Apparatuses, systems, and methods for performing efficient emergency services fallback. A cellular network element may provide emergency services fallback information to a wireless device during 3GPP 5GS cellular registration. The emergency services fallback information may include an indication of whether emergency services fallback via fallback to evolved packet core service is supported. The emergency services fallback information may also include an indication of whether emergency services fallback via fallback to circuit switched service is supported.

A communication method of an access and mobility function (AMF) node in a communication system is provided. The communication method includes receiving, from a base station, a registration request message for a terminal, transmitting, to an old AMF previously accessed by the terminal, an information request message for the terminal, and receiving, from the old AMF, an information response message including network slice selection assistance information (NSSAI) corresponding to the terminal.

A communication method of an access and mobility function (AMF) node in a communication system is provided. The communication method includes receiving, from a base station, a registration request message for a terminal, transmitting, to an old AMF previously accessed by the terminal, an information request message for the terminal, and receiving, from the old AMF, an information response message including network slice selection assistance information (NSSAI) corresponding to the terminal.

A process for changing networks for a plurality of wireless devices includes storing in a database current wireless network distribution information for the plurality of wireless devices and storing in the database charge rates for the current wireless network distribution information for the plurality of wireless devices. The process further includes analyzing with the processor the current wireless network distribution information for the plurality of wireless devices and the charge rates for the current wireless network distribution information for the plurality of wireless devices to determine a change in distribution of wireless networks for one or more of the plurality of wireless devices and sending with the processor a command to modify wireless network settings for the one or more of the plurality of wireless devices. A system is disclosed as well.

A process for changing networks for a plurality of wireless devices includes storing in a database current wireless network distribution information for the plurality of wireless devices and storing in the database charge rates for the current wireless network distribution information for the plurality of wireless devices. The process further includes analyzing with the processor the current wireless network distribution information for the plurality of wireless devices and the charge rates for the current wireless network distribution information for the plurality of wireless devices to determine a change in distribution of wireless networks for one or more of the plurality of wireless devices and sending with the processor a command to modify wireless network settings for the one or more of the plurality of wireless devices. A system is disclosed as well.

Restricting mobility between networks by identifying and rejecting incoming mobility events (e.g. handovers) from unknown cell sites based on a cellID included in a handover request. Core network nodes e.g. MME, AMF, SMF, can detect and reject the incoming mobility events by comparing Cell ID with a white list or referring to a database. This improves over current 3GPP specifications and network vendