Radio determination using satellites transmitting timing signals with correction by active range measurement

US 4,161,730 A
Filed: 10/17/1977
Issued: 07/17/1979
Est. Priority Date: 10/17/1977
Status: Expired due to Term

First Claim

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1. A method of radio determination using a plurality of earth satellites having known locations and including satellites that simultaneously transmit timing signals at precisely known intervals, comprising the steps ofreceiving at an object being located the timing signals transmitted by first and second satellites and measuring the time-of-arrival of each timing signal with respect to a clock to derive the one-way ranging times and therefore the ranges from said first and second satellites to the object,computing the approximate position fix of the object from the known locations of said first and second satellites and the ranges, and also computing from the satellite locations a hyperbolic line of position for the object extending through the approximate position fix and along which the approximate position fix is displaced by clock error,independently determining a line of position of the object by performing a two-way active range measurement made through an earth satellite,determining the true position fix of the object at the intersection of said hyperbolic line of position and independently determined line of position, andresetting said clock to correct for the clock error which is dependent upon the distance between the approximate and true position fixes.

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Abstract

The time-of-arrival of timing signals transmitted by two satellites is measured relative to a crystal clock, and an approximate position fix is computed for the ship or other object being located. Because of clock error the position fixes are displaced along a hyperbolic line of position. A two-way active range measurement through a third satellite or one timing signal satellite enables computation of an independently determined line of position, the true position fix being at its intersection with the hyperbolic line of position. The clock error is corrected and the method of position fixing from two timing satellites is repeated until the clock drift exceeds acceptable limits. A continuous navigation service and also position surveillance are realized.

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15 Claims

1. A method of radio determination using a plurality of earth satellites having known locations and including satellites that simultaneously transmit timing signals at precisely known intervals, comprising the steps ofreceiving at an object being located the timing signals transmitted by first and second satellites and measuring the time-of-arrival of each timing signal with respect to a clock to derive the one-way ranging times and therefore the ranges from said first and second satellites to the object,computing the approximate position fix of the object from the known locations of said first and second satellites and the ranges, and also computing from the satellite locations a hyperbolic line of position for the object extending through the approximate position fix and along which the approximate position fix is displaced by clock error,independently determining a line of position of the object by performing a two-way active range measurement made through an earth satellite,determining the true position fix of the object at the intersection of said hyperbolic line of position and independently determined line of position, andresetting said clock to correct for the clock error which is dependent upon the distance between the approximate and true position fixes.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method of claim 1 wherein the step of independently determining a line of position for the object comprises making a two-way active range measurement between said ground station, a third satellite and the object to derive, from the elapsed time interval and known locations of said ground station and third satellite, the one-way ranging time and therefore the range from said third satellite to the object, and then computing the independently determined line of position from the location of said third satellite and range to the object.
  - 3. The method of claim 1 wherein the step of independently determining a line of position for the object comprises making a two-way active range measurement between said ground station, said first satellite and the object to derive, from the elapsed time interval and known locations of said ground station and first satellite, the one-way ranging time and therefore the range from said first satellite to the object, and then computing the independently determined line of position from the location of said first satellite and range to the object.
  - 4. The method of claim 1 further including the step of receiving at the object being located the timing signal transmitted by a third satellite and measuring the time-of-arrival of the timing signal with respect to said clock to derive the one-way ranging time and therefore the range from said third satellite to the object, and computing the approximate position fix of the object in altitude, longitude, and latitude from the known locations of said first, second, and third satellites and the ranges.
  - 5. The method of claim 1 wherein the steps of receiving timing signals, measuring the time-of-arrival of the timing signals, and computing the approximate position fix of the object are repeated for a period of time during which the clock is within acceptable limits of accuracy.
  - 6. The method of claim 5 wherein said first and second satellites are time distribution satellites transmitting said timing signals at precise one second intervals, said clock is a crystal oscillator clock generating clock pulses at one second intervals, and the step of measuring the time-of-arrival of said timing signals with respect to the clock comprises starting and stopping time interval counters with corresponding clock pulses and timing signals to thereby generate the one-way ranging times.

