Magnolia Broadband Inc. Patent applications |
Patent application number | Title | Published |
20150237510 | MICRO-STEERING BEAMS IN MULTI-BEAM COMMUNICATIONS SYSTEMS - A system and method may provide minor pattern adjustment to a fixed beam system using signal coupling. When equipment is found to be operating in adjacent overlapping beams the beams may be adjusted in terms of amplitude and/or phase in order to provide improved signal quality to supported UEs. This may include constructively combining signals from adjacent beams for a supported UE or destructively combining signals from adjacent beams for a non-supported UE in order to improve the SINR for a supported UE. | 08-20-2015 |
20150163004 | MULTIPLE CO-LOCATED MULTI-USER-MIMO ACCESS POINTS - A wireless communication system may include a plurality of N co-located Wi-Fi access points, each configured to communicate with at least one user equipment. The system may further include a beamformer coupled to each of the access points and coupled to at least one antenna array. The antenna array may include a plurality of antenna elements and may be configured to provide a plurality of M spatially uncorrelated beams for a coverage area of each of the N access points. | 06-11-2015 |
20150131752 | WI-FI RADIO DISTRIBUTION NETWORK STATIONS AND METHOD OF OPERATING WI-FI RDN STATIONS - A Wi-Fi radio distribution network (RDN) station is provided for use in a wireless communications network comprising a plurality of wireless stations. The Wi-Fi RDN station comprises a multiple-input-multiple-output (MIMO) receiving system configured to operate in accordance with a channel estimation MIMO receiving scheme; and a RDN connected to the MIMO receiving system. The RDN comprises at least one beamformer arranged to be fed by two or more antennas, wherein each of the beamformers includes a combiner configured to combine signals coming from a plurality of antennas associated with the respective beamformer into a single signal. The MIMO receiving system is configured to perform one or both of channel estimation using a single antenna or beamforming. Both channel estimation and beamforming may be based on one or more packets addressed to one or more wireless stations in the communications network other than the Wi-Fi RDN station. | 05-14-2015 |
20150071186 | SYSTEM AND METHOD FOR COOPERATIVE SCHEDULING FOR CO-LOCATED ACCESS POINTS - Systems and methods of scheduling data for transmission from an access point “AP” to a station in a system of multiple co-located APs may include determining whether the station is also able to receive transmitted data from another of the multiple co-located APs. If the determining is negative the data is transmitted but if the determination is positive, the data may be transmitted only after ascertaining that exclusive permission to transmit the data to the station has been granted to the AP. | 03-12-2015 |
20150049680 | SYSTEM AND METHOD FOR CO-LOCATED AND CO-CHANNEL WI-FI ACCESS POINTS - A wireless communication system may include a plurality of co-located transceivers. The plurality of transceivers may be configured to transmit data to at least one user equipment, according to a collision sense multiple access/collision avoidance (CSMA/CA) protocol. A processor may receive a signal preamble and a sender address of the signal preamble and determine whether the sender address is included in the stored list of addresses. If the sender address is included in the stored list of addresses, the processor may allow simultaneous data transmission from two or more of the co-located transceivers. | 02-19-2015 |
20140334312 | METHOD AND SYSTEM FOR DIGITAL CANCELLATION SCHEME WITH MULTI-BEAM - A method and system may include a plurality of collocated access points (APs), each coupled to, and operating independently with, a respective set of antennas, wherein the antennas are directional and oriented to create beams that cover different directions, for dividing a coverage of the APs into a plurality of subsectors, wherein the antennas further comprise transmit antennas and receive antennas separated from each other, wherein the APs operate with a limited number of channels, wherein two or more of the subsectors share a common channel, wherein the APs are configured to initiate a transmission by employing collision sense multiple access/collision avoidance (CSMA/CA), wherein the antennas are configured to enable simultaneous operation of each of the subsectors without impairing operation of the others, and wherein a radio frequency (RF) energy reception between the transmit antennas and the receive antennas is configured to prevent independent subsector operation because of the CSMA/CA. | 11-13-2014 |
20140313986 | DEVELOPING TRANSMISSION GAPS FOR CALIBRATION PROCESSING - A plurality of co-located beamforming transceivers may transmit data to at least one user equipment according to a collision sense multiple access/collision avoidance (CSMA/CA) protocol. The plurality may include a first and a second beamforming transceiver. The first beamforming transceiver may request a calibration signal from the second beamforming transceiver. A processor or transceiver may identify a transmission gap between the user equipment and the plurality of beamforming transceivers. The second beamforming transceiver may transmit a calibration signal during the transmission gap to the first beamforming transceiver. | 10-23-2014 |
