Abstract: A device capability attribute regarding a setting on communication parameters, and provision attribute information indicative of whether or not a communication terminal is in a state that it can provide communication parameters to another communication terminal are stored in advance. The communication terminal, where the device capability attribute has at least a provision capability of the communication parameters, is selected as a provision device. In a case where there are plural communication terminals where the device capability attribute has a communication parameter provision capability, a communication terminal where the device capability attribute has the communication parameter provision capability only is preferentially selected.

Abstract: A system, a computer program product and a method associate service licenses with a wireless device. A device identifier (device ID) which identifies the wireless device and a Subscriber Identity Module identifier (SIM ID) identifying a SIM card currently inserted in the wireless device are received. If the SIM ID is not currently associated with the device ID, a listing of service licenses associated with the SIM ID is aggregated with a listing of service licenses associated with the device ID. The wireless device is authorized to use service licenses listed in the aggregate listing of service licenses. A virtual SIM identifier may be associated with the SIM identifier and at least one additional service license. The at least one additional service license associated with the virtual SIM identifier may be stored in a database as a subscriber service profile.

Abstract: Embodiments of the present disclosure provide a method, where the method includes: when determining that a first cell enters or prepares to enter a dormant state, sending, by a base station, a first signal to a user equipment (UE) in the first cell, where the first signal carries information about time when the first cell enters the dormant state, for determining, according to the information about the time, that the first cell enters the dormant state; and when determining that the first cell enters an active state from the dormant state, sending, by the base station, a second signal to the user equipment in the first cell, for determining, according to the second signal, that the first cell enters the active state. By using technical solutions provided in the present disclosure, the UE can discover a state change of a cell in time.

Abstract: An antenna assembly for a portable device is provided. The antenna assembly includes a battery cover including a metal material, a short-range wireless communication module electrically connected to the battery cover, and a main antenna electrically connected to the short-range communication module.

Abstract: The method simplifies the formation of groups of devices in secure spaces. Such spaces may be passenger compartments of vehicles, and the passenger compartments can additionally be partitioned into zones. Each zone can be allocated a group. For instance, driver and front-seat passenger can be allocated to one group. The travelers in the rear seat-rows can be allocated to another group. This allows data exchange with driver and front-seat passenger that relates to the vehicle route or even relates to vehicle assistance systems. The other group, for instance, children travelling in the vehicle, can share other data, for instance, for entertainment purposes. The acceptance of systems offered in the vehicle can be increased by simple group formation.

Abstract: According to embodiments described in the specification, a method and system for replicating an application on an auxiliary computing device are provided. The system includes the auxiliary computing device, a mobile computing device executing the application, and at least one server. The server provides the auxiliary computing device with a web application, and the auxiliary computing device presents a code generated using the web application on its display. The mobile computing device captures the code, and uses the code to establish a connection with the auxiliary computing device via the server. The server then routes data between the auxiliary computing device, the mobile computing device and other devices. The data includes application control data, which is routed between the mobile computing device and the auxiliary computing device; and message data, which is routed between the mobile computing device and other devices.

Abstract: A prompting method using an electronic device includes detecting whether the electronic device receives a new event. A number of times that new events of the electronic device are not processed is calculated when the received new event is not processed. A prompting device is controlled to transmit a notice of the received new event according to the calculated number of times.

Abstract: A user sends a location request to a user of a group that requests the user's current location. For example, one family member may send a location request to another family member that is part of their family group for their current location. The user receiving the request may accept the location request or reject the location request. When the location request is reject, the requesting user is not provided with the current location information of the user. When the location request is accepted, the requesting user is provided with the current location information of the user. In addition to providing the location information to the requesting user, the location may also be shared with other members of the group. For example, a message may be sent to each of the family members that are part of the group that informs them that a member has updated their location.

Abstract: The present invention is a method and system for supporting a beamforming antenna system in a mobile broadband communication network with an improved beam pattern, beam sweep pattern, pilot channel design with feedback and reporting rules, and control signaling design. Specifically, the improved beam pattern includes a method of supporting wireless communications in a wireless network forming at least two spatial beams within a cell segment where the at least two spatial beams are associated with different power levels, and separately, where at least two spatial beams can be moved across the cell segment according to a unique sweep pattern. The pilot channel design improves network bandwidth performance and improves user mobility tracking. Feedback and reporting rules can be established using a particular field designator, CQI, in the preferred embodiment.

