Abstract: An apparatus and method are described for facilitating communication between a telecommunications network and a user device within a building. The apparatus has a first unit for mounting adjacent an external surface of a building, and a second unit for mounting adjacent an internal surface of the building so as to be separated from the first unit via an interface structure of the building, for example a window. The first unit has an antenna system to communicate with the telecommunications network over an external wireless communications link that employs signals in a frequency range that is attenuated by the interface structure to a degree inhibiting reception of the signals by a user device within the building.

Abstract: An apparatus and method are provided for configuring a communication link. The apparatus has a plurality of antenna elements to support RF communication over a communication link using a plurality of frequency channels, a plurality of RF processing circuits, and configuration circuitry to apply a selected configuration from a plurality of different configurations, where each configuration identifies which RF processing circuit each antenna element is coupled to, and which frequency channel is allocated to each RF processing circuit. The configuration circuitry is arranged to employ a reinforcement learning process in order to dynamically alter which of the plurality of different configurations to apply as a currently selected configuration.

Abstract: A node is provided to operate in a wireless network. The node comprises scanning circuitry to perform a scanning process to detect one or more upstream nodes of said wireless network; connection circuitry to form a connection to one of said one or more upstream nodes in response to said scanning circuitry completing said scanning process, wherein said connection is broken as a consequence of said scanning process; storage circuitry to store one or more triggers; and processing circuitry to cause said scanning circuitry to perform said scanning process in response to one of said one or more triggers.

Abstract: A technique is provided for controlling a beam pattern employed by an antenna apparatus. The antenna apparatus comprises an antenna array, and beamforming circuitry to employ a beam pattern in order to generate a beam using the antenna array to facilitate wireless communication with at least one further antenna apparatus. Beam pattern adjustment circuitry is then arranged to receive a control signal indicative of a motion being imparted to the antenna apparatus, and to adjust the beam pattern to be used by the beamforming circuitry in dependence on the control signal, so as to alter a width of the beam in order to mitigate variation in link quality of the wireless communication due to the motion.

Abstract: An antenna apparatus comprising at least one antenna array configured to produce a beam to facilitate wireless communication with at least one other antenna apparatus is described, in which the beam can be electronically steered in an associated beamforming plane by beamforming circuitry. The at least one antenna array has an associated antenna array plane, and an antenna array rotation mechanism is configured to rotate each antenna array in its associated antenna array plane to cause its beamforming plane to rotate. Methods for operating such an antenna apparatus, and for deploying an antenna apparatus in a wireless communication network, are also described.

Abstract: There is provided a node for operating in a wireless network, including: coarse-granularity scanning circuitry that performs a coarse-granularity scanning process to detect one or more donor nodes of the wireless network according to a first metric. Connection circuitry forms a connection to a selected donor node in the one or more donor nodes. The connection is broken as a consequence of the coarse-granularity scanning process being performed. Fine granularity scanning circuitry performs a fine granularity scanning process to determine a configuration in which a quality of the connection is improved according to a second metric. The connection is maintained during the fine granularity scanning process.

Abstract: A technique is provided for tuning the resonance frequency of an electric-based antenna formed by a radiator element coupled to an antenna ground plane. The disclosed method comprises providing a plurality of parasitic capacitive elements extending in an electric field direction of the electric-based antenna so as to lower the resonance frequency of the electric-based antenna below a desired resonance frequency. The electric-based antenna is then integrated within a deployment environment of interest, and thereafter an indication of an actual frequency response of the electric-based antenna within the deployment environment is obtained. One or more of the parasitic capacitive elements may then be removed so as to adjust the actual resonance frequency towards the desired resonance frequency. By such an approach, a significant degree of adjustment in the resonance frequency of the antenna can be made after the antenna has been integrated within the deployment environment.

Abstract: A rotatable antenna apparatus has a fixed unit for attachment of the apparatus to an external structure, and a rotatable unit mounted on the fixed unit for rotation relative to the fixed unit. The rotatable unit comprises both an antenna assembly and processing circuitry coupled to the antenna assembly for performing signal processing operations. The apparatus further includes a thermally conductive shaft connected to the rotatable unit and located for rotation within the fixed unit, and a thermally conductive coupling structure to conduct heat from one or more heat generating components of the processing circuitry into the thermally conductive shaft. A heat sink within the fixed unit is thermally coupled to the thermally conductive shaft to draw heat away from the thermally conductive shaft. This provides an efficient mechanism for removing heat from the rotatable unit, whilst still allowing the rotatable unit to be sealed against external environmental conditions.

Abstract: The present technique provides an antenna apparatus and a method of operating an antenna apparatus comprising a first antenna array and a second antenna array. Antenna positioning circuitry is used to move the first antenna array relative to the second antenna array about a common axis of rotation to facilitate positioning of the first and second antenna arrays in a chosen deployment configuration between a first limit and a second limit. Antenna array control circuitry is used to coordinate operation of the first antenna array and the second antenna array dependent on the chosen deployment configuration.

Abstract: An apparatus and method are described for facilitating communication between a telecommunications network and a user device within a building. The apparatus has a first unit for mounting adjacent an external surface of a building, and a second unit for mounting adjacent an internal surface of the building so as to be separated from the first unit via an interface structure of the building, for example a window. The first unit has an antenna system to communicate with the telecommunications network over an external wireless communications link that employs signals in a frequency range that is attenuated by the interface structure to a degree inhibiting reception of the signals by a user device within the building.

