Apparatus, method, and system of transferring correction information
First Claim
Patent Images
1. A method comprising:
- calculating a plurality of correction factors, each correction factor relating to a position of at least a corresponding one among a set of physical objects; and
transmitting said plurality of correction factors in a predetermined order, wherein said correspondence of each among said plurality of correction factors with at least one among the set of physical objects is indicated at least in part by said predetermined order;
wherein said calculating a plurality of correction factors comprises;
computing a reference position of each among the set of physical objects; and
computing a supplemental position of each among the set of physical objects, wherein each among said correction factors is based at least in part on a difference between said corresponding reference and supplemental positions.
2 Assignments
0 Petitions
Accused Products
Abstract
Apparatuses, methods, and systems of transferring correction information are described. In certain implementations, correction factors relate to stored or calculated values, and a correspondence between a correction factor and a value is indicated by a predetermined order of the correction factors. In one application, a method according to an embodiment of the invention is used to transmit correction factors relating to the positions of physical objects. For example, such a method may be used to transmit correction factors relating to the positions of space vehicles within a Global Positioning Satellite (‘GPS’) system.
185 Citations
54 Claims
-
1. A method comprising:
-
calculating a plurality of correction factors, each correction factor relating to a position of at least a corresponding one among a set of physical objects; and
transmitting said plurality of correction factors in a predetermined order, wherein said correspondence of each among said plurality of correction factors with at least one among the set of physical objects is indicated at least in part by said predetermined order;
wherein said calculating a plurality of correction factors comprises;
computing a reference position of each among the set of physical objects; and
computing a supplemental position of each among the set of physical objects, wherein each among said correction factors is based at least in part on a difference between said corresponding reference and supplemental positions. - View Dependent Claims (2, 3, 4, 5, 6)
wherein each among said reference positions is based at least in part on almanac information, and wherein each among said supplemental positions is based at least in part on ephemeris information. -
6. The method according to claim 5, wherein said almanac information is received from at least one of said space vehicles.
-
-
7. An apparatus comprising a data storage medium, said data storage medium having machine-readable code stored thereon including instructions executable by a digital signal processing unit, comprising:
-
machine readable code for calculating a plurality of correction factors, each correction factor relating to a position of at least a corresponding one among a set of physical objects; and
machine readable code for causing said plurality of correction factors to be transmitted in a predetermined order without transmitting information related to identities of said physical objects, wherein said correspondence of each among said plurality of correction factors with at least one among the set of physical objects is indicated at least in part by said predetermined order, and wherein said machine readable code for calculating a plurality of correction factors comprises;
machine readable code for computing a reference position of each among the set of physical objects; and
machine readable code for computing a supplemental position of each among the set of physical objects, wherein each among said correction factors is based at least in pert on a difference between said corresponding reference and supplemental positions.
-
-
8. An apparatus comprising:
-
a reference position calculator configured and arranged to calculate a reference position for each among a plurality of physical objects;
a supplemental position calculator configured and arranged to calculate a supplemental position for each among the plurality of physical objects; and
a correction factor calculator configured and arranged to receive said reference positions and said supplemental positions and to output a plurality of correction factors in a predetermined order, wherein each correction factor relates to a position of at least a corresponding one among the plurality of physical objects, and wherein said correspondence of each among said plurality of correction factors with at least one among the plurality of physical objects is indicated at least in part by said predetermined order. - View Dependent Claims (9)
-
-
10. A system comprising:
-
a receiver configured and arranged to receive signals from at least one among a plurality of physical objects;
a position determining entity including a reference position calculator configured and arranged to calculate a reference position for each among the plurality of physical objects;
a supplemental position calculator configured and arranged to calculate a supplemental position for each among the plurality of physical objects; and
a correction factor calculator configured and arranged to receive said reference positions and said supplemental positions and to output a plurality of correction factors, and a transmitter configured and arranged to transmit the plurality of correction factors, wherein said plurality of correction factors is transmitted in a predetermined order, and wherein each correction factor relates to a position of at least a corresponding one among the plurality of physical objects, and wherein said correspondence of each among said plurality of correction factors with at least one among the plurality of physical objects is indicated at least in part by said predetermined order. - View Dependent Claims (11)
-
-
12. A method comprising:
-
receiving information relating to positions of respective physical objects;
determining reference positions of said physical objects, said determining being based at least in part on said information;
receiving a plurality of correction factors in a predetermined order without receiving information relating to identities of said physical objects; and
correlating said correction factors with respective ones of said reference positions using said predetermined order to identify said respective ones of said physical objects, and applying corresponding correction factors to said reference positions. - View Dependent Claims (13)
-
-
14. A method comprising:
-
calculating a plurality of correction factors, each correction factor relating to a position of at least a corresponding one among a set of physical objects; and
transmitting said plurality of correction factors in a predetermined order, without transmitting information related to identities of said physical objects;
wherein said correspondence of each among said plurality of correction factors with at least one among the set of physical objects is indicated at least in part by said predetermined order; wherein said calculating a plurality of correction factors comprises;
computing a reference position of each among the set of physical objects; and
computing a supplemental position of each among the set of physical objects, wherein each among said correction factors is based at least in part on a difference between said corresponding reference and supplemental positions. - View Dependent Claims (15, 16, 17, 18, 19)
wherein each among said reference positions is based at least in part on almanac information, and wherein each among said supplemental positions is based at least in part on ephemeris information. -