Abstract: Mobile communications devices having moveable housings are described. In an implementation, a mobile communications device includes a first housing and a second housing. At least one of the first or second housings are moveable between a first configuration in which the first housing substantially covers the second housing so that an outer surface of the second housing is covered and an outer surface of the first housing is viewable, and a second configuration in which said outer surface of the second housing is exposed and positioned such that said outer surface of the second housing is positioned in a substantially similar plane to that of said outer surface of the first housing.

Abstract: The present document relates to the field of communication, provides a method, device and system for managing multi-connection of a terminal. The method includes: a source base station of a terminal controlling the terminal to establish a connection with at least one of other base stations and updating a path over which the terminal transmits data to passing through the source base station and the at least one of other base stations after the terminal has established the connection with the at least one of other base stations. The technical scheme provided by the embodiments of the present document is applicable to LTE systems, solves the problem of managing the multi-connection existing between the terminal and multiple base stations, and implements the management for the multi-connection of the terminal.

Abstract: An apparatus and method are provided. The method includes reproducing, by a portable phone, multimedia content via an external output device while the portable phone is coupled with the external output device, determining whether the portable phone is decoupled from the external output device, and terminating the reproducing of the multimedia content based at least in part on a determination that the portable phone is decoupled from the external output device.

Abstract: In accordance with an example embodiment, an apparatus comprises a first receiver configured to receive a first partial radio map and a second partial radio map, a processor configured to compare the first partial radio map and the second partial radio map, and the processor further configured to determine to replace the first partial radio map with the second partial radio map based at least in part on a result of the comparison.

Abstract: A system includes a wireless network and a software defined network overlaid over the wireless network. The software defined network includes at least one UAV having a software defined network device and a bridging radio component. The system includes a communication component in communication with the bridging radio component and a controller connected to the software defined network that makes routing decisions and communicates the routing decisions to the software defined network device.

Abstract: In certain embodiments, carrier-specific configuration of a user device may be facilitated based on pre-stored information for multiple carriers. In some embodiments, a user device may store information for limited access (that allows the user device to obtain carrier-specific parameters from carrier networks). During activation, the user device may select one of the carrier networks on which the user device is to be configured to operate. Responsive to the selection, the user device may provide, to a carrier-side computer system on the selected carrier network, a request for limited access to the selected carrier network for configuring the user device, wherein the request comprises the stored access information that allows the user device to obtain carrier-specific parameters via the selected carrier network. Responsive to the limited access being granted, the user device may obtain a configuration package from the carrier-side computer system comprising parameters for configuring the user device.

Abstract: The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. Methods and apparatuses provide a service to user equipment through a dedicated core network. In one method, a base station, also referred to as eNB, receives a non-access stratum (NAS) message from user equipment (UE), and transmits a first initial UE message having the NAS message to a first mobility management entity (MME).

Abstract: There is provided an input/output apparatus. Among information terminals of an input/output connector provided in an information terminal device, at least one information terminal of information terminals to switch an internal operation of the information terminal device is used also as an antenna input terminal.

Abstract: A device receives subscriber records for mobile devices associated with a mobile network, and receives performance data associated with the mobile network in near real time. The performance data includes one or more of performance management statistics, call trace data associated with the subscriber records, and geolocated subscriber records for the mobile devices. The device stores the geolocated subscriber records with other types of data in an asynchronous manner, and receives configuration data associated with the mobile network and indicating a topology of the mobile network. The device identifies, based on at least one of the topology and the performance data, a desired topology of the mobile network. The desired topology is predicted to achieve at least one of improved network performance or alignment with a network design policy.

Abstract: Embodiments of the present invention discloses a network positioning method and related equipments, the method includes: receiving, by a user equipment (UE), positioning signals of at least three positioning nodes, where the at least three positioning nodes include at least one auxiliary UE, where the auxiliary UE is located within an end-to-end communication range of the UE, and valid position information of the auxiliary UE exists currently; measuring the positioning signals of the at least three positioning nodes, and acquiring a measurement result which comprises time difference of receiving the positioning signals of the at least three positioning nodes by the UE; calculating, a current position of the UE according to the measurement result and the valid position information of the at least three positioning nodes. The technical solution provided by the present invention can effectively enhance the network positioning precision.

Abstract: Disclosed in some examples, are methods, systems, devices, and machine-readable mediums which provide for improved location of mobile devices using TOF measurements by using information from the reception of location messages at locator nodes that are not the intended recipient of those messages.