Methods and systems for communication with beamforming antennas

What is claimed is: 1 - 62 . (canceled) 63 . A method of operating a first node that includes a beamforming antenna to dynamically assist a second node, comprising: configuring the beamforming antenna to direct a first beam at a local user located closer to the first node than the second node; receiving information indicating a bandwidth shortage at the second node; and responsive to the receiving, reconfiguring the beamforming antenna to direct a second beam at a distant user located closer to the second node than the first node. 64 . The method of claim 63 , wherein the first beam has a first directivity and the second beam has a second directivity greater than the first directivity. 65 . The method of claim 63 , wherein the first node is a first base station serving a first cell that encloses the local user and the second node is a second base station serving a second cell that encloses the distant user. 66 . The method of claim 65 , wherein the second cell is adjacent to the first cell. 67 . The method of claim 65 , wherein the first cell includes a first sector that encloses the local user and the first beam has a first beamwidth less than or equal to an angle subtended at the first node by the first sector. 68 . The method of claim 67 , wherein the second cell includes a second sector that encloses the distant user and the second beam has a second beamwidth less than or equal to an angle subtended at the first node by the second sector. 69 . The method of claim 63 , wherein the configuring and the reconfiguring comprise a repeated switching of the beamforming antenna between at least the first beam and the second beam. 70 . The method of claim 69 , wherein the repeated switching includes: increasing a duty cycle of the first beam responsive to an increased bandwidth demand of the local user or a decreased bandwidth demand of the distant user. 71 . The method of claim 69 , wherein the repeated switching includes: increasing a duty cycle of the second beam responsive to an increased bandwidth demand of the distant user or a decreased bandwidth demand of the local user. 72 . The method of claim 69 , wherein the local user is one of a plurality of local users, the first beam is one of a set of one or more first beams directed at the plurality of local users, and the repeated switching includes: repeatedly switching the beamforming antenna between at least the set of one or more first beams and the second beam. 73 . The method of claim 72 , wherein the set of one or more first beams is a plurality of first beams respectively corresponding to the plurality of local users. 74 . The method of claim 69 , wherein the distant user is one of a plurality of distant users, the second beam is one of a set of one or more second beams directed at the plurality of distant users, and the repeated switching includes: repeatedly switching the beamforming antenna between at least the first beam and the set of one or more second beams. 75 . The method of claim 74 , wherein the set of one or more second beams is a plurality of second beams respectively corresponding to the plurality of distant users. 76 . The method of claim 63 , wherein the receiving of the information indicating the bandwidth shortage is a receiving of the information from a network operations center. 77 . The method of claim 63 , wherein the receiving of the information indicating the bandwidth shortage is a receiving of the information via a network that includes the first node and the second node. 78 . The method of claim 77 , wherein the network is a subsidiary network. 79 . The method of claim 78 , wherein the subsidiary network is a WLAN, WiMAX, 2G, 3 G, 4G/LTE, FM, or Bluetooth network. 80 - 151 . (canceled) 152 . A system for operating a first node that includes a beamforming antenna to dynamically assist a second node, comprising: an antenna control unit that includes circuitry for adjusting control inputs of the beamforming antenna to direct a first beam at a local user located closer to the first node than the second node; where the antenna control unit further includes circuitry for receiving information indicating a bandwidth shortage at the second node and readjusting the control inputs the beamforming antenna to direct a second beam at a distant user located closer to the second node than the first node. 153 . The system of claim 152 , wherein the beamforming antenna is a holographic beamforming antenna. 154 . The system of claim 152 , further comprising: the beamforming antenna. 155 . The system of claim 152 , wherein the first beam has a first directivity and the second beam has a second directivity greater than the first directivity. 156 . The system of claim 152 , wherein the first node is a first base station serving a first cell that encloses the local user and the second node is a second base station serving a second cell that encloses the distant user. 157 . The system of claim 156 , wherein the second cell is adjacent to the first cell. 158 . The system of claim 156 , wherein the first cell includes a first sector that encloses the local user and the first beam has a first beamwidth less than or equal to an angle subtended at the first node by the first sector. 159 . The system of claim 158 , wherein the second cell includes a second sector that encloses the distant user and the second beam has a second beamwidth less than or equal to an angle subtended at the first node by the second sector. 160 . The system of claim 152 , wherein the circuitry for adjusting and readjusting includes circuitry for repeatedly adjusting the control inputs of the beamforming antenna to switch the beamforming antenna between at least the first beam and the second beam. 161 . The system of claim 160 , wherein the circuitry for repeatedly adjusting the control inputs includes circuitry for increasing a duty cycle of the first beam responsive to an increased bandwidth demand of the local user or a decreased bandwidth demand of the distant user. 162 . The system of claim 160 , wherein the circuitry for repeatedly adjusting the control inputs includes circuitry for increasing a duty cycle of the second beam responsive to an increased bandwidth demand of the distant user or a decreased bandwidth demand of the local user. 163 . The system of claim 160 , wherein the local user is one of a plurality of local users, the first beam is one of a set of one or more first beams directed at the plurality of local users, and the circuitry for repeatedly adjusting the control inputs includes: circuitry for repeatedly adjusting the control inputs of the beamforming antenna to switch between at least the set of one or more first beams and the second beam. 164 . The system of claim 163 , wherein the set of one or more first beams is a plurality of first beams respectively corresponding to the plurality of local users. 165 . The system of claim 160 , wherein the distant user is one of a plurality of distant users, the second beam is one of a set of one or more second beams directed at the plurality of distant users, and the circuitry for repeatedly adjusting the control inputs includes: circuitry for repeatedly adjusting the beamforming antenna to switch