System and method for antenna training of beamforming vectors by selective use of beam level training
First Claim
1. A method of performing a beam discovery between a device and a plurality of other devices in a wireless network, the method comprising:
- performing a coarse level training comprising;
a) transmitting a sector training sequence via a transmit directional antenna, wherein either the transmit directional antenna or each of a plurality of receive directional antennas associated with the plurality of other devices is switched among a set of transmit sectors or among a set of receive sectors, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a first receive sector or a first transmit sector, respectively,b) transmitting the sector training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among the set of transmit sectors or among the set of receive sectors, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a next receive sector or a next transmit sector, respectively,c) repeating b) for a number of times equal to a total number of the transmit sectors in the transmit directional antenna or a maximum of a total number of the receive sectors among all the receive directional antennas, andd) receiving a feedback message indicative of an optimum transmit sector from each of the plurality of other devices, wherein the optimum transmit sector is selected based at least in part on link quality indicator (LQI) measurements performed with respect to the sector training sequences of a)-c);
performing a fine level training comprising;
e) transmitting a beam training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among a set of transmit beam directions within the optimum transmit sector or among a set of receive beam directions within an optimum receive sector, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a first receive beam direction or a first transmit beam direction, respectively,f) transmitting the beam training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among the set of transmit beam directions or among the set of receive beam directions, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a next receive beam direction or a next transmit beam direction, respectively,g) repeating f) for a number of times equal to either the total number of transmit beam directions within the optimum transmit sector or the maximum of the total number of receive beam directions within optimum receive sectors among all the other devices, andh) receiving a feedback message indicative of an optimum transmit beam direction from each of the other devices, wherein the transmit beam direction is selected based at least in part on LQI measurements performed with respect to the transmitted beam training sequences of e)-g); and
communicating data to at least one of the other devices via the transmit directional antenna tuned to the optimum transmit beam direction indicated by the feedback message received from the at least one device via at least one optimum receive beam direction.
1 Assignment
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Accused Products
Abstract
A system and method of performing a beam discovery between a device and a plurality of other devices in a wireless network is disclosed. Sector training sequences to a plurality of other devices are transmitted via a transmit directional antenna having a set of transmit sectors. A plurality of feedback messages are received from the plurality of other devices, where the plurality of feedback messages are indicative of optimum transmit sectors that have been determined at the other devices based at least in part on the sector training sequences. Beam training sequences are transmitted to the plurality of other devices via the transmit directional antenna. A plurality of feedback message indicative of optimum transmit beam directions within the optimum transmit sectors are received from the plurality of other devices.
138 Citations
51 Claims
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1. A method of performing a beam discovery between a device and a plurality of other devices in a wireless network, the method comprising:
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performing a coarse level training comprising; a) transmitting a sector training sequence via a transmit directional antenna, wherein either the transmit directional antenna or each of a plurality of receive directional antennas associated with the plurality of other devices is switched among a set of transmit sectors or among a set of receive sectors, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a first receive sector or a first transmit sector, respectively, b) transmitting the sector training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among the set of transmit sectors or among the set of receive sectors, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a next receive sector or a next transmit sector, respectively, c) repeating b) for a number of times equal to a total number of the transmit sectors in the transmit directional antenna or a maximum of a total number of the receive sectors among all the receive directional antennas, and d) receiving a feedback message indicative of an optimum transmit sector from each of the plurality of other devices, wherein the optimum transmit sector is selected based at least in part on link quality indicator (LQI) measurements performed with respect to the sector training sequences of a)-c); performing a fine level training comprising; e) transmitting a beam training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among a set of transmit beam directions within the optimum transmit sector or among a set of receive beam directions within an optimum receive sector, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a first receive beam direction or a first transmit beam direction, respectively, f) transmitting the beam training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among the set of transmit beam directions or among the set of receive beam directions, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a next receive beam direction or a next transmit beam direction, respectively, g) repeating f) for a number of times equal to either the total number of transmit beam directions within the optimum transmit sector or the maximum of the total number of receive beam directions within optimum receive sectors among all the other devices, and h) receiving a feedback message indicative of an optimum transmit beam direction from each of the other devices, wherein the transmit beam direction is selected based at least in part on LQI measurements performed with respect to the transmitted beam training sequences of e)-g); and communicating data to at least one of the other devices via the transmit directional antenna tuned to the optimum transmit beam direction indicated by the feedback message received from the at least one device via at least one optimum receive beam direction. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29)
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30. A method of performing a beam discovery between a device and a plurality of other devices in a wireless network, the method comprising:
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transmitting sector training sequences to a plurality of other devices via a transmit directional antenna, the transmit directional antenna having a set of transmit sectors; receiving a plurality of feedback messages from the plurality of other devices, wherein the plurality of feedback messages are indicative of optimum transmit sectors that have been determined at the other devices based at least in part on the sector training sequences; transmitting beam training sequences to the plurality of other devices via the transmit directional antenna; receiving a plurality of feedback messages from the plurality of other devices, wherein the plurality of feedback messages are indicative of optimum transmit beam directions within the optimum transmit sectors, the optimum transmit beam directions having been determined at the other devices based at least in part on the beam training sequences; and communicating data to at least one of the plurality of other devices via the transmit directional antenna tuned to at least one optimum transmit beam direction determined by the at least one device. - View Dependent Claims (31, 32, 33, 34, 35, 36, 37)
