According to an example aspect of the present invention, there is provided a method comprising: monitoring at least one paging identifier in a first radio resource control state, in which first radio resource control state a radio resource configuration is maintained for the user equipment; transitioning from the first radio resource control state to a second radio resource control state; and monitoring at least two different paging identifiers in the second radio resource control state.

According to an example aspect of the present invention, there is provided a method comprising: monitoring at least one paging identifier in a first radio resource control state, in which first radio resource control state a radio resource configuration is maintained for the user equipment; transitioning from the first radio resource control state to a second radio resource control state; and monitoring at least two different paging identifiers in the second radio resource control state.

A method for skipping paging detection is performed by a terminal, and includes: acquiring paging detection instruction information, the paging detection instruction information indicates to skip the paging detection of at least one paging opportunity period; and in response to the paging detection instruction information, skipping the paging detection of the at least one paging opportunity period.

A method for skipping paging detection is performed by a terminal, and includes: acquiring paging detection instruction information, the paging detection instruction information indicates to skip the paging detection of at least one paging opportunity period; and in response to the paging detection instruction information, skipping the paging detection of the at least one paging opportunity period.

A method performed by a first network function. The method comprises receiving from a second network function a first message indicating that a core network needs to signal with a wireless device in delivering a service to said wireless device. The service is delivered via a network slice. The method also comprises determining an identifier of the network slice associated with the service and determining a connection management state, CM-state, of the wireless device. Further, the method comprises sending a second message in response to said first message, wherein said second message is based on said CM-state and said identifier of the network slice associated with the service.

A method performed by a first network function. The method comprises receiving from a second network function a first message indicating that a core network needs to signal with a wireless device in delivering a service to said wireless device. The service is delivered via a network slice. The method also comprises determining an identifier of the network slice associated with the service and determining a connection management state, CM-state, of the wireless device. Further, the method comprises sending a second message in response to said first message, wherein said second message is based on said CM-state and said identifier of the network slice associated with the service.

A method may include monitoring, by a user equipment, a first wake up signal prior to a paging occasion during a discontinuous reception cycle. The method may also include decoding a physical down-link control channel based on the paging occasion in response to detecting the first wake up signal. The method may also include determining that the decoding failed. The method may further include switching to a common paging occasion to decode the physical downlink control channel after determining that the decoding failed.

A method may include monitoring, by a user equipment, a first wake up signal prior to a paging occasion during a discontinuous reception cycle. The method may also include decoding a physical down-link control channel based on the paging occasion in response to detecting the first wake up signal. The method may also include determining that the decoding failed. The method may further include switching to a common paging occasion to decode the physical downlink control channel after determining that the decoding failed.

The present disclosure is related to automatically, based on contextual information and without needing explicit input from a user, modifying one or more settings associated with presenting a notification. In examples, settings may include automatically suspending notification presentation or automatically overriding a notification setting that suspends notification presentation. In addition, contextual information may include, among other things, information related to a computing device (e.g., device location or network signal strength), a rate of user interaction or engagement with an application (e.g., rate of information sharing, user reactions, etc.), and/or a calendar or schedule of a user. In examples, the contextual information may be analyzed (e.g., based on comparison to a threshold) to determine whether a condition is met, and based on the analysis, the one or more settings may be modified.

A more efficient over-the-air software push can be facilitated by a firmware over-the-air (FOTA) server device in communication with a home subscriber server (HSS). For example, the FOTA server can host the names of user equipment devices that are due for a FOTA update. When a user equipment device identification is received from the HSS, the FOTA server can then check the user equipment device identification against the names within the server. If the name is found, then the system can send discontinuous reception data to the user equipment device to modify a current discontinuous reception value of the user equipment device. Thus, the modified discontinuous reception value can prompt a long reception time of the user equipment device such that the user equipment device can receive the FOTA.