20140247820 | METHOD AND SYSTEM FOR SELECTIVE ATTENUATION OF PREAMBLE RECEPTION IN CO-LOCATED WI FI ACCESS POINTS - A method and system for attenuating a received preamble in an IEEE | 09-04-2014 |
20140219404 | IMPLEMENTING BLIND TUNING IN HYBRID MIMO RF BEAMFORMING SYSTEMS - A system and a method for applying a blind tuning process to M antennas coupled via N beamformers to a multiple input multiple output (MIMO) receiving system having N channels, wherein M>N, are provided herein. The method includes the following steps: Periodically measuring channel fading rate at a baseband level to determine the number of antennas L out of K antennas connected to each one of the beamformers, to be combined at each one of the N beamformers; assigning the antennas to the subset L according to some criteria such as best quality indicator; repeatedly applying a tuning process to L antennas in each one of the N beamformers. | 08-07-2014 |
20140185719 | SYSTEM AND METHOD FOR DISCRETE GAIN CONTROL IN HYBRID MIMO/RF BEAMFORMING - A system for selectively and discretely amplifying or attenuating antennas in a hybrid multiple-input-multiple-output (MIMO) radio distribution network (RDN) receiving system is provided herein. The system includes a MIMO receiving system comprising a MIMO baseband module having N branches; an RDN connected to the MIMO receiving system, the RDN comprising at least one beamformer fed by two or more antennas, so that a total number of antennas in the system is M, wherein M is greater than N, wherein each one of the beamformers include a passive combiner configured to combine signals coming from the antennas coupled to a respective beamformer into a combined signal, wherein the at least one beamformer is further configured to selectively amplify or attenuate in discrete steps, one or more of the signals coming from the M antennas, based on qualitative metrics measured by the MIMO baseband module. | 07-03-2014 |
20140098902 | CALIBRATION OF MIMO SYSTEMS WITH RADIO DISTRIBUTION NETWORKS - A system and method of maintaining performance of an RF Distribution Network that combines signals (phases and amplitudes) passing through components that are subjected to parameters variations due to aging and temperature is disclosed; resultant distortion is reduced or eliminated via a real time calibration. | 04-10-2014 |
20140086354 | SYSTEM AND METHOD FOR DISTINGUISHING BETWEEN ANTENNAS IN HYBRID MIMO RDN SYSTEMS - A system for distinguishing between any one of a plurality of antennas in a multiple-input-multiple-output (MIMO) system having an augmented number of antennas is provided herein. The system includes a MIMO receiving system having N branches and configured to operate in accordance with a channel estimation MIMO receiving scheme; a radio distribution network (RDN) connected to the MIMO receiving system, the RDN comprising at least one beamformer, being fed by two or more antennas, so that a total number of antennas in the system is M, wherein M is greater than N, wherein each one of the beamformers include a combiner configured to combine signals coming from the antennas into a single signal; and at least one antenna distinguishing circuitry, each associated with a respective beamformer, wherein the antenna distinguishing circuitry is configured to distinguish between the signals coming from the antennas which feed the respective beamformer. | 03-27-2014 |
20140079165 | SYSTEM AND METHOD FOR DISCRETE GAIN CONTROL IN HYBRID MIMO RF BEAMFORMING FOR MULTI LAYER MIMO BASE STATION - A multiple-input-multiple-output (MIMO) receiving system configured for receiving multiple transmission layers is provided herein. The system includes a plurality of beamformed tunable receiving antennas configured to receive a plurality of transmitted layers; and a control module configured to select for the beamformed antennas a single set of discrete weights for tuning said antennas for all of the transmitted layers so that the weights are selected for optimal performance of said receiving system, wherein said selection is carried out based on an extended Maximal Ratio Combining (MRC) metric or other quality metric measured by the MIMO baseband module, and using said measured metric separately for each beamformed antenna to determine gain or attenuation independently of phase selection. | 03-20-2014 |