Abstract: An antenna apparatus for use in a wireless network and method of operating such an antenna apparatus are provided. A wireless network controller provides a configuration of such an antenna apparatus, a method of operating such a wireless network controller, and a resulting wireless network. The antenna apparatus comprises a directional antenna and a uniform circular antenna array. The directional antenna can be rotatably positioned about an axis with respect to a fixed mounting portion of the apparatus in dependence on wireless signals received by the antenna array. The antenna array allows the antenna apparatus to receive wireless signals isotropically and thus to accurately monitor the wireless signal environment in which it finds itself. The antenna apparatus can thus monitor and characterize incoming signals, both from external interference sources and from other network nodes, and the directional antenna can then be positioned in rotation to improve the network throughput.

Abstract: A node is provided to operate in a wireless network.

Abstract: There is provided a node that includes radio circuitry that wirelessly connects to other devices in a wireless network using either a first radio configuration or a second radio configuration. Scan circuitry determines a first measurement related to using the radio circuitry to connect to an analysed device in the other devices in the first radio configuration and a second measurement related to using the radio circuitry to connect to the analysed device in the second radio configuration. Metric calculation circuitry calculates, for each device in the other devices, a metric, wherein each metric is calculated by applying a first weighting greater than zero to the first measurement obtained for that device and a second weighting greater than zero to the second measurement obtained for that device. Selection circuitry adapted to select one of the other devices in dependence on the metric calculated for each of the other devices.

Abstract: An apparatus configured to operate in a network comprises: control circuitry configured to perform a selection operation to select a preferred base station from one or more base stations in the network, each base station having a backhaul connection; connection circuitry configured to connect to the preferred base station; and communication circuitry configured to receive characteristic data of the backhaul connection of each of the one or more base stations. The control circuitry is configured to perform the selection operation in dependence on the characteristic data.

Abstract: A node and method are described for providing more flexible access to a wireless network. The node has scanning circuitry for performing a scanning operation to detect one or more wireless backhaul nodes and a performance characteristic associated with each of the one or more wireless backhaul nodes. This scanning operation is performed for each of a plurality of antenna directions. Filter circuitry is also provided to store a reference to the one or more wireless backhaul nodes, a value of the performance characteristic associated with the one or more wireless backhaul nodes, and an antenna position during the scanning operation, which are stored in a candidate list on the basis of a condition. The node also comprises data processing circuitry to select a selected wireless backhaul node from the candidate list based on the performance characteristic.

Abstract: An apparatus and method are provided for improving connectivity for items of user equipment in a wireless network. The apparatus has a first antenna system for providing a first sector of a telecommunications network, and a second antenna system for providing a second sector of the telecommunications network. Further, the apparatus has a third antenna system for communicating with a base station of the telecommunications network to provide a first wireless backhaul path for the first and second sectors. In addition, a fourth antenna system is used to provide a wireless communication link to facilitate coupling of the apparatus into a mesh network of devices. The mesh network has at least one point of access into the telecommunications network such that the mesh network supports provision of at least one further wireless backhaul path for the first and second sectors.

Abstract: A method and apparatus configures a wireless network comprising a plurality of nodes to mitigate effects of an external interference source. A subset of the nodes simultaneously participate in an external interference sampling process in which each node of the subset samples signals received by an antenna array of that node. A measurement report, comprising a signal source angle and a received signal strength, is received from a node. A location of the external interference source is estimated using the measurement report. The external interference source is then characterized using the estimated location of the external interference source and the received signal strength to calculate for the external interference source at least one of: a source power; a beam width; an antenna bearing; and a front-to-back transmission ratio. The nodes are configured to mitigate effects of the external interference source in dependence on a result of the characterizing step.

Abstract: There is provided a node for use in a network, the node comprising: communication circuitry to communicate with a management server. Bootstrap circuitry initially identifies an intermediate node from at least one available node in the network in response to the communication circuitry being unable to communicate with the management server directly. The communication circuitry is arranged to communicate with the management server indirectly via the intermediate node when unable to communicate with the management server directly. Role assignment circuitry assigns a role to be performed by the node in the network based on whether the communication circuitry communicates with the management server directly, or indirectly via an intermediate node.

Abstract: An apparatus, method of operating the apparatus, and system comprising the apparatus are provided. The apparatus has a backhaul sub-node to provide a backhaul connection to a communications network and an access sub-node to provide an access cell to which user equipment can connect. In response to a configuration trigger a configuration procedure is performed, in which the backhaul sub-node gathers information about the network environment and transmits at least a portion of the information about the network environment to a network management node. The the network management node then generates an access sub-node configuration which it transmits to the access sub-node, where the configuration is dependent on the information about the network environment transmitted to the network management node by the backhaul sub-node.

Abstract: An apparatus and method of performing a configuration process in the apparatus are provided. The apparatus has a backhaul sub-node to provide a backhaul connection to a communications network which comprises a proxy system. It also has an access sub-node to provide an access cell to which user equipment can connect. In a configuration process the backhaul sub-node performs a backhaul sub-node auto-configuration process comprising connecting to a further network node, determining backhaul sub-node configuration parameters, and storing in the proxy system at least one configuration parameter for the access sub-node in dependence on the backhaul sub-node configuration parameters determined. When the access sub-node then issues an access sub-node auto-configuration request, the proxy system intercepts the access sub-node auto-configuration request and responds to the access sub-node in dependence on the at least one configuration parameter for the access sub-node stored.