A communication device, computer program product, and method proactively implement a successful transmit antenna configuration to address antenna outages for multiple transmit carrier scenarios. A carrier of the communication device determines a first transmit carrier, of at least two transmit carriers of a multiple transmit carrier mode, that is identified as having priority among the at least two transmit carriers. The controller identifies one or more transmit antenna configurations in the transmit antenna configuration data that support the first transmit carrier. The carrier determining, for each transmit antenna configuration, an aggregate antenna outage metric that indicates the transmit performance for a corresponding transmit antenna configuration. The controller configures an antenna switching network and RF frontend of a communication subsystem of the communication device with a first transmit antenna configuration that has a better aggregate antenna outage metric than other antenna configurations.

The present disclosure provides an indication information transmission method and a communication device. The method includes: transmitting an indication information, the indication information includes one or more of the following: sounding reference signal (SRS) resource indication information, precoding matrix indication information, number of transmission layers indication information and antenna panel indication information; at least one of the indication information included in the indication information is sub-band indication information.

This application relates to the field of communications technologies and provides a quasi co-location indication method and an apparatus, so that a terminal learns of a quasi co-location relationship between a plurality of antenna ports of a first reference signal resource. The method includes: A terminal receives quasi-co-location indication information, where the quasi-co-location indication information is used to indicate M antenna port groups corresponding to a first reference signal resource, each of the M antenna port groups includes one or more CDM groups of the first reference signal resource, the CDM group includes a plurality of antenna ports, and any two antenna ports in a same antenna port group are in a quasi-co-location relationship. Then, the terminal determines a quasi-co-location relationship between a plurality of antenna ports of the first reference signal resource based on the quasi-co-location indication information.

In one example, an antenna system is described. The antenna system includes a primary antenna on an aircraft. The primary antenna is mechanically steerable and has an asymmetric antenna beam pattern with a narrow beamwidth axis and a wide beamwidth axis at boresight. The antenna system also includes a secondary antenna on the aircraft, the secondary antenna including an array of antenna elements. The antenna system also includes an antenna selection system to control communication of a signal between the aircraft and a target satellite via the primary antenna and the secondary antenna. The antenna selection system switches communication of the signal from the primary antenna to the secondary antenna when a performance characteristic for communication with the target satellite satisfies a threshold due to a position of the aircraft relative to the target satellite.

Aspects described herein relate to activating, by a user equipment (UE), or causing activation of, by a base station, one or more antenna panels at the UE. An action time for activating or deactivating the one or more antenna panels may also be used to allow processing time related to activation or deactivation of the antenna panels.

A method performed by a network node comprising an active antenna system in a telecommunication network. The network node can identify a plurality of available branches from a plurality of branches of the active antenna system for supporting a narrowband signal. The network node can further map at least two available branches from the plurality of available branches to at least one subcarrier of a plurality of subcarriers from the narrowband signal, wherein each of the at least two available branches are mapped to different sets of subcarriers from the plurality of subcarriers.

To facilitate positioning a user device, the user device is configured to measure, per an antenna array, reference signals received from transmission-reception points and to check, whether a downlink reference signal from a transmission-reception point is received in a serving antenna array and in one or more non-serving antenna arrays with a first delay. A non-serving antenna array receiving the signal with the first delay is an alternative antenna array to the serving antenna array. When the serving antenna array is under a maximum permissible exposure event, the user device is configured to select, which one of one or more alternative antenna arrays and the serving antenna panel is to be used for transmitting at least a positioning signal to the transmission-reception point.

An antenna orientation deciding method in a wireless communication system that has a communication device provided with an antenna having directionality and a relay device that travels, includes a deciding step of deciding an orientation at which the directionality of the antenna as to the relay device is optimal, on the basis of position information of the communication device, orbit information of the relay device, and information relating to orientation of directionality of the antenna.

An antenna determination method, apparatus, a terminal device, an electronic device, and a storage medium are disclosed. In the embodiments of the present disclosure, on the premise of establishing communication connection with an opposite terminal device, quality of received signals of at least two antennas are compared, a channel corresponding to the signal with better signal quality is selected as a communication channel, and an antenna corresponding to the communication channel is determined for subsequent signal transmission and reception.

Aspects and embodiments relate to an apparatus and method for performing antenna panel management. There is provided an apparatus comprising: means for obtaining signal reception information related to at least one downlink signal received by a user equipment using at least one reception antenna panel of a plurality of selectively-activatable antenna panels; means for determining an indication of effective power radiatable to the network node from which the downlink signal is received, based on the signal reception information related to the at least one downlink signal received by that to antenna panel for each of the plurality of selectively-activatable antenna panels which is configurable to transmit a signal to a network node from which the downlink signal is received; means for calculating an indication of power consumption associated with the indication of effective power radiatable to the network node for each of the plurality of selectively-activatable antenna panels; and means for selecting and configuring at least one of the selectively-activatable antenna panels to be used for transmission of a signal to a network node from which the downlink signal is received in response to the calculated indication of power consumption. Aspects support appropriate power efficient operation of a communication apparatus, for example by allowing for differentiated uplink and downlink antenna panel selection, which can enable apparatus power saving, whilst minimising performance loss, or incurring no significant performance loss.