Embodiments provide efficient multicast handover for content delivery to client devices in multi-carrier communications systems. For example, client devices in a transport craft can consume a media channel offering via a first carrier during transport through the communications system. Embodiments can establish respective multicast groups for the media channel offering in at least the first carrier and a subsequent second carrier, and can notify the craft of the multicast groups prior to the craft being serviced by the second carrier. Such pre-notification can permit multicast handover of the media channel offering from the first carrier to the second carrier in a manner that avoids typical handover-related. For example, embodiments can direct multicast delivery of the media channel offering to the craft in accordance with the first multicast group while being serviced by the first carrier and in accordance with the second multicast group while being serviced by the second.

Altitude based device management is provided herein. A method can comprise transmitting, by a mobile device comprising a processor, a signaling message to a network device of a wireless network. The signaling message can comprise first data indicating a device type of the mobile device and second data indicating a distance measurement of the mobile device with respect to a reference point. The method can also comprise implementing, by the mobile device, a first instruction related to a power setting and a second instruction related to an operating parameter. The first instruction and the second instruction can be received from the network device and can be based on the device type of the mobile device and the distance measurement of the mobile device.

A method for reporting flight path information includes: determining content of flight path information of an unmanned aerial vehicle (UAV) including at least one of a path positioning point of the UAV, the flight speed of the UAV and the flight altitude of the UAV, the reporting time of the flight path information of the UAV, and the position and altitude of the UAV when the flight path information of the UAV is reported; and reporting, through radio resource control (RRC) signalling, the flight path information of the UAV to the base station. By determining the content of the flight path information of the UAV, and reporting the flight path information of the UAV to the base station by means of RRC signalling, the base station can determine flight-related information according to the content so as to prepare for handover in advance.

Embodiments herein relate to, for example, a method performed by a UE (10) for handling communication in a wireless communication network. The UE (10) determines whether the UE (10) is flying or not; and checks one or more conditions related to a handover of the UE (10), wherein the one or more conditions are based on whether the UE (10) is determined to fly or not.

Method, device and computer program product for wireless communication are provided. A method includes: transmitting, by a first wireless communication node, unmanned aerial vehicle, UAV, related information of a UAV to a second wireless communication node, wherein the UAV related information comprises at least one of UAV Flight Path Information or UAV Height Information.

A system including a constellation of satellites in Low Earth Orbit and a plurality of ground stations to enable continuous communication for other geocentric, non-geosynchronous spacecraft. Network latency, Doppler effects, and router handover time are minimized through selection of orbital parameters for the satellite constellation and locations of ground stations. A plurality of polar or near polar orbit planes is presented at equally spaced right ascension of the ascending node (RAAN), in an alternative ascending-descending pattern. Inter-satellite communication is performed in-plane to relay data to a ground station, and out-of-plane or in-plane to communicate with another satellite that is not a member of the constellation. The number and location of ground stations is selected based on the number of small satellites and orbital planes in order to maintain continuous communications. The system can enable continuous communication for geocentric satellites without the need for line-of-sight access to a ground station.

A device, system, and method detect an activity and utilize a mitigation scheme. The method is performed at a device that is configured to establish a network connection to a network, the network including a plurality of areas, each area being defined based on a grouping of a plurality of neighboring cells, the device being associated with one of the areas at a select time. The method includes determining between an activity status and a non-activity status associated with the device. When the activity status is determined, the method includes determining an area update rate indicating a number of changes to the associated area over a period of time. When the area update rate exceeds a predetermined update rate threshold, the method includes selecting a mitigation scheme configured to reduce an amount of power used by the device.

A context awareness engine may include processing circuitry configured to receive a context update request from a content provider for an originator of a content request from a source internet protocol (IP) address associated with a dynamic context, determine updated context information for the originator based on the source IP address, and provide the updated context information to the content provider to enable the content provider to provide a response to the content request including requested content or additional content that is based on the updated context information.

A method and device for transmitting flight information. The method comprises: generating switching request related signaling, the switching request related signaling carrying flight path information of an unmanned aerial vehicle; and sending the switching request related signaling to a target base station. The method may also be a method applied to an MME side, and comprises: receiving switching demand signaling sent by a source base station, the switching demand signaling carrying flight path information of an unmanned aerial vehicle; and sending second switching request signaling to a target base station, the second switching request signaling carrying flight path information of an unmanned aerial vehicle.

A method of operating a terminal device in a wireless telecommunications system comprising the terminal device and a non-terrestrial network access node, wherein the method comprises the terminal device performing the steps of: determining a first location for the terminal device transmitting signalling indicating the first location; determining a second location for the terminal device; determining whether or not a distance between the first location and the second location is more than a predefined threshold distance, and if so transmitting signalling indicating the second location.