Method and apparatus for controlling communication beams within a cellular communication system
First Claim
Patent Images
1. A method for digital beamforming in a cellular communication system comprising:
- projecting a plurality of beamlets from a satellite of the cellular communication system;
combining a first set of the plurality of beamlets to form a single traffic beam that covers a geographical area having multiple communication devices communicating within the single traffic beam with the cellular communication system, the multiple communication devices within the single traffic beam are considered a first user group;
evaluating modem feedback of the satellite that is related to a signal-to-interference+noise ratio (SINR) of a signal received by the satellite from one or more of the multiple communication devices, wherein the one or more signals are received within the single traffic beam provided by the satellite;
adapting weighting coefficients applied to the first set of beamlets based upon the modem feedback of the satellite;
reviewing the weighting coefficients to determine whether, based on a change in user distribution over time, a second user group would result in improved quality of service for the multiple communication devices currently communicating within the single traffic beam; and
if the change would result in the improved quality of service, regrouping the communication devices into the first user group and the second user group, and handing off the communication devices to traffic beams associated with the first user group and the second user group.
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Accused Products
Abstract
A beam control subsystem (200, FIG. 2) provides acquisition, synchronization, and traffic beams (142, FIG. 1) to communication devices (130) within a footprint (144) of a system node (110), where each beam comprises a set of beamlets (140). The subsystem (200, FIG. 2) first acquires (302, FIG. 3) and synchronizes (304, FIG. 3 and FIG. 6) with each communication device. Acquisition involves selecting (402, 416, FIG. 4) and combining (404) sets of beamlets (506, 510, FIG. 5), and determining whether any devices within the sets are attempting to acquire the system. If so, synchronization is performed by varying (604, FIG. 6) beamlet weighting coefficients to find, based on modem feedback, a combination of coefficients that yields a maximum signal-to-interference+noise ratio for multiple users within a beam. The communication device is then handed off (612, 614) to a traffic beam. The subsystem (200) continues, based on modem feedback, to adapt (802, 804, FIG. 8) beamlet weighting coefficients in order to track the traffic beam in a manner that provides the maximum SINR.
45 Citations
12 Claims
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1. A method for digital beamforming in a cellular communication system comprising:
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projecting a plurality of beamlets from a satellite of the cellular communication system;
combining a first set of the plurality of beamlets to form a single traffic beam that covers a geographical area having multiple communication devices communicating within the single traffic beam with the cellular communication system, the multiple communication devices within the single traffic beam are considered a first user group;
evaluating modem feedback of the satellite that is related to a signal-to-interference+noise ratio (SINR) of a signal received by the satellite from one or more of the multiple communication devices, wherein the one or more signals are received within the single traffic beam provided by the satellite;
adapting weighting coefficients applied to the first set of beamlets based upon the modem feedback of the satellite;
reviewing the weighting coefficients to determine whether, based on a change in user distribution over time, a second user group would result in improved quality of service for the multiple communication devices currently communicating within the single traffic beam; and
if the change would result in the improved quality of service, regrouping the communication devices into the first user group and the second user group, and handing off the communication devices to traffic beams associated with the first user group and the second user group.
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2. A method for digital beamforming in a cellular communication system comprising:
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projecting a plurality of beamlets from a satellite of the cellular communication system;
combining a first set of the plurality of beamlets to form a single traffic beam that covers a geographical area having a communication device communicating with the cellular communication system;
evaluating modem feedback of the satellite that is related to a signal-to-interference+noise ratio (SINR) of signal received by the satellite from one or more communication devices, wherein the one or more signals are received within the single traffic beam provided by the satellite;
adapting weighting coefficients applied to the first set of beamlets based upon the modem feedback of the satellite;
prior to providing the single traffic beam to one of the one or more communication devices, providing a synchronization beam toward the one communication device, wherein the synchronization beam is formed from a second set of beamlets;
varying the weighting coefficients of the second set of beamlets to find a combination of weighting coefficients that results in a maximum SINR for the one communication device;
determining a location of the one communication device from the combination; and
handing off the one communication device to a traffic beam that covers the location. - View Dependent Claims (3, 4)
determining, based on the location, if a currently active beam can provide a communication channel to the one communication device;
if the currently-active beam can provide the communication channel, handing off the one communication device to the currently-active beam; and
if no currently active beam can provide the communication channel, forming a new traffic beam and handing the one communication device off to the new traffic beam.
