A mechanism for time domain resource allocation for downlink shared channel, in which the time domain resource is allocated according to CORESET configurations when SS/PBCH block and RMSI CORESET are multiplexed with Type 1, Type 2 or Type 3 pattern.

Disclosed are techniques for calculating a predicted location of a location tracking device. In an aspect, a wireless communications device detects a breach of a geofence made by the location tracking device, receives data representing a state of the location tracking device, the state of the location tracking device comprising at least a current location of the location tracking device and a velocity of the location tracking device, and determines, based on the data representing the state of the location tracking device, the predicted location of the location tracking device.

Disclosed are techniques for calculating a predicted location of a location tracking device. In an aspect, a wireless communications device detects a breach of a geofence made by the location tracking device, receives data representing a state of the location tracking device, the state of the location tracking device comprising at least a current location of the location tracking device and a velocity of the location tracking device, and determines, based on the data representing the state of the location tracking device, the predicted location of the location tracking device.

In one example, a mobile message device may create a message rule to establish a causal relationship between a messaging activity and a device activity or vice versa. A mobile message device may present a message rule user interface to the user to establish a message rule. The message rule user interface may receive from the user a message parameter describing at least one of a message format and a message content of a hypothetical mobile message received in a mobile messaging module. The message rule user interface may receive a response action directive describing a device action to be performed by the mobile message device in response to receiving an incoming mobile message matching the message parameter. The mobile message device may store a message target rule associating the message parameter with the response action directive. The mobile message device may receive the incoming mobile message matching the message parameter. The mobile message device may execute the device action in response to the incoming mobile message according to the response action directive.

Provided is a mechanism capable of reducing a burden on a beam selection procedure on a plurality of frequency bandwidths. A communication device includes: a setting section (151) that performs setting of beam groups defined in a plurality of frequency bandwidths, respectively; and a notification section (153) that notifies a terminal device of information regarding identicalness between the beam groups defined in the frequency bandwidths different from each other.

A method distributes cell-level aggregated data available from a mobile communication network and aggregated at the level of single network cells. The method subdivides a geographic area in geographic area portions, and causes mobile terminals situated in the geographic area to calculate and provide respective geographic position estimates to a data processing system. An overall number of geographic position estimates are distributed by assigning to each geographic area portion a respective number of geographic position estimates. Cell-level aggregated data relating to a network cell is received, and for each network cell, covered geographic area portions are determined. The cell-level aggregated data of the network cell is distributed according to a respective distribution factor. A distribution map of the cell-level aggregated data is generated in which to each of the geographic area portions of the geographic area of interest a respective quota of the cell-level aggregated data is assigned.

A method for processing a wake up signal (WUS) is performed by a UE, which determines a monitoring result of the WUS according to a monitoring strategy, in response to a monitoring time of the WUS at least partially overlapping a receiving time of a paging message, or the monitoring time at least partially overlapping a switching period of uplink and downlink switching. A UE and a base station that implement the method are also disclosed.

Embodiments of the present disclosure provide a method, a user equipment, UE, a network node, and a computer program product for providing multicast and broadcast services, MBS, to one or more User Equipments, UEs, in a wireless communication network. The method is performed by a network node in the wireless communication network. The method comprises determining the one or more UEs in one of: a Radio Resource Control, RRC, IDLE state and a RRC INACTIVE state. The method comprises transmitting a paging message indicating a Point-To- Multipoint, PTM, configuration information to be acquired by the determined one or more UEs for enabling reception of MBS data in one of the RRC IDLE state and the RRC INACTIVE state. Further, the method comprises transmitting the MBS data to the determined one or more UEs using a PTM configuration indicated by the PTM configuration information.

Corresponding base station, UE, and computer program products are also disclosed.

A method is disclosed of paging a user equipment (UE) by a network node. The network node is configured for beam-formed transmission of a plurality of beams, wherein each beam is associated with a corresponding synchronization signal block (SSB), and wherein a physical downlink control channel (PDCCH) paging monitoring occasion (PMO) is associated with a preceding SSB. The method comprises determining (while the UE is in a non-connected mode) a subset of the plurality of beams related to one or more beams previously associated with the UE, transmitting the corresponding SSB for each beam of the plurality of beams, and paging the UE only in PDCCH PMO:s associated with the corresponding SSB:s of the beams of the subset. Corresponding apparatus, network node and computer program product are also disclosed.

A method and apparatus are disclosed. In an example from the perspective of a User Equipment (UE), the UE receives an indication from a base station, wherein the indication is indicative of monitoring a power saving signal in one or more monitoring occasions and at least one monitoring occasion of the one or more monitoring occasions is associated with a Discontinuous Reception (DRX) ON duration and is within Active Time associated with the UE. The UE does not monitor and/or skips monitoring the power saving signal in the at least one monitoring occasion. The UE monitors Physical Downlink Control Channel (PDCCH) during the DRX ON duration.