Vehicle location system accuracy enhancement for airborne vehicles
First Claim
1. A vehicle location system for locating the position of an airborne user vehicle, comprising:
- a transmitter located aboard the user, said transmitter being capable of periodic transmission of a first signal unique to said user;
a plurality of ground enhancement stations, said ground enhancement stations being capable of receipt of said first signal from said user and retransmission thereof as a second signal after a predetermined time delay;
at least one satellite, said satellite being capable of receipt of said first signal transmitted from said user and said second signal retransmitted by said ground enhancement stations, said satellite further capable of retransmission of a single composite signal incorporating said first and second received signals; and
a ground base station, said ground base station being capable of receipt of said composite signal from said at least one satellite, said ground base station incorporating computer means for calculating the position of said user from the known locations of said ground enhancement stations and said at least one satellite and from the time difference of arrival of said first signals transmitted directly from the user to the satellite and then to the ground base station and the second signals transmitted from the user and relayed by the ground enhancement stations to the satellite and then to the ground base station, said ground enhancement stations and said at least one satellite providing a ground reference combined with an aerial reference for reducing geometric dilution of precision errors and for improving accuracy in locating said airborne user vehicle.
1 Assignment
0 Petitions
Accused Products
Abstract
A vehicle location system incorporating a plurality of ground enhancement stations and at least one satellite to receive encoded transmissions from a radio transmitter aboard a user vehicle. The satellite transmits the signals received directly from the user and those relayed by the ground enhancement station to a base station where a computer calculates the position of the user on the basis of the time difference between the time of arrival of the signals. The use of the ground enhancement stations, located throughout the area in which the user is to be located provides lower geometric dilution of precision than purely satellite or purely ground base systems, and in combination with the relatively simple transmitter aboard the vehicle and transponders at the ground enhancement stations and satellite, substantially reduces the cost of deployment of such a system. Means may be provided to give the results of the calculation of position to the user by a radio link from the satellite or a ground enhancement station.
-
Citations
42 Claims
-
1. A vehicle location system for locating the position of an airborne user vehicle, comprising:
-
a transmitter located aboard the user, said transmitter being capable of periodic transmission of a first signal unique to said user; a plurality of ground enhancement stations, said ground enhancement stations being capable of receipt of said first signal from said user and retransmission thereof as a second signal after a predetermined time delay; at least one satellite, said satellite being capable of receipt of said first signal transmitted from said user and said second signal retransmitted by said ground enhancement stations, said satellite further capable of retransmission of a single composite signal incorporating said first and second received signals; and a ground base station, said ground base station being capable of receipt of said composite signal from said at least one satellite, said ground base station incorporating computer means for calculating the position of said user from the known locations of said ground enhancement stations and said at least one satellite and from the time difference of arrival of said first signals transmitted directly from the user to the satellite and then to the ground base station and the second signals transmitted from the user and relayed by the ground enhancement stations to the satellite and then to the ground base station, said ground enhancement stations and said at least one satellite providing a ground reference combined with an aerial reference for reducing geometric dilution of precision errors and for improving accuracy in locating said airborne user vehicle. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 15, 16, 17, 18)
-
-
10. A vehicle location system for locating the position of an airborne user, comprising:
-
at least one airborne user, said user equipped with a radio frequency transmitter, said radio frequency transmitter capable of periodic transmissions of a first radio signal encoded with an identification for said user; a plurality of ground enhancement stations, said ground enhancement stations being capable of receipt of said first radio signals from said user and retransmission of said first radio signals as a second radio signal after a known time delay; at least one satellite, said satellite incorporating means for receiving said first radio signals directly emanating from said user and said second radio signals retransmitted by said ground enhancement stations, said satellite further being capable of retransmission of said first and second radio signals; a ground base station, said ground base station being capable of receipt of said retransmitted first and second radio signals from said satellite and the measurement of the time of arrival of said retransmitted first and second radio signals referenced to a time standard; and means for computing the location of said user on the basis of the known locations of said ground enhancement stations and said at least one satellite and the said time difference between the time of arrival of said first radio signals transmitted directly from the user to the satellite and then to the ground base station and the second radio signals transmitted from the user and relayed by the ground enhancement stations to the satellite and then to the ground base station, said ground enhancement stations providing a ground reference, said ground reference being combined with an aerial reference provided by said at least one satellite for reducing geometric dilution of precision and for improving accuracy in locating said airborne user. - View Dependent Claims (11, 19, 20, 21, 22)
-
-
