Position determination and message transfer system employing satellites and stored terrain map
First Claim
1. A system for determining the position of a user located on the earth'"'"'s surface, comprising:
- a user-carried transceiver for receiving an interrogation signal and transmitting a reply signal in response to said interrogation signal;
two satellites at spaced orbital locations above the earth, each of said satellites carrying repeater means for receiving and retransmitting the reply signal transmitted by the user-carried transceiver; and
a ground station for periodically transmitting the interrogation signal and for receiving and processing the retransmitted reply signals from the two satellites, said ground station including means for calculating the user position based on the arrival times of the retransmitted reply signals at the ground station, the transmission time of the interrogation signal from the ground station, and the elevation of the user on the earth'"'"'s surface, said elevation being derived form a stored terrain map providing local terrain elevations at a plurality of points on the earth'"'"'s surface.
2 Assignments
0 Petitions
Accused Products
Abstract
A radio position determation and message transfer system is implemented using a pair of satellites in geostationary orbit for replaying interrogation and replay signals between a ground station and a user-carried transceiver. The user portion is calculated based on the arrival times of replay signals received at the ground station via the two satellites, the known transmission time of the interrogation signal from the ground station, and the user'"'"'s elevation on the surface of the earth. The elevation is derived from a stored terrain map providing local terrain elevations at a plurality of points of the earth'"'"'s surface. The stored terrain map allows accurate position fixed to be obtained for surface users regardless of the deviation of the local terrain from the spherical or ellipsoidal model of the earth'"'"'s surface.
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Citations
24 Claims
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1. A system for determining the position of a user located on the earth'"'"'s surface, comprising:
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a user-carried transceiver for receiving an interrogation signal and transmitting a reply signal in response to said interrogation signal; two satellites at spaced orbital locations above the earth, each of said satellites carrying repeater means for receiving and retransmitting the reply signal transmitted by the user-carried transceiver; and a ground station for periodically transmitting the interrogation signal and for receiving and processing the retransmitted reply signals from the two satellites, said ground station including means for calculating the user position based on the arrival times of the retransmitted reply signals at the ground station, the transmission time of the interrogation signal from the ground station, and the elevation of the user on the earth'"'"'s surface, said elevation being derived form a stored terrain map providing local terrain elevations at a plurality of points on the earth'"'"'s surface. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for determining the position of a user located on the earth'"'"'s surface using two relay satellites at spaced orbital locations above the earth, said user carrying a transceiver for transmitting a reply signal in response to a received interrogation signal, said method comprising the steps of:
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transmitting an interrogation signal to the user at a known or measured time; receiving a reply signal from the user through each of the two satellites; measuring the arrival times of the reply signals received through the two satellites; calculating a line of position for the user based on the arrival times of the reply signal through the two satellites and the transmission time of the interrogation signal; determining the intersection of the line of position with the earth'"'"'s surface by reference to a stored terrain map providing local terrain elevations at a plurality of points on the earth'"'"'s surface.
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8. A method for providing approach guidance to a landing aircraft using two relay satellites at spaced orbital locations above the earth, said aircraft carrying a transceiver for transmitting a reply signal in response to a received interrogation signal, said method comprising the steps of:
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transmitting an interrogation signal to the aircraft transceiver at a known or measured time; receiving a reply signal from the aircraft transceiver through each of the two satellites; calculating a line of position for the aircraft based on the arrival times of the reply signal through the two satellites and the transmission time of the interrogation signal; estimating the aircraft location from the intersection between the line of position and a predetermined glide slope; and providing the aircraft with altitude information representing desired altitude on the glide slope.
