions of a plurality of reference stations with, inputting the known geographical locations to a central processing facility, receiving GPS signal data at each reference station, communicating between each reference station and the central processing facility, wherein measurement data is sent from each reference station to the central processing facility, calculating differences between the received measurement data and the the known locations of the reference stations, generating an error model from the calculated differences, the error model covering at least the area including the central processor and all the reference stations, two way communicating between the at least one mobile user and the central processing facility, and receiving GPS signal data locally at the at least one mobile user, sending measurement data to the central processing facility, wherein the central processor uses the error model to calculate the corrected positional data for the mobile user, and receiving corrected positional data for the at least one mobile user from the central processing facility, and generating a local error or offset at the at least one mobile user from the last corrected position received as compared to its received GPS signals, and using the offset when the mobile user is calculating its own position from the locally received GPS signals. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
generating a mathematical topographical model accounting for differences between the known locations of the reference stations and the locations derived from the GPS signals, and processing the information received from the at least one mobile user with respect to the mathematical topographical model wherein the position of the at least one mobile user is precisely computed and sent to the at least one mobile user.
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12. The differential positioning method as defined in claim 9 further comprising the steps of:
causing the reference stations to communicate with the central processing facility on a regular basis, wherein the central processing facility updates its difference calculations on the regular basis.
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13. The differential positioning method as defined in claim 9 further comprising the step of displaying the at least one mobile user'"'"'s position as geographical coordinates, a moving map display, or as navigational guidance.
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14. The differential positioning method as defined in claim 13 further comprising the steps of:
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storing the calculated position history of the at least one mobile user to the at least one mobile user, and displaying the history at the at least one mobile user location.
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15. The differential positioning method as claim 9 further comprising the step of determining the mobile user'"'"'s position from its locally received GPS signals.
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16. The differential positioning method as defined in claim 15, further comprising the step of selecting the locally generated position of the at least one mobile user or the correct position from the central processing facility.
Specification