Satellite diversity system, apparatus and method
First Claim
1. ground station configured for operation in a satellite diversity system including:
- a plurality of satellites including a first satellite from the plurality of satellites configured to provide a first beam as a primary beam, supporting a first region, and a second beam supporting a third region simultaneously substantially overlapping a second region;
a second satellite from the plurality of satellites configured to provide a first beam as a secondary beam supporting the second region, and a second beam supporting a fourth region simultaneously substantially overlapping the first region;
the ground station configured to;
transmit a forward link traffic signal to the first region via the first satellite during a period of time when a communication path through the first satellite is not degraded;
transmit the forward link traffic signal to the first region via the second satellite during the period of time that the communication path through the first satellite is degraded;
receive signal metrics relating to the forward link traffic signal from a device and determine based at least in part on the signal metrics whether the communication path through first satellite is degraded;
direct the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites;
receive at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and
combine the first and second reverse link signals.
1 Assignment
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Accused Products
Abstract
Communication diversity using a plurality of satellites is disclosed. The satellites can support multiple regions corresponding to multiple satellite beams. Each satellite can support all regions in the reverse direction and each satellite can be designated as a primary satellite for one of the multiple regions corresponding to one of the multiple satellite beams. Each satellite can receive from any of the regions reverse link signals broadcast by, for example, a mobile station. Each satellite can communicate the received reverse link signals to, for example, a base station or gateway where the signals can be combined to increase signal quality. A mobile station receives forward link signals from the primary satellite and monitors a signal quality from the primary satellite and from a secondary satellite. If the signal quality from the primary satellite drops below a threshold value, the communication signal is transferred to the secondary satellite.
9 Citations
27 Claims
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1. ground station configured for operation in a satellite diversity system including:
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a plurality of satellites including a first satellite from the plurality of satellites configured to provide a first beam as a primary beam, supporting a first region, and a second beam supporting a third region simultaneously substantially overlapping a second region; a second satellite from the plurality of satellites configured to provide a first beam as a secondary beam supporting the second region, and a second beam supporting a fourth region simultaneously substantially overlapping the first region; the ground station configured to; transmit a forward link traffic signal to the first region via the first satellite during a period of time when a communication path through the first satellite is not degraded; transmit the forward link traffic signal to the first region via the second satellite during the period of time that the communication path through the first satellite is degraded; receive signal metrics relating to the forward link traffic signal from a device and determine based at least in part on the signal metrics whether the communication path through first satellite is degraded; direct the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites; receive at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and combine the first and second reverse link signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. The system of clam 8, wherein the first and second overhead signals comprise, respectively, first and second pilot signals.
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10. A satellite diversity system comprising:
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a forward link transceiver within a satellite, configured to receive a first forward link signal from a ground station and transmit the first forward link signal in a first satellite beam corresponding to a first region for which the satellite is designated from a plurality of satellites as a primary satellite, and farther configured to receive a second forward link signal from the ground station and transmit the second forward link signal in a second satellite beam corresponding to a second region for which the satellite is designated from the plurality of satellites as a secondary satellite, the second region simultaneously substantially overlapping a region for which another satellite is designated to provide primary support; and a reverse link transceiver within the satellite configured to receive reverse link signals associated with the first and second forward link signals from at least the first and second regions, and configured to transmit the reverse link signals to the ground station; wherein the satellite is designated as a primary satellite in response to one or more signal metrics relating to the forward link signal sent from a device within the first region to the ground station, and wherein the satellite is designated as a primary satellite based at least in part on the signal metrics received by the ground station from the device; and wherein the ground station is configured to direct the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites;
receive at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and
combine the first and second reverse link signals. - View Dependent Claims (11, 12)
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13. A satellite diversity system comprising:
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a gateway transceiver configured to selectively transmit a forward link signal to one or both of a first satellite and a second satellite from a plurality of satellites and further configured to receive signal metrics relating to the forward link signal from a device;
direct the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites;
receive at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and