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38. A device in a wireless network, the device comprising:
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a transmit directional antenna having a set of transmit sectors; and a processor configured to; perform a coarse level training comprising; a) transmission of a sector training sequence via a transmit directional antenna, wherein either the transmit directional antenna or each of a plurality of receive directional antennas associated with a plurality of other devices is switched among a set of transmit sectors or among a set of receive sectors, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a first receive sector or a first transmit sector, respectively, b) transmission of the sector training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among the set of transmit sectors or among the set of receive sectors, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a next receive sector or a next transmit sector, respectively, c) repetition of b) for a number of times equal to a total number of the transmit sectors in the transmit directional antenna or a maximum of a total number of the receive sectors among all the receive directional antennas, and d) reception of a feedback message indicative of an optimum transmit sector from each of the plurality of other devices, wherein the optimum transmit sector is selected based at least in part on link quality indicator (LQI) measurements performed with respect to the sector training sequences of a)-c); perform a fine level training comprising; e) transmission of a beam training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among a set of transmit beam directions within the optimum transmit sector or among a set of receive beam directions within an optimum receive sector, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a first receive beam direction or a first transmit beam direction, respectively, f) transmission of the beam training sequence via the transmit directional antenna, wherein either the transmit directional antenna or each of the plurality of receive directional antennas is switched among the set of transmit beam directions or among the set of receive beam directions, respectively, while either each of the plurality of receive directional antennas or the transmit directional antenna is fixed to a next receive beam direction or a next transmit beam direction, respectively, g) repetition of f) for a number of times equal to either the total number of transmit beam directions within the optimum transmit sector or the maximum of the total number of receive beam directions within optimum receive sectors among all the other devices, and h) reception of a feedback message indicative of an optimum transmit beam direction from each of the other devices, wherein the transmit beam direction is selected based at least in part on LQI measurements performed with respect to the transmitted beam training sequences of e)-g); and communicate data to at least one of the other devices via the transmit directional antenna tuned to the optimum transmit beam direction indicated by the feedback message received from the at least one device. - View Dependent Claims (39, 40, 41)
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42. A device in a wireless network, the device comprising:
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a transmit directional antenna; and a processor configured to; transmit sector training sequences to a plurality of other devices via the transmit directional antenna; receive a plurality of feedback messages from the plurality of other devices, wherein the plurality of feedback messages are indicative of optimum transmit sectors that have been determined at the other devices based at least in part on the sector training sequences; transmit beam training sequences to the plurality of other devices via the transmit direction antenna; receive a plurality of feedback messages from the plurality of other devices, wherein the plurality of feedback messages are indicative of optimum transmit beam directions within the optimum transmit sectors, the optimum transmit beam directions having been determined at the other devices based at least in part on the beam training sequences; and communicate data to at least one of the plurality of other devices via the transmit directional antenna tuned to at least one optimum transmit beam direction determined by the at least one device. - View Dependent Claims (43, 44, 45, 46, 47)
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48. A method of performing a beam discovery between a device and a plurality of other devices in a wireless network, the method comprising:
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receiving sector training sequences configured for a sector level training of the plurality of other devices via a receive directional antenna associated with one of the plurality of other devices, wherein; a portion of the sector training sequences is received during a beacon period of a superframe, and a remaining portion of the sector training sequences is received during a contention free period (CFP) of the same superframe; transmitting a feedback message indicative of an optimum transmit sector during the CFP of the same superframe, the optimum transmit sector having been determined at the one of the plurality of other devices based at least in part on link quality indicator (LQI) measurements performed on the sector training sequences; receiving beam training sequences configured for a beam level training of the plurality of other devices during the CFP of the same superframe; transmitting a feedback message indicative of an optimum transmit beam direction within the optimum transmit sector during the CFP of the same superframe, the optimum transmit beam direction having been determined at the one of the plurality of other devices based at least in part on LQI measurements performed on the beam training sequences; and receiving data from the device via the receive directional antenna tuned to at least one optimum receive beam direction, the optimum receive beam direction having been determined at the one of the plurality of other devices based at least in part on LQI measurements performed on the beam training sequences. - View Dependent Claims (49)
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50. A device in a wireless network, the device comprising:
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a receive directional antenna; and a processor configured to; receive sector training sequences configured for a course level training of a plurality of devices, wherein; a portion of the sector training sequences is received during a beacon period of a superframe, and a remaining portion of the sector training sequences is received during a contention free period (CFP) of the same superframe; transmit a feedback message indicative of an optimum transmit sector during the CFP of the same superframe, the optimum transmit sector having been determined based at least in part on link quality indicator (LQI) measurements performed on the sector training sequences; receive beam training sequences configured for a fine level training of the plurality of devices during the CFP of the same superframe; transmit a feedback message indicative of an optimum transmit beam direction within the optimum transmit sector during the CFP of the same superframe, the optimum transmit beam direction having been determined based at least in part on LQI measurements performed on the beam training sequences; and receive data transmission via the receive directional antenna tuned to at least one optimum receive beam direction, the optimum receive beam direction having been determined based at least in part on LQI measurements performed on the beam training sequences. - View Dependent Claims (51)
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Specification