Low-power satellite-based geopositioning system
First Claim
1. A method for determining a position of a transceiver on the surface of the earth comprising the steps of:
- a) transmitting a signal from the transceiver in response to a query from a signal from a satellite;
b) transmitting the response after a precisely controlled time interval after the transceiver receives the query;
c) estimating a length of a propagation path from the satellite to the transceiver from a time delay in the response;
d) measuring a Doppler shift in the response from the transceiver;
e) estimating a first derivative of a path length from the satellite to the transceiver from the measured Doppler shift;
f) estimating the satellite position and velocity from satellite telemetry data;
g) determining an angle between the direction of satellite motion and a line of bearing to the transceiver from the first derivative and the satellite position and velocity; and
h) determining a position of the transceiver on the surface of the earth as being one of two points where the surface of the earth intersects with a base of a cone defined by the angle in step g) and the estimated path length.
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Accused Products
Abstract
A Low Earth Orbiting satellite system provides location and data communications to mobile users equipped with a receiver/transmitter, which acts as a transponder that responds to a query transmitted over the satellite network. The response is sent after a precisely controlled time interval after the transponder receives the query so that the ground station can estimate the propagation path length. The transponder also transmits the response at a frequency proportional to the frequency of the received query so that the ground station can estimate the first and second derivatives of the propagation path length according to the measured Doppler shift. The ground station also estimates the satellite positioning using satellite telemetry obtained from the on-board GPS receiver. The position of the user terminal relative to the satellite position is then determined from the path length measurements. Given the satellite position and velocity, the measured path length and first and second derivatives determine the angle between the direction of satellite motion and the line of bearing to the user terminal. This angle defines a cone with the satellite at the origin. The user terminal position is somewhere on the circle defined by the cone and the estimated path length. The intersection of this circle with the surface of the Earth yields two possible user positions, which ambiguity can be resolved by three techniques: (1) knowledge of which beam the signal was received in; (2) previously obtained position data; or (3) using nearby satellites to receive the signal.
122 Citations
10 Claims
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1. A method for determining a position of a transceiver on the surface of the earth comprising the steps of:
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a) transmitting a signal from the transceiver in response to a query from a signal from a satellite; b) transmitting the response after a precisely controlled time interval after the transceiver receives the query; c) estimating a length of a propagation path from the satellite to the transceiver from a time delay in the response; d) measuring a Doppler shift in the response from the transceiver; e) estimating a first derivative of a path length from the satellite to the transceiver from the measured Doppler shift; f) estimating the satellite position and velocity from satellite telemetry data; g) determining an angle between the direction of satellite motion and a line of bearing to the transceiver from the first derivative and the satellite position and velocity; and h) determining a position of the transceiver on the surface of the earth as being one of two points where the surface of the earth intersects with a base of a cone defined by the angle in step g) and the estimated path length. - View Dependent Claims (2, 3, 4, 5)
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6. A method for determining a position of a transceiver on the surface of the earth comprising the steps of:
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a) transmitting a signal from the transceiver in response to a query from a signal from a satellite; b) transmitting the response after a precisely controlled time interval after the transceiver receives the query; c) estimating a length of a propagation path from the satellite to the transceiver from a time delay in the response; d) measuring a Doppler shift in the response from the transceiver; e) estimating a second derivative of the path length from the satellite to the transceiver from the measured Doppler shift; f) estimating the satellite position and velocity from satellite telemetry data; g) determining an angle between the direction of satellite motion and a line of bearing to the transceiver from the second derivative and the satellite position and velocity; and h) determining a position of the transceiver on the surface of the earth as being one of two points where the surface of the earth intersects with a base of a cone defined by the angle in step g) and the estimated path length. - View Dependent Claims (7, 8, 9, 10)
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Specification