combine the first and second reverse link signals;a quality of service module coupled to the gateway transceiver and configured to determine if a communication path through the first satellite is degraded, based at least, in part on the signal metrics; and a link control module coupled to the quality of service module and configured to control the gateway transceiver to transmit the forward link signal to the first satellite to be relayed to the device if the communication path through the first satellite is not degraded, and configured to control the gateway transceiver to transmit the forward link signal to the second satellite to be relayed to the device if the communication path through the first satellite is degraded. - View Dependent Claims (14, 15, 16, 17)
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18. A ground station configured to operate in a satellite diversity system including a first satellite from a plurality of satellites having a first beam providing coverage for a first region and a second beam providing coverage for a second region, the first satellite configured as a primary satellite for the first region and a secondary satellite for the second region;
- a second satellite from the plurality of satellites having a first beam providing coverage for a third region that simultaneously substantially overlaps the first region and a second beam providing coverage for a fourth region that substantially overlaps the second region, the second satellite configured as a primary satellite for the fourth region and a secondary satellite for the third region;
the ground station configured to; transmit a first forward link traffic signal to a first device in an overlapping portion of the first and third regions via the first satellite when a signal metric relating to the first forward traffic link signal reported by the first device is greater than a predetermined threshold; transmit the first forward link traffic signal to the first device via the second satellite when the signal metric is not greater than the predetermined threshold; direct the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites; receive at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and combine the first and second reverse link signals.
- a second satellite from the plurality of satellites having a first beam providing coverage for a third region that simultaneously substantially overlaps the first region and a second beam providing coverage for a fourth region that substantially overlaps the second region, the second satellite configured as a primary satellite for the fourth region and a secondary satellite for the third region;
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19. A method of providing satellite diversity, the method comprising:
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illuminating a first geographic region using a first beam of a plurality of beams from a first satellite of a plurality of satellites; simultaneously illuminating a second geographic region substantially overlapping the first geographic region using a first beam of a plurality of beams from a second satellite of the plurality of satellites; transmitting a forward link traffic signal to a device positioned in a first geographic region using the first beam of the first satellite; determining if a communication link from the first satellite to the device is degraded by receiving signal metrics relating to the forward link traffic signal from the device comparing at least one of the signal metrics to a predetermined threshold; determining the communication link is degraded if the at least one of the signal metrics does not exceed the predetermined threshold; transmitting the forward link traffic signal to the device using the first beam of the second satellite if the communication link from the first satellite is degraded; directing the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites; receiving at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and combining the first and second reverse link signals. - View Dependent Claims (20, 21, 22, 23, 24, 25)
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26. A satellite diversity system comprising:
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means for transmitting a forward link traffic signal to a device positioned in a first geographic region using a first satellite from a plurality of satellites; means for receiving signal metrics relating to the forward link traffic signal from the device; means for comparing at least one of the signal metrics to a predetermined threshold;
means for selecting an alternative signal path if the at least one signal metric is not greater than the predetermined threshold;means for transmitting the signal to the device using a second satellite from the plurality of satellites which simultaneously supports a region substantially overlapping the first geographic region if the alternative signal path is selected; means for directing the device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites; means for receiving at least a first reverse link signal from the first satellite and a second reverse link signal from the second satellite; and means for combining the first and second reverse link signals.
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27. A ground station employing code division multiple access (CDMA) configured for operation in a satellite diversity system including:
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a plurality of satellites including; a first satellite configured to simultaneously serve as a primary satellite for a first designated region and a secondary satellite for a second designated region, the first designated region being entirely distinct from the second designated region; and a second satellite configured to simultaneously serve as a primary satellite for the second designated region and a secondary satellite for the first designated region; the ground station configured to; transmit a forward link traffic signal to the first designated region via the first satellite during a period of time when a communication path through the first satellite is not degraded; transmit the forward link traffic signal to the first designated region via the second satellite during the period of time that the communication path through the first satellite is degraded; receive signal metrics relating to the forward link traffic signal from a device and determine based at least in part on the signal metrics whether the communication path through first satellite is degraded; direct a device to vary transmit power to maintain a reverse link signal with at least the first satellite and the second satellite from the plurality of satellites; and receive a first reverse link signal from the first satellite and a second reverse link signal from the second satellite, and configured to combine the first and second reverse link signals.
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Specification