Method and apparatus for optimizing the usage of an antenna array beamforming technique
First Claim
1. In a wireless telecommunication system that includes a communication device, which communication device comprises an antenna array that comprises a plurality of antennas, a method for determining whether to employ an antenna array beamforming technique and thereby optimizing a usage of the antenna array beamforming technique, the method comprising steps of:
- determining a location of a communication unit;
determining a location of the communication device;
determining a distance between the location of the communication unit and the location of the communication device;
comparing the determined distance to a predetermined distance threshold; and
determining whether to employ an antenna array beamforming technique based on the comparison of the determined distance to a predetermined distance threshold.
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Accused Products
Abstract
In a communication device that includes an antenna array including multiple antennas, a method and apparatus is provided for optimizing the usage of an antenna array beamforming technique. The communication device determines a bearing from the communication device to the communication unit and a direction of arrival for a signal received from the communication unit by the communication device via each of the multiple antennas. In addition, the communication device determines a distance from the communication device to the communication unit, and also determines multiple signal quality metrics based on multiple signals received by the communication device from the communication unit. The communication device then determines whether to employ an antenna array beamforming technique based on any one or more of the determined bearing and the determined direction of arrival, the determined distance, or the determined signal quality metrics, thereby optimizing the usage of the antenna array beamforming technique.
41 Citations
20 Claims
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1. In a wireless telecommunication system that includes a communication device, which communication device comprises an antenna array that comprises a plurality of antennas, a method for determining whether to employ an antenna array beamforming technique and thereby optimizing a usage of the antenna array beamforming technique, the method comprising steps of:
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determining a location of a communication unit;
determining a location of the communication device;
determining a distance between the location of the communication unit and the location of the communication device;
comparing the determined distance to a predetermined distance threshold; and
determining whether to employ an antenna array beamforming technique based on the comparison of the determined distance to a predetermined distance threshold. - View Dependent Claims (2)
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3. In a wireless telecommunication system that includes a communication device, which communication device comprises an antenna array that comprises a plurality of antennas, a method for determining whether to employ an antenna array beamforming technique and thereby optimizing a usage of the antenna array beamforming technique, the method comprising steps of:
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determining a bearing from the communication device to a location of a communication unit;
receiving a signal from the communication unit via a first antenna of the plurality of antennas to produce a first received signal;
receiving the signal from the communication unit via a second antenna of the plurality of antennas to produce a second received signal;
determining a direction of arrival of the signal based on the first received signal and the second received signal;
comparing the location of the communication unit to the direction of arrival of the signal;
determining a difference between the bearing and the direction of arrival based on the comparison; and
determining whether to employ an antenna array beamforming technique based on the determined difference. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
determining a time of arrival of the first received signal;
determining a time of arrival of the second received signal; and
determining a direction of arrival of the signal based on the time of arrival of the first received signal and the time of arrival of the second received signal.
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6. The method of claim 3, wherein the step of determining direction of arrival of the signal comprises steps of:
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determining a phase of the first received signal;
determining a phase of the second received signal; and
determining a direction of arrival of the signal based on the phase of the first received signal and the phase of the second received signal.
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7. The method of claim 3, wherein the step of comparing the location of the communication unit to the direction of arrival of the signal comprises steps of:
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determining a first vector based on the bearing;
determining a second vector based on the direction of arrival; and
comparing the first vector to the second vector.
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8. The method of claim 7, wherein the step of determining a difference between the bearing and the direction of arrival comprises a step of determining an angular difference between the first vector and the second vector.
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9. The method of claim 8, further comprising a step of comparing the angular difference to a predetermined angular threshold, and wherein the step of determining whether to employ an antenna array beamforming technique comprises a step of determining whether to employ an antenna array beamforming technique based on the comparison of the angular difference to the predetermined angular threshold.
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10. The method of claim 3, further comprising steps of:
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determining a location of the communication device;
determining a distance between the communication unit and the communication device;
comparing the determined distance to a predetermined distance threshold; and
wherein the step of determining whether to employ an antenna array beamforming technique comprises a step of determining whether to employ an antenna array beamforming technique based on the determined difference between the bearing and the direction of arrival and on the comparison of the determined distance to the predetermined distance threshold.
