Ionospheric correction for single frequency GPS receivers using three satellites
First Claim
1. A method using satellite signal transmission for determining the geographic location of a receiver on the earth'"'"'s surface, comprising:
- receiving a first signal transmitted at a known frequency from a first satellite having a known orbital position;
receiving a second signal transmitted at the same frequency as the first signal from a second satellite having a known orbital position;
receiving a third signal transmitted at the same frequency as the first signal from a third satellite having a known orbital position;
calculating measured distances λ
1, λ
2 and λ
3 of the respective first, second and third satellites from the receiver based at least in part on the transmission time of the respective first, second and third signals; and
calculating actual distances ρ
1, ρ
2 and ρ
3 of the respective first, second and third satellites from the receiver based on the measured distances λ
1, λ
2 and λ
3, according to the relationships where Fpp1, Fpp2, and Fpp3 are obliquity factors for the respective first, second and third satellites based on the respective angles φ
1, φ
2 and φ
3 they form with a plane tangent to the earth'"'"'s surface at the geographic location of the receiver, with where Re is the radius of the earth and Hr is the height of maximum electron density in the ionosphere surrounding the earth'"'"'s surface.
2 Assignments
0 Petitions
Accused Products
Abstract
Systems and methods are disclosed for ionospheric correction in a system employing a single GPS frequency receiver for determining the geographic location of an object on the earth'"'"'s surface. The receiver receives signals transmitted at the GPS L1 frequency from at least first, second and third GPS satellites, the first, second and third satellites having respective orbital positions relative to the receiver such that the total electron count (TEC) contribution to ionoshperic interference to signals transmitted by the respective satellites and received by the receiver is approximately the same. Respective measured distances of the three satellites to the receiver are determined based on the actual signal transmission times. True distances of the respective satellites are then calculated based on the assumption that the TEC contribution to the interference from each satellite is approximately the same.
-
Citations
9 Claims
-
1. A method using satellite signal transmission for determining the geographic location of a receiver on the earth'"'"'s surface, comprising:
-
receiving a first signal transmitted at a known frequency from a first satellite having a known orbital position;
receiving a second signal transmitted at the same frequency as the first signal from a second satellite having a known orbital position;
receiving a third signal transmitted at the same frequency as the first signal from a third satellite having a known orbital position;
calculating measured distances λ
1, λ
2 and λ
3 of the respective first, second and third satellites from the receiver based at least in part on the transmission time of the respective first, second and third signals; and
calculating actual distances ρ
1, ρ
2 and ρ
3 of the respective first, second and third satellites from the receiver based on the measured distances λ
1, λ
2 and λ
3, according to the relationshipswhere Fpp1, Fpp2, and Fpp3 are obliquity factors for the respective first, second and third satellites based on the respective angles φ
1, φ
2 and φ
3 they form with a plane tangent to the earth'"'"'s surface at the geographic location of the receiver, withwhere Re is the radius of the earth and Hr is the height of maximum electron density in the ionosphere surrounding the earth'"'"'s surface. - View Dependent Claims (2, 3, 4)
-
-
5. A system for determining the geographic location of objects on the earth'"'"'s surface, comprising:
-
a receiver configured to receive signals transmitted at a selected frequency from first, second and third satellites having known orbital positions, the receiver further configured to calculate measured distances λ
1, λ
2 and λ
3 of the respective first, second and third satellites from the receiver based at least in part on the transmission time of the received signals, andcalculate actual distances ρ
1, ρ
2 and ρ
3 of the respective first, second and third satellites from the receiver based on the measured distances λ
1, λ
2 and λ
3, according to the relationshipswhere Fpp1, Fpp2, and Fpp3 are obliquity factors for the respective first, second and third satellites based on the respective angles φ
1, φ
2 and φ
3 they form with a plane tangent to the earth'"'"'s surface at the geographic location of the receiver, withwhere Re is the radius of the earth and Hr is the height of maximum electron density in the ionosphere surrounding the earth'"'"'s surface. - View Dependent Claims (6, 7, 8)
-
-
9. A system for determining the geographic location of objects on the earth'"'"'s surface, comprising:
-
a single frequency global positioning system (GPS) receiver configured to receive signals transmitted at the GPS L1 frequency from first, second and third GPS satellites, the respective receiver and satellites having synchronized clocks, the first, second and third satellites having respective orbital positions relative to the receiver such that the total electron count (TEC) contribution to ionoshperic interference to signals transmitted by the respective satellites and received by the receiver is approximately the same, the receiver further configured to calculate measured distances λ
1, λ
2 and λ
3 of the respective first, second and third satellites from the receiver based at least in part on the transmission time of the received signals, andcalculate actual distances ρ
GPS1, ρ
GPS2 and ρ
GPS3 of the respective first, second and third satellites from the receiver based on the measured distances λ
L1GPS1, λ
L1GPS2 and λ
L1GPS3 according to the relationshipswhere FppGPS1, FppGPS2, and FppGPS3 are obliquity factors for the respective first, second and third satellites based on the respective angles φ
1, φ
2 and φ
3 they form with a plane tangent to the earth'"'"'s surface at the geographic location of the receiver, withwhere Re is the radius of the earth and Hr is the height of maximum electron density in the ionosphere surrounding the earth'"'"'s surface.
-
Specification