19. The method according to claim 18, wherein said almanac information is received from at least one space vehicle.
-
-
20. A method comprising:
-
calculating a plurality of correction factors, each correction factor relating to a position of at least a corresponding one among a set of physical objects determined by at least a difference between reference and supplemental positions of each among the set of physical objects;
transmitting said plurality of correction factors in a predetermined order;
wherein said correspondence of each among said plurality of correction factors with at least one among the set of physical objects is indicated at least in part by said predetermined order. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35)
wherein said predetermined order is determined at least in part by a relative order of the identification numbers of the space vehicles. -
30. The method according to claim 20, said method further comprising transmitting information relating to a time of validity of said plurality of correction factors.
-
31. The method according to claim 20, said method further comprising determining the existence of a potential ambiguity between at least two of said reference positions.
-
32. The method according to claim 31, wherein said potential ambiguity relates to a relation between elevation angles of at least two among the set of physical objects.
-
33. The method according to claim 31, wherein said potential ambiguity relates to a relation between an elevation mask angle and an elevation angle of at least one among the set of physical objects.
-
34. The method according to claim 20,
wherein each among maid reference positions is based at least in part on almanac information, and wherein each among said supplemental positions is based at least in part on ephemeris information. -
35. The method according to claim 34, wherein said almanac information is received from at least one space vehicle.
-
-
36. A method comprising:
-
calculating a plurality of correction factors, each relating to a respective one of a set of satellites; and
transmitting said plurality of correction factors in a predetermined order from a base station to a mobile station;
wherein said predetermined order is known to both said base station and said mobile station; and
wherein a correspondence of each correction factor with each satellite is indicated at least in pan by said predetermined order. - View Dependent Claims (37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51)
wherein said predetermined order is determined at least in part by a relative order of the identification numbers of the space vehicles. -
46. The method according to claim 36, said method further comprising transmitting information relating to a time of validity of said plurality of correction factors.
-
47. The method according to claim 36, said method further comprising determining the existence of a potential ambiguity between at least two of said reference positions.
-
48. The method according to claim 47, wherein said potential ambiguity relates to a relation between elevation angles of at least two among the set of physical objects.
-
49. The method according to claim 47, wherein said potential ambiguity relates to a relation between an elevation mask angle and an elevation angle of at least one among the set of physical objects.
-
50. The method according to claim 36,
wherein each among said reference positions is based at least in past on almanac information, and wherein each among said supplemental positions is based at least in part an ephemeris information. -
51. The method according to claim 50, wherein said almanac information is received from at least one space vehicle.
-
-
52. A system for transmitting a plurality of correction factors to a mobile station configured to receive said correction factors, and to associate said correction factors with particular satellite signals in dependence upon a predetermined order that said correction factors are received and to use said correction factors in a determination of a location of said mobile station, comprising:
-
a base station at a fixed location for receiving signals from a plurality of satellites;
a position determining entity associated with said base station, including;
a reference position calculator for calculating a reference position for each of said satellites from said signals;
a supplemental position calculator for calculating a supplemental position for each of said satellites from said signals;
a correction factor calculator for producing a respective plurality of correction factors for each of said satellites from said reference and supplemental positions;
sadmeans for arranging said correction factors in a predetermined order with respect to respective identities of said satellites; and
a transmitter associated with said base station for transmitting the plurality of correction factors. - View Dependent Claims (53, 54)
-
Specification