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4. The method as claimed in claim 2, further including an acquisition process comprising:
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prior to the synchronization process for the one communication device, providing an acquisition beam within a field of view of the satellite, wherein the acquisition beam is formed from a third set of beamlets;
demodulating a signal received within the acquisition beam;
determining, from the signal, whether a communication device located within an area covered by the acquisition beam is attempting to acquire the cellular communication system;
if a communication device is attempting to acquire, executing the synchronization process for that communication device;
forming the acquisition beam from another set of beamlets; and
repeating the acquisition process to identify other communication devices attempting to acquire the cellular communication system.
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5. A method for digital beamforming in a cellular communication system comprising:
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providing a plurality of beamlets from a satellite of the cellular communication system;
combining a first set of the plurality of beamlets to form an acquisition beam within a field of view of the satellite;
demodulating a signal received with the acquisition beam;
determining, from the signal, whether a communication device located within an area covered by the acquisition beam is attempting to acquire the cellular communication system;
if a communication device is attempting to acquire, entering a synchronization mode for that communication device, wherein the synchronization mode synchronizes with the communication device based on modern feedback;
reforming the acquisition beam from another set of beamlets; and
repeating the demodulating, determining, entering, reforming, and repeating to identify other communication devices attempting to acquire the cellular communication system. - View Dependent Claims (6, 7, 8, 9, 10, 11)
providing a synchronization beam toward the communication device, wherein the synchronization beam is formed from a second set of beamlets;
varying weighting coefficients applied to the second set of beamlets to find a combination of weighting coefficients that results in a maximum signal-to-interference+noise ratio (SINR) for the communication device, wherein the maximum SINR is determined from the modem feedback;
determining a location of the communication device from the combination; and
handing off the communication device to a traffic beam that covers the location.
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7. The method as claimed in claim 6, wherein handing off the communication device comprises:
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determining, based on the location, if a currently active beam can provide a communication channel to the communication device;
if the currently-active beam can provide the communication channel, handing off the communication device to the currently-active beam; and
if no currently active beam can provide the communication channel, forming a new traffic beam and handing the communication device off to the new traffic beam.
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8. The method as claimed in claim 6, further comprising
receiving additional modem feedback that is related to the SINR of the signal, wherein the signal is received within the traffic beam and the traffic beam is formed from a third set of beamlets; - and
adapting, based on the additional modem feedback, the weighting coefficients applied to the third set of beamlets.
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9. The method as claimed in claim 8, wherein adapting comprises adapting the weighting coefficients applied to the third set of beamlets in order to maximize the SINR of the signal.
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10. The method as claimed in claim 8, further comprises adapting the weighing coefficients based on a velocity vector of the satellite.
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11. The method as claimed in claim 8, further comprising:
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reviewing the weighting coefficients to determine whether the communication device is diverging from other communication devices communicating within the traffic beam; and
if the communication device is diverging, handing off the communication device to another traffic beam.
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12. An apparatus for digital beamforming in a cellular communication system comprising:
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an antenna subsystem that is configured to project one or more traffic beams toward one or more communication devices;
a beamlet former, coupled to the antenna subsystem, that is configured to provide a plurality of beamlets for formation of the one or more traffic beams;
a beamlet selection switch configured to activate a first set of the plurality of beamlets for formation of a single traffic beam of the one or more traffic beams;
a beamlet combiner that applies weighting coefficients to the first set of the plurality of beamlets;
a modem for demodulating signals received from the communication devices; and
a control computer that receives feedback from the modem, and that controls the beamlet combiner based on the feedback.
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Specification
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Current AssigneeCDC Propriete Intellectuelle
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Original AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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InventorsGross, Jonathan Henry, Hogberg, Shawn, Startup, James William, Peters, Robert Anthony
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Primary Examiner(s)Chin, Vivian
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Assistant Examiner(s)Lee, John J
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Application NumberUS09/447,313Time in Patent Office1,254 DaysField of Search455/13.1, 455/12.1, 455/11.1, 455/13.3, 455/13.4, 455/19, 455/21, 455/13.2, 455/276.1, 455/277.1, 455/277.2, 455/278.1, 455/279.1, 455/562, 455/22, 455/23, 455/24, 455/25, 455/501, 342/371, 342/373, 342/372, 375/347, 375/349US Class Current455/12.1CPC Class CodesH04B 7/18532 Arrangements for managing t...