12. A system for location the position of an airborne user, comprising:
-
a plurality of radio frequency transmitters, each of said transmitters transmitting radio signals according to a predetermined format unique to each of said transmitters at a first frequency, said transmitters adapted for use by a like number of users; a plurality of spaced apart, enhancement receiver/transmitter stations remote from said users, said enhancement stations configured for receiving said radio signals at a first frequency, for accurately delaying said received radio signals, for encoding an enhancement station identification code into the received radio signals and for retransmitting the delayed and encoded received signals at a second radio frequency; at least one satellite for receiving the radio frequency signals at said first frequency from said user transmitters and the time delayed and encoded radio frequency signals from said enhancement stations at said second frequency, said satellite further comprising means for retransmitting said signals received on said first frequency and said second frequency on a third frequency; a remote base station configured to receive said radio frequency signals at said third frequency; and computer means for calculating the location of said user on the basis of time delay of arrival of said receipt of said signal and information regarding the location of said enhancement stations and said satellite, said enhancement stations providing a ground reference, said ground reference being combined with an aerial reference provided by said at least one satellite for reducing geometric dilution of precision and for improving accuracy in locating said airborne users. - View Dependent Claims (13, 14, 23, 24, 25)
-
-
26. A method for locating the position of an airborne user, said method comprising the steps of:
-
transmitting a radio signal at a first frequency at periodic intervals by said airborne user for defining an address unique to said airborne user; receiving said radio signals transmitted at said first frequency at at least one of a plurality of remote enhancement stations and retransmitting said radio signals at a second frequency after a known time delay for communicating said unique address of said airborne user, said retransmitted radio signals being encoded for identifying said remote enhancement station; receiving said radio signals transmitted at said first frequency from said airborne user at at least one satellite for providing a first reference for locating said airborne user and receiving said radio signals retransmitted at said second frequency at said satellite for providing a second reference for locating said airborne user; retransmitting said radio signals received at said satellite at said first and second frequencies to a remote base station at a third frequency for determining the location of said airborne user; and evaluating said radio signals retransmitted to said remote base station at said third frequency for calculating the location of said airborne user based upon known locations of said remote enhancement stations, said satellite, said remote base station and the time difference of arrival of said signals from said satellite. - View Dependent Claims (27, 28, 29, 30, 31, 32)
-
-
33. A vehicle location system for locating the position of an airborne user vehicle comprising, in combination:
-
a transmitter located aboard the user, said transmitter being capable of periodic transmission of a first signal unique to said user; a plurality of ground enhancement stations, said ground enhancement stations being dedicated to receipt of said first signal from said user and retransmission of said first signal as a second signal after a predetermined time delay; at least one satellite, said satellite being capable of receipt of said first signal transmitted from said user and said second signal retransmitted by said dedicated ground enhancement stations, said satellite further capable of retransmission of a single composite signal incorporating said first and second received signals; and a ground base station, said ground base station being capable of receipt of said composite signal from said at least one satellite, said ground base station incorporating computer means for calculating the position of said user from the known locations of said ground enhancement stations and said at least ne satellite and from the time difference of arrival of said first signals transmitted directly from the user to the satellite and then to the ground base station and the second signals transmitted from the user and relayed to the ground enhancement stations to the satellite and then to the ground base station, said ground enhancement stations providing a ground reference, said ground reference being combined with an aerial reference provided by said at least one satellite for reducing geometric dilution of precision and for improving accuracy in locating said airborne user.
-
-
34. A vehicle location system for determining the position of an airborne user comprising:
-
(a) transmitter means located on said airborne user for transmitting a user signal containing a unique code identifying said airborne user; (b) at least four geometrically separated receiving stations for receiving user signals directly from said airborne user and retransmitting said user signals, the location of each of said at lest four geometrically separated receiving stations being accurately known, at least one of said receiving stations being a satellite and at least one of said receiving stations being a ground based-enhancement station; (c) the retransmitted user signals from each of said at least one ground-based enhancement station having means for identifying the ground-based enhancement station from which they are retransmitted; (d) the retransmitted user signals from each of said at least one satellite having means for identifying the satellite from which they are retransmitted; and (e) a base station for receiving said retransmitted user signals from said at least four geometrically separated receiving stations; and (f) means for computing the location of said airborne user based on the known locations of said at least four geometrically separated receiving stations and any time difference between the arrival of user signals retransmitted by the at least four geometrically separated receiving stations. - View Dependent Claims (35, 36, 37, 38, 39, 40, 41, 42)
-
Specification