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9. A system for determining the position of a user located on the earth'"'"'s surface, comprising:
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a user-carried transceiver for receiving an interrogation signal and transmitting a reply signal in response to said interrogation signal; two satellites at spaced orbital locations above the earth, each of said satellites carrying repeater means for receiving and retransmitting the reply signal transmitted by the user-carried transceiver; and a ground station for periodically transmitting the interrogation signal and for receiving and processing the retransmitted reply signals from the two satellites, said ground station comprising; means for calculating the user position based on the arrival times of the retransmitted reply signals at the ground station, the transmission time of the interrogation signal from the ground station, and the elevation of the user on the earth'"'"'s surface; and a stored terrain map providing local terrain elevations at the plurality of points on the earth'"'"'s surface, said user elevation being obtained from said stored terrain map by said calculating means in response to input information derived from the arrival times of said retransmitted reply signals. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A method for determining the position of a user located on the earth'"'"'s surface using a ground station and two relay satellites at spaced orbital locations above the earth, said user carrying a transceiver for transmitting a reply signal in response to a received interrogation signal, said method comprising the steps of:
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transmitting an interrogation signal from the ground station to the user at a known or measured time; receiving a reply signal from the user at the ground station through each of the two satellites; measuring the arrival times at the ground station of the reply signals received through the two satellites; calculating at the ground station a line of position for the user based on the arrival times of the reply signal through the two satellites and the transmission time of the interrogation signal; determining at the ground station the intersection point between the line of position and a reference surface approximating the earth'"'"'s surface; using said intersection point as an input to a stored terrain map at the ground station in order to obtain a local terrain elevation, said ground station providing local terrain elevations at a plurality of points on the earth'"'"'s surface; and using the local terrain elevation obtained from the stored terrain map and said line of position to determine at the ground station the position of the user. - View Dependent Claims (16)
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17. A system for determining the position of a user located on the earth'"'"'s surface, comprising:
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a user-carried transmitter for transmitting a signal; a plurality of satellites at spaced orbital locations above the earth, each of said satellites carrying repeater means for receiving and retransmitting the signal transmitted by the user-carried transmitter; and a ground station for receiving and processing the retransmitted signals from the satellites, said ground station comprising; means for calculating the user position based on the arrival times of the retransmitted reply signals at the ground station and the elevation of the user on the earth'"'"'s surface; and a stored terrain map providing local terrain elevations at a plurality of points on the earth'"'"'s surface, said user elevation being obtained from said stored terrain map by said calculating means in response to input information derived from the arrival times of said retransmitted replay signals. - View Dependent Claims (18, 19, 20)
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21. A method for determining the position of a user located on the earth'"'"'s surface using a ground station and a plurality of satellites at spaced orbital locations above the earth, said user carrying a transmitter for transmitting a signal to the ground station through said satellites, said method comprising the steps of:
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receiving a signal from the user at the ground station through each of said satellites; measuring the arrival times at the ground station of the signals received from said satellites; and calculating at the ground station the position of the user based on the arrival times of the signals received from the satellites and the elevation of the user on the earth'"'"'s surface, said elevation being derived from a stored terrain map a the ground station in response to input information derived from said arrival times, said terrain map providing local terrain elevations at a plurality of points on the earth'"'"'s surface.
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22. A method for determining the position of a user located on the earth'"'"'s surface using a first transmitter, a second transmitter carried by said user, and a plurality of satellites at spaced orbital locations above the earth, said method comprising the steps of:
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placing said first transmitter at a first location on the earth'"'"'s surface at which one or more of the latitude, longitude and elevation of the first transmitter are unknown; receiving a signal form said first transmitter through one or more of said satellites; calculating the unknown latitude, longitude and/or terrain elevation of the first transmitter based on the arrival times of the signals received from said satellites; entering said terrain elevation into a terrain map memory as a function of latitude and longitude; moving a user carrying said second transmitter to a second location on the earth'"'"'s surface in relative proximity to said first location; receiving signals from said second transmitter through one or more of said satellites; and calculating the position of said user based on the arrival times of the signals from said satellites and elevation data stored in said terrain map memory. - View Dependent Claims (23, 24)
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Specification