20140056378 | MITIGATING INTERFERENCES FOR A MULTI-LAYER MIMO SYSTEM AUGMENTED BY RADIO DISTRIBUTION NETWORK - A wireless User Equipment (UE) receiving system, may include tunable receiving antennas; a channel estimation module configured to: carry out a periodic, non-continuous channel estimation to a plurality of desired signals and undesired co-channel downlink signals which are transmitted from different base stations and received by said plurality of antennas, causing interference;, wherein the UE receiving system is configured to select between: tuning said plurality of tunable receiving antennas so as to maximize the total average power of said desired signals; and tuning said plurality of tunable receiving antennas so as to minimize the total average power of the strongest undesired co-channel base station's signals. Alternatively, the tuning is carried out so as to maximize a power ratio between said desired signals and a combination of said undesired co-channel downlink signals having the strongest interference level and an internal noise of the receiving system. | 02-27-2014 |
20140051377 | SETTING RADIO FREQUENCY (RF) BEAMFORMER ANTENNA WEIGHTS PER DATA-STREAM IN A MULTIPLE-INPUT-MULTIPLE-OUTPUT (MIMO) SYSTEM - A system and a closed form method of optimizing a set of receive beamformers' weights, each feeding one of N multi-layer MIMO receiving system wherein the beamformers have a pool of M receive antennas wherein M is greater than N. Each beamformer is tuned to optimize one data stream, where selection of antennas per beamformer may be done out of a pool of antennas, and mapping of a given beamformer to a data stream is optimized per certain performance metrics | 02-20-2014 |
20130343493 | USING ANTENNA POOLING TO ENHANCE A MIMO RECEIVER AUGMENTED BY RF BEAMFORMING - A system having a multi-layer (multi-stream) multiple-input-multiple-output (MIMO) receiving system, having a MIMO baseband module and a radio distribution network (RDN) connected to the MIMO receiving system. The RDN has two or more beamformers that are fed by two or more antennas, so that a total number of antennas in the system are greater than the number of branches of the MIMO baseband module. Each of the beamformers combines RF signals coming from the antennas. The system further implements an antenna routing module that swaps antennas between different beamformers according to one or more qualitative indicators derived from the baseband module, thus increasing the probability of grouping antennas that have lower conflicts between best phases of different layers' transmitted signals. The system increases the range of antenna selection beyond the set of antennas available for each beamformer. | 12-26-2013 |
20130329820 | IMPLEMENTING TRANSMIT RDN ARCHITECTURES IN UPLINK MIMO SYSTEMS - A system for implementing a transmit uplink channel in MIMO RDN architecture is provided herein. The system includes a multiple-input-multiple-output (MIMO) transmitting system that includes a MIMO baseband module having N branches; and a radio distribution network (RDN) connected to the MIMO receiving system. The RDN includes at least one beamformer, wherein each of the beamformers feeds K transmit antennas, so that a total number of transmit antennas in the system is M=N*K. At least some of the beamformers include passive splitters/combiners configured to split the signal coming from the transmitter into multiple signals which are weighted individually going to each transmit antenna. The baseband module is configured to repeatedly apply a “blind scanning” process to at least some of the transmit antennas, one at a time, so that performance of the tested transmit beam can be graded. | 12-12-2013 |
20130324055 | BEAMFORMER CONFIGURABLE FOR CONNECTING A VARIABLE NUMBER OF ANTENNAS AND RADIO CIRCUITS - A reconfigurable RF routing module may include M RF inputs and N RF outputs, wherein M is greater than N; a plurality of RF switches arranged to select between incoming RF signals; a plurality of RF combiners arranged to combine RF signals to a single RF signal; and a plurality of RF couplers, each associated with a transfer switch and a specified attenuation, wherein the specified attenuation of each one of the plurality of RF couplers is selected so that the RF inputs of each one of the plurality of the RF combiners are combined in a balanced manner, wherein the switches, the combiners, and the RF couplers are configured to route any of 1 to M of the inputs into each of the N outputs. | 12-05-2013 |
20130322574 | USING 3G/4G BASEBAND SIGNALS FOR TUNING BEAMFORMERS IN HYBRID MIMO RDN SYSTEMS - A hybrid MIMO RDN 3G/4G receiving system which include M antennas for N MIMO branches, wherein M>N is provided herein. Each branch has a beamformer so that each of the beamformers includes at least one combiner configured to combine signals coming from the antennas coupled to a respective beamformer into a combined signal. The system further includes a control module configured to tune at least one beamformer based on metrics derived by the baseband module. More specifically, the tuning of the beamformers is carried out, at least partially, using 3G/4G metrics that are generated but not usually reported in 3G/ | 12-05-2013 |
