A method and device for detecting an illegal unmanned aerial vehicle (UAV) using a radio wave wall are provided. The method includes generating a radio wave wall between a plurality of reconnaissance UAVs that include a first reconnaissance UAV and second reconnaissance UAVs, using one or more wireless signals transmitted and received between the plurality of reconnaissance UAVs, and determining whether an illegal UAV enters the radio wave wall based on radio signal strengths of wireless signals received from the second reconnaissance UAVs.

Multiple-Input Multiple-Output (MIMO) transmitters, receivers and transceivers are disclosed, as well as other associated devices, systems and methods. In particular, aspects and embodiments of the disclosure relate to MIMO transmitters, receivers and transceivers implemented as modules of relay devices for signals transmitted to and/or from base-stations and/or mobile-stations, in particular when such devices are implemented on mobile and/or aerial vehicles, and in particular for transmitting, receiving and/or forwarding wireless communication signals at frequencies in what is termed the “millimeter-wave band”. In such devices, a power control unit is configured to determine an energy availability measure and/or a power demand measure and, in response, cause a switching unit to connect a plurality of RF chains to a plurality of antenna elements in different states.

Example embodiments may relate to web interfaces for a balloon-network. For example, a computing device may display a graphical interface that provides information related to a balloon network configured to provide service in a geographic area, where the graphical interface includes a map. The computing device may receive real-time bandwidth data related to balloons in the balloon network, where the balloons are each configured to change position via altitudinal movement and via horizontal movement with respect to the ground. Based at least in part on the received real-time bandwidth data, the computing device may display, on the map, a visual representation of bandwidth information corresponding to one or more regions in the geographic area, where the visual representation of bandwidth information updates from time to time based at least in part on a change in position of one or more balloons in the balloon network.

A technique for classifying a User Equipment, UE, connected to a cellular network as an aerial UE is disclosed. A method implementation of the technique is performed by a network node of the cellular network and comprises receiving (S302) one or more beam identifiers detected by the UE and identifying one or more beams transmitted by at least one base station of the cellular network, and classifying (S304) the UE using an aerial UE detection model configured to classify the UE as an aerial UE when the one or more beams identified by the one or more beam identifiers detected by the UE reflect a beam detection pattern that is predetermined to be representative for aerial UEs in flight.

In embodiments disclosed herein, the measurement and reporting procedures associated with RRCConnectionReconfiguration or RRCConnectionResume message consider node altitude (e.g., UE altitude and/or base station altitude).

An interference suppression method and an interference suppression apparatus for air-to-ground (ATG) communications are provided. The method includes: determining first information, wherein the first information is used for one or more of the following: adjusting a maximum transmit power level of an ATG terminal; adjusting an output power value of the ATG terminal; adjusting an antenna gain of the ATG terminal; adjusting an antenna direction of the ATG terminal; determining a type of a terminal that is allowed to access an ATG base station.

A method for an infrastructure equipment of a wireless telecommunications network, the wireless telecommunications network comprising a base station and a non-terrestrial network part, the non-terrestrial network part transmitting one or more beams to provide a wireless access interface for transmitting signals to and receiving signals representing data from a communications device within a coverage region of a cell or a spot beam, the method comprising: determining a location of the communications device, determining the coverage region of the cell or the spot beam, determining a relative motion, relative to the communications device, of the coverage region of the cell or the spot beam, and based on the location and the relative motion, initiating a cell change of the communications device.

A method and wireless devices (WDs) for geo-location of wireless devices are disclosed. According to one aspect, a method in a first WD includes: transmitting a sequence of ranging signals and receiving a plurality of ranging response signals from a second WD, the ranging response signals being responsive to the ranging signals. For each of the plurality of ranging response signals, a received sequence of bits is determined. A correlation between the received sequence of bits and an expected sequence of bits is determined. The method also includes determining a subset of the plurality of received sequences of bits deemed not to arise from noise, and determining the subset being based at least in part on the correlations. The method also includes determining a distance between the first WD and the second WD based at least in part on a plurality of received sequences in the subset.

One aspect of the disclosure provides a method performed by a wireless device for performing handover from a source network node to a target network node. The method comprises: obtaining (1402) an indication of a round-trip time for transmissions to the target network node; initiating (1406) access to the target network node; and, subsequent to initiating access to the target network node, transmitting (1408) data to or receiving (1408) data from the source network node for a time window following initiation of access to the target network node. The time window has a duration of at least the round-trip time for transmissions to the target network node.

Provided are methods and apparatuses for performing a random access of a terminal in a wireless communication system. A method, performed by a terminal, of performing a random access, according to an embodiment, includes receiving preamble configuration information from a base station, obtaining a RACH (random access channel) preamble scaled in length in proportion to a difference between an expected minimum distance and an expected maximum distance to the base station from opposed edges of a cell served by the base station, based on the preamble configuration information and transmitting the obtained RACH preamble to the base station to access a NTN (non-terrestrial network).