Burst communications method and apparatus
First Claim
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1. In a transmitter, a method of reducing received signal uncertainties at an intended receiver, the method comprising:
- determining a distance from the transmitter to the intended receiver without receiving a communication from the intended receiver;
determining a signal transit time from the distance;
determining a transmit offset time from the signal transit time; and
offsetting a transmission time by the transmit offset time to produce an offset transmission time.
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0 Petitions
Accused Products
Abstract
A transmitter (400) offsets the transmission time and frequency of a burst transmission such that uncertainties in reception time and reception frequency are reduced. The transmitter includes an ephemeris store (454) that includes ephemeris data for one or more possible intended receivers (130). Orbits of possible intended receivers are propagated, and an intended receiver is selected. Transmission time offsets are generated as a function of transmitter location and intended receiver location. Transmission frequency offsets are substantially equal to a Doppler frequency derived from the transmitter velocity and the intended receiver velocity. Guard times and guard bands are reduced in size, resulting in greater available communications bandwidth and simpler receiver designs.
26 Citations
14 Claims
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1. In a transmitter, a method of reducing received signal uncertainties at an intended receiver, the method comprising:
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determining a distance from the transmitter to the intended receiver without receiving a communication from the intended receiver;
determining a signal transit time from the distance;
determining a transmit offset time from the signal transit time; and
offsetting a transmission time by the transmit offset time to produce an offset transmission time. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
propagating ephemeris data of the intended receiver to determine a spatial location of the intended receiver at the transmission time;
determining a spatial location of the transmitter; and
determining the distance as a difference between the spatial location of the transmitter and the spatial location of the intended receiver.
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4. The method of claim 3 wherein the intended receiver is one of a plurality of satellites, the method further comprising prior to determining the distance, selecting the intended receiver from the plurality of satellites.
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5. The method of claim 1 further comprising:
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determining a relative velocity between the transmitter and the intended receiver;
determining a frequency offset from the relative velocity; and
offsetting a transmission frequency by the frequency offset.
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6. The method of claim 5 wherein the step of determining a relative velocity comprises determining a relative velocity between the transmitter and the intended receiver without receiving a communication from the intended receiver.
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7. The method of claim 1 further comprising:
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determining a relative velocity between the transmitter and the intended receiver;
determining a modulation rate offset from the relative velocity; and
offsetting a modulation rate by the modulation rate offset.
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8. The method of claim 7 wherein the step of determining a relative velocity comprises determining a relative velocity between the transmitter and the intended receiver without receiving a communication from the intended receiver.
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9. The method of claim 1 wherein a signal path exists between the transmitter and the intended receiver, the method further comprising:
further offsetting the transmission time as a function of total electron content (TEC) in the signal path.
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10. In a transmitter, a method of reducing arrival time uncertainties and arrival frequency uncertainties of a burst transmission at an intended receiver comprising:
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determining a time offset from a relative position determined without receiving a communication from the intended receiver;
offsetting a timing generator by the time offset, such that the burst transmission is offset in time by the time offset;
determining a Doppler frequency from a relative velocity without receiving a communication from the intended receiver; and
offsetting a synthesizer frequency by the Doppler frequency such that the burst transmission is offset in frequency by the Doppler frequency. - View Dependent Claims (11, 12, 13)
the burst transmission is scheduled for a future time;
determining the time offset includes storing the time offset for use at the future time; and
determining the Doppler frequency includes storing the Doppler frequency for use at the future time.
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12. The method of claim 10 wherein the intended receiver is one of a plurality of satellites, and the method further comprises selecting the intended receiver from the plurality of satellites.
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13. The method of claim 10 further comprising:
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determining a modulation rate offset from the relative velocity; and
configuring a timing generator to offset a modulation rate by the modulation rate offset.
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14. In a system including multiple burst transmitters and at least one receiver moving relative to the multiple burst transmitters, a method of controlling received signal characteristics comprising:
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providing each of the multiple burst transmitters with ephemeris data for the at least one receiver, the multiple burst transmitters being configured to propagate the ephemeris data and compute time offsets and frequency offsets without receiving a communication from the at least one receiver;
restricting guard times between expected burst transmissions; and
restricting frequency guard bands between expected burst transmissions.
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Specification
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Current AssigneeGeneral Dynamics C4 Systems Incorporated (General Dynamics Corporation)
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Original AssigneeGeneral Dynamics Decision Systems, Inc. (General Dynamics Corporation)
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InventorsWreschner, Kenneth Solomon, Clelland, Eric Jay
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Primary Examiner(s)Chin, Vivian
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Assistant Examiner(s)TRAN, TUAN A
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Application NumberUS09/464,975Time in Patent Office1,538 DaysField of Search455/456.1, 455/427, 455/13.1, 455/13.2, 455/12.1, 342/357-1-3US Class Current455/13.2CPC Class CodesH04B 7/2125 Synchronisation