20130322573 | USING ANTENNA POOLING TO ENHANCE A MIMO RECEIVER AUGMENTED BY RF BEAMFORMING - A system having a multi-layer (multi-stream) multiple-input-multiple-output (MIMO) receiving system, having a MIMO baseband module and a radio distribution network (RDN) connected to the MIMO receiving system. The RDN has two or more beamformers that are fed by two or more antennas, so that a total number of antennas in the system are greater than the number of branches of the MIMO baseband module. Each of the beamformers combines RF signals coming from the antennas. The system further implements an antenna routing module that swaps antennas between different beamformers according to one or more qualitative indicators derived from the baseband module, thus increasing the probability of grouping antennas that have lower conflicts between best phases of different layers' transmitted signals. The system increases the range of antenna selection beyond the set of antennas available for each beamformer. | 12-05-2013 |
20130322561 | BEAMFORMER PHASE OPTIMIZATION FOR A MULTI-LAYER MIMO SYSTEM AUGMENTED BY RADIO DISTRIBUTION NETWORK - A system for selecting optimal phase combinations for RF beamformers in a MIMO hybrid receiving systems augmented by RF Distribution Network. The system addresses the issue of providing beamforming gains for a plurality of layers using one common set of weights for each beamformer. The specification may be based on channel estimation of all layers as viewed by all receiving antennas, and maximizing metrics that capture the total received power. | 12-05-2013 |
20130322560 | SYSTEM AND METHOD FOR DISTINGUISHING BETWEEN ANTENNAS IN HYBRID MIMO RDN SYSTEMS - A system for distinguishing between any one of a plurality of antennas in a multiple-input-multiple-output (MIMO) system having an augmented number of antennas is provided herein. The system includes a MIMO receiving system having N branches and configured to operate in accordance with a channel estimation MIMO receiving scheme; a radio distribution network (RDN) connected to the MIMO receiving system, the RDN comprising at least one beamformer, being fed by two or more antennas, so that a total number of antennas in the system is M, wherein M is greater than N, wherein each one of the beamformers include a combiner configured to combine signals coming from the antennas into a single signal; and at least one antenna distinguishing circuitry, each associated with a respective beamformer, wherein the antenna distinguishing circuitry is configured to distinguish between the signals coming from the antennas which feed the respective beamformer. | 12-05-2013 |
20130322559 | SYSTEM AND METHOD FOR DISCRETE GAIN CONTROL IN HYBRID MIMO/RF BEAMFORMING - A system for selectively and discretely amplifying or attenuating antennas in a hybrid multiple-input-multiple-output (MIMO) radio distribution network (RDN) receiving system is provided herein. The system includes a MIMO receiving system comprising a MIMO baseband module having N branches; an RDN connected to the MIMO receiving system, the RDN comprising at least one beamformer fed by two or more antennas, so that a total number of antennas in the system is M, wherein M is greater than N, wherein each one of the beamformers include a passive combiner configured to combine signals coming from the antennas coupled to a respective beamformer into a combined signal, wherein the at least one beamformer is further configured to selectively amplify or attenuate in discrete steps, one or more of the signals coming from the M antennas, based on qualitative metrics measured by the MIMO baseband module. | 12-05-2013 |
20130322558 | SYSTEMS AND METHODS FOR ENHANCED RF MIMO SYSTEM PERFORMANCE - A system for enhancing performance of a multiple-input-multiple-output (MIMO) receiving system is provided. The performance enhancement system includes a MIMO receiving system having N branches and is configured to operate in accordance with one or more legacy MIMO receiving classes, types and schemes; a radio distribution network (RDN) connected to the MIMO receiving system and including one or more beamformers, wherein at least one of the beamformers is being fed by two or more antennas so that a total number of the antennas in the system is M which is larger than N; and a control module configured to tune the one or more beamformers based on legacy MIMO signals derived from the MIMO receiving system in various methods depending on the MIMO class/type, so that the RDN adds gain and antenna directivity to the MIMO receiving system. | 12-05-2013 |
20130322509 | IMPLEMENTING BLIND TUNING IN HYBRID MIMO RF BEAMFORMING SYSTEMS - A system and a method for applying a blind tuning process to M antennas coupled via N beamformers to a multiple input multiple output (MIMO) receiving system having N channels, wherein M>N, are provided herein. The method includes the following steps: Periodically measuring channel fading rate at a baseband level to determine the number of antennas L out of K antennas connected to each one of the beamformers, to be combined at each one of the N beamformers; assigning the antennas to the subset L according to some criteria such as best quality indicator; repeatedly applying a tuning process to L antennas in each one of the N beamformers. | 12-05-2013 |