A method, a device, and a non-transitory storage medium are described in which a radio and core integrated layers service is provided. The service provides a direct mapping of a quality of service flow between a packet data unit layer and a service data adaptation layer associated with a user plane function and a central unit-user plane function without an intermediary mapping of a tunneling protocol in the user plane.

Systems, and methods are described herein for identifying and/or controlling influence and/or potential influence of one or more signals on one or more properties of light emitted by one or more lighting units (100). In various embodiments, one or more signals may be identified that influence, or potentially influence, a manner in which a lighting unit controller (110) controls one or more properties of light to be emitted by a lighting unit (100). In some embodiments, a user instruction may be received to alter the manner in which the one or more signals influence how the lighting unit controller (110) controls the one or more properties of light emitted by the lighting unit (100) may be received. The lighting unit controller (110) may control a manner in which light output of the lighting unit (100) is influenced by the one or more signals in accordance with the user instruction.

Systems, and methods are described herein for identifying and/or controlling influence and/or potential influence of one or more signals on one or more properties of light emitted by one or more lighting units (100). In various embodiments, one or more signals may be identified that influence, or potentially influence, a manner in which a lighting unit controller (110) controls one or more properties of light to be emitted by a lighting unit (100). In some embodiments, a user instruction may be received to alter the manner in which the one or more signals influence how the lighting unit controller (110) controls the one or more properties of light emitted by the lighting unit (100) may be received. The lighting unit controller (110) may control a manner in which light output of the lighting unit (100) is influenced by the one or more signals in accordance with the user instruction.

This application provides a resource mapping method, a network device, and a terminal device. The method includes: generating, by a network device, control information, where the control information is used to indicate at least one type of the following information: at least one bandwidth region in which at least one frequency domain resource unit is located, a granularity of the frequency domain resource unit, and a location of the frequency domain resource unit in the bandwidth region; and sending, by the network device, the control information to a terminal device. The frequency domain resource unit is a scheduling unit of a frequency domain resource used when the network device and the terminal device transmit a data channel. The granularity of the resource unit corresponds to a granularity of a resource unit used when the network device and the terminal device transmit a control channel.

An information transmission method, a base station, a mobile terminal, and a computer readable storage medium are provided. The information transmission method includes transmitting, to a mobile terminal, configuration information of a target frequency point used by the mobile terminal in a random access procedure, wherein the configuration information includes time slot information corresponding to the target frequency point and/or identification information of the target frequency point.

Methods and apparatuses for measurement information reporting. A method of a user equipment (UE) includes method receiving a configuration for a set of resources comprising non-zero-power channel state information reference signal (NZP CSI-RS) resources or synchronization signal and physical broadcast channel (SS/PBCH) block resources and receiving NZP CSI-RS in the NZP CSI-RS resources or SS/PBCH blocks in the SS/PBCH block resources from the set of resources. The method includes measuring signal-to-interference and noise ratio (SINR) values based on the NZP CSI-RS or the SS/PBCH blocks; and transmitting, for a subset of resources from the set of resources, a largest of the SINR values, differential SINR values relative to the largest SINR value, and NZP CSI-RS resource indexes (CRIs) or SS/PBCH block indexes for at least some of the NZP CSI-RS resources or the SS/PBCH blocks resources from the subset of resources.

Systems and methods for splitting cells in a network of Internet of Things (IOT) may evaluate a network metric such as receives signal strength indicator (RSSI) for end devices to determine a general network activity level. When the network metric falls below a predetermined threshold, the cell splitting controller may cause the cell to split in such a manner as to offload some portion of the end devices on an adjacent gateway and/or change frequencies to reduce the likelihood of collision. By splitting cells in this fashion, the density of end devices served by a single gateway is reduced, fewer collisions occur statistically, and the user experience may be improved.

A computer-implemented billing method including displaying, on a video call screen, video data related to a counterpart terminal with which a video call is connected, recognizing reaction information input from the counterpart terminal based on the video data related to the counterpart terminal displayed on the video call screen, and generating billing data related to the recognized reaction information of the counterpart terminal based on a billing policy may be provided.

In one example, a server obtains an indication that a first mobile device is in a predetermined proximity to a non-mobile device. In response, the server permits the first mobile device to pair with the non-mobile device. The server generates whitelisted information associated with the first mobile device by adding information associated with the first mobile device to a whitelist that controls mobile device pairing for the non-mobile device. The server also obtains an indication that a given mobile device has obtained one or more keep-alive messages from the non-mobile device. Based on the whitelisted information, the server determines whether to permit the given mobile device to pair or remain paired with the non-mobile device. In response to determining to permit the given mobile device to pair or remain paired with the non-mobile device, the server permits the given mobile device to pair or remain paired with the non-mobile device.

A network controller monitors a wireless access node for a fault. The wireless access node experiences the fault and scans for wireless Integrated Access and Backhaul (IAB) service. The network controller detects the fault and directs a neighbor access node to deliver the wireless IAB service. The neighbor access node delivers the wireless IAB service in response to the network controller. The wireless access node detects the wireless IAB service from the neighbor access node and exchanges fault data with the network controller using the wireless IAB service delivered by the neighbor access node. The network controller exchanges the fault data with the wireless access node using the wireless IAB service delivered by the neighbor access node. An Access and Mobility Management Function (AMF) or a User Plane Function (UPF) may detect a lack of signaling or data from the wireless access node to detect the fault.