7. A method of navigation using a plurality of earth satellites having known locations and including satellites that simultaneously transmit timing signals at precisely known intervals, comprising the steps ofreceiving at an object being located the timing signals transmitted by first and second satellites and measuring the time-of-arrival of each timing signal with respect to a clock having a stability not exceeding one part in 10¹⁰ to derive the one-way ranging times and therefore the ranges from said first and second satellites to the object,computing the approximate position fix of the object from the known locations of said first and second satellites and the ranges, and also computing from the satellite locations a hyperbolic line of position for the object extending through the approximate position fix and along which the approximate position fix is displaced by clock error,independently determining a line of position of the object and transmitting information thereon to the object by making a two-way active range measurement by transmitting a ranging signal having a time marker from a ground station through a third satellite to the object and then back through said third satellite to the ground station to derive, from the elapsed time interval and known locations of said ground station and third satellite, the one-way ranging time and therefore the range from said third satellite to the object, and then computing the independently determined line of position from the location of said third satellite and range to the object,determining the true position fix of the object at the intersection of said hyperbolic line of position and independently determined line of position, andresetting said clock to correct for the clock error which is dependent upon the distance between the approximate and true position fixes.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The method of claim 7 further including the step of receiving at the object being located the timing signal transmitted by a fourth satellite and measuring the time-of-arrival with respect to said crystal clock to thereby derive the one-way ranging time and therefore the range from said fourth satellite to the object, and computing the approximate position fix of the object in altitude, longitude, and latitude from the known locations of said first, second, and fourth satellites and the ranges.
  - 9. The method of claim 7 wherein the steps of receiving timing signals, measuring the time-of-arrival of the timing signals with respect to said clock, and computing the approximate position fix of the object are repeated without a clock correction for a period of time during which said clock is within acceptable limits of accuracy.
  - 10. The method of claim 9 wherein the step of independently determining a line of position of the object includes transmitting the elapsed time interval between transmission and reception of the ranging signal time marker at the ground station, back through said third satellite to the object being located where the independent line of position is computed.
  - 11. The method of claim 10 wherein said first and second satellites are time distribution satellites transmitting said timing signals at precise one second intervals, and the step of measuring the time-of-arrival of said timing signals with respect to said clock comprises starting and stopping a time interval counter with corresponding clock pulses and timing signals to thereby generate the one-way ranging times.

12. A method of navigation using a plurality of earth satellites having known locations and including satellites that simultaneously transmit timing signals at precisely known intervals, comprising the steps ofreceiving at an object being located the timing signals transmitted by first and second satellites and measuring the time-of-arrival of each timing signal with respect to a clock having a stability not exceeding one part in 10¹⁰ to derive the one-way ranging times and therefore the ranges from said first and second satellites to the object,computing the approximate position fix of the object from the known locations of said first and second satellites and the ranges, and also computing from the satellite locations a hyperbolic line of position for the object extending through the approximate position fix and along which the approximate position fix is displaced by clock error,independently determining a line of position for the object and transmitting information thereon to the object by making a two-way active range measurement by transmitting a ranging signal having a time marker from a ground station through said first satellite to the object and back through said first satellite to the ground station to derive, from the elapsed time interval and known locations of said ground station and first satellite, the one-way ranging time and therefore the range from said first satellite to the object, and then computing the independently determined line of position from the location of said first satellite and range to the object,determining the true position fix of the object at the intersection of said hyperbolic line of position and independently determined line of position, andresetting said clock to correct for the clock error which is dependent upon the distance between the approximate and true position fixes.
- View Dependent Claims (13, 14, 15)
- - 13. The method of claim 12 wherein the steps of receiving timing signals, measuring the time-of-arrival of the timing signals with respect to said clock, and computing the approximate position fix of the object are repeated without a clock correction for a period of time during which said clock is within acceptable limits of accuracy.
  - 14. The method of claim 13 wherein the step of independently determining a line of position of the object includes transmitting the elapsed time interval between transmission and reception of the ranging signal time marker at the ground station, back through said first satellite to the object being located where the independent line of position is computed.
  - 15. The method of claim 13 wherein said timing signals are transmitted at precise one second intervals, and said clock generates clock pulses approximately at one second intervals, and the step of measuring the time-of-arrival of said timing signals with respect to said clock comprises starting and stopping a time interval counter with corresponding clock pulses and timing signals to thereby generate the one-way ranging times.

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Current Assignee
Lockheed Martin Corporation (Martin Marietta Corporation)
Original Assignee
General Electric Company
Inventors
Anderson, Roy E.
Primary Examiner(s)
Wilbur, Maynard R.
Assistant Examiner(s)
Goodwin, Lawrence

Application Number

US05/842,402
Time in Patent Office

638 Days
Field of Search

343/100 ST, 343/112 R, 343/112 D, 343/103, 343/6.5 R
US Class Current

342/52
CPC Class Codes

G01S 11/08   using synchronised clocks

G01S 13/46   Indirect determination of p...

G01S 13/76   wherein pulse-type signals ...

G01S 13/86   Combinations of radar syste...

G01S 2013/466   by Trilateration, i.e. two ...

G01S 5/12   by co-ordinating position l...

Radio determination using satellites transmitting timing signals with correction by active range measurement

First Claim

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Abstract

73 Citations

15 Claims

Specification

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Radio determination using satellites transmitting timing signals with correction by active range measurement

First Claim

2 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

73 Citations

15 Claims

Specification

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Use Cases

Quick Links

Others