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11. The method of claim 10, wherein the base site receives a plurality of signals from the communication unit and wherein the method further comprises steps of:
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receiving a first signal of the plurality of signals from the communication unit;
determining a first signal quality metric based on the first signal;
receiving a second signal of the plurality of signals from the communication unit;
determining a second signal quality metric based on the second signal;
comparing the first signal quality metric to the second signal quality metric to produce a signal quality metric rate of change; and
wherein the step of determining whether to employ an antenna array beamforming technique comprises a step of determining whether to employ an antenna array beamforming technique based on the determined difference between the bearing and the direction of arrival, on the comparison of the determined distance to the predetermined distance threshold, and on the signal quality metric rate of change.
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12. The method of claim 11, further comprising steps of:
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comparing the determined difference between the bearing and the direction of arrival to a predetermined difference threshold;
comparing the signal quality metric rate of change to a predetermined signal quality metric rate of change threshold; and
wherein the step of determining whether to employ antenna array beamforming technique comprises steps of determining not to employ an antenna array beamforming technique when the determined difference is greater than the predetermined difference threshold, the determined distance is less than the predetermined distance threshold, or the signal quality metric rate of change is greater than the predetermined signal quality metric rate of change threshold, and determining to employ an antenna array beamforming technique when the determined difference is less than the predetermined difference threshold, when the determined distance is greater than the predetermined distance threshold, and when the signal quality metric rate of change is less than the predetermined signal quality metric rate of change threshold.
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13. The method of claim 3, wherein the base site receives a plurality of signals from the communication unit and wherein the method further comprises steps of:
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receiving a first signal of the plurality of signals from the communication unit;
determining a first signal quality metric based on the first signal;
receiving a second signal of the plurality of signals from the communication unit;
determining a second signal quality metric based on the second signal;
comparing the first signal quality metric to the second signal quality metric; and
wherein the step of determining whether to employ an antenna array beamforming technique comprises a step of determining whether to employ an antenna array beamforming technique based on the determined difference between the bearing and the direction of arrival and on the comparison of the first signal quality metric to the second signal quality metric.
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14. The method of claim 13, further comprising steps of:
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determining a signal quality metric rate of change based on the comparison of the first signal quality metric to the second signal quality metric;
comparing the signal quality metric rate of change to a predetermined signal quality metric rate of change threshold; and
wherein the step of determining whether to employ an antenna array beamforming technique comprises a step of determining whether to employ an antenna array beamforming technique based on the determined difference between the bearing and the direction of arrival and on the comparison of the signal quality metric rate of change to the predetermined signal quality metric rate of change threshold.
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15. In a base site comprising an antenna array, which antenna array comprises a plurality of antennas and which base site employs an antenna array beamforming technique, a method for determining whether to employ an antenna array beamforming technique and thereby optimizing a usage of the antenna array beamforming technique, the method comprising steps of:
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receiving a first signal from a communication unit;
determining a first signal quality metric based on the first signal;
receiving a second signal from the communication unit;
determining a second signal quality metric based on the second signal;
comparing the first signal quality metric to the second signal quality metric; and
determining whether to employ an antenna array beamforming technique based on the comparison of the first signal quality metric to the second signal quality metric. - View Dependent Claims (16)
determining a signal quality metric rate of change based on the comparison of the first signal quality metric to the second signal quality metric;
comparing the signal quality metric rate of change to a predetermined signal quality metric rate of change threshold; and
wherein the step of determining whether to employ an antenna array beamforming technique comprises a step of determining whether to employ an antenna array beamforming technique based on the comparison of the signal quality metric rate of change to the predetermined signal quality metric rate of change threshold.
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17. An apparatus comprising a communication device that includes:
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an antenna array having a first antenna that receives a signal from a communication unit to produce a first received signal and a second antenna that receives the signal from the communication unit to produce a second received signal;
a processor coupled to the antenna array that determines a geographical location of the communication unit, determines a bearing from the communication device to the geographical location of the communication unit, determines a time of arrival of the first received signal, determines a time of arrival of the second received signal, determines a direction of arrival of the signal from the communication unit based on the time of arrival of each of the first and second received signals, compares the bearing to the direction of arrival, determines a difference between the bearing and the direction of arrival based on the comparison, compares the determined difference to a predetermined difference threshold, and optimizes a usage of an antenna array beamforming technique by determining whether to employ the antenna array beamforming technique based on the comparison of the determined difference to the predetermined difference threshold; and
a memory coupled to the processor that stores the determined location of the communication device, the predetermined difference threshold, and a direction of arrival algorithm. - View Dependent Claims (18, 19, 20)
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Specification