Precise absolute time transfer from a satellite system
First Claim
1. A method of performing navigation in attenuated or jammed environments, the method comprising:
- detecting a frame structure of a first signal received from a first satellite;
aligning a clock of a receiver unit to the detected frame structure;
generating a set of time estimates respectively separated according to the frame structure, wherein at least one of a predetermined number of the time estimates is aligned to a second signal of a second satellite, wherein the set of generated time estimates is bounded by the predetermined number;
providing the time estimates to system correlators of the receiver unit;
aligning the system correlators according to the time estimates;
identifying the at least one of the time estimates that is aligned to the second signal of the second satellite, wherein the at least one of the time estimates provides aiding information to the receiver unit; and
using the at least one time estimate to detect the second signal of the second satellite.
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Accused Products
Abstract
Systems and methods according to one or more embodiments are provided for obtaining a precise absolute time using a satellite system. The precise absolute time may be used, for example, as an aid for positioning systems including navigation in attenuated or jammed environments. A method of obtaining precise absolute time transfer from a satellite according to an embodiment comprises: receiving a precision time signal from a satellite, wherein the precision time signal comprises a periodic repeating code; determining a timing phase of the code; receiving additional aiding information; and using the timing phase and the additional aiding information to determine a precise absolute time.
48 Citations
20 Claims
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1. A method of performing navigation in attenuated or jammed environments, the method comprising:
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detecting a frame structure of a first signal received from a first satellite; aligning a clock of a receiver unit to the detected frame structure; generating a set of time estimates respectively separated according to the frame structure, wherein at least one of a predetermined number of the time estimates is aligned to a second signal of a second satellite, wherein the set of generated time estimates is bounded by the predetermined number; providing the time estimates to system correlators of the receiver unit; aligning the system correlators according to the time estimates; identifying the at least one of the time estimates that is aligned to the second signal of the second satellite, wherein the at least one of the time estimates provides aiding information to the receiver unit; and using the at least one time estimate to detect the second signal of the second satellite. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A receiver unit adapted for use in attenuated or jammed environments comprising:
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an antenna adapted to receive a first signal from a first satellite and to receive a second signal from a second satellite; a processor; and a memory adapted to store a plurality of computer readable instructions which when executed by the processor are adapted to cause the receiver unit to; detect a frame structure of the first signal of the first satellite; align a clock of the receiver unit to the detected frame structure; generate a set of time estimates respectively separated according the frame structure, wherein at least one of a predetermined number of the time estimates is aligned to the second signal of the second satellite, wherein the set of generated time estimates is bounded by the predetermined number; align system correlators according to the time estimates; identify the at least one of the time estimates that is aligned to the second signal of the second satellite, wherein the at least one of the time estimates provides aiding information to the receiver unit; and use the at least one time estimate to detect the second signal of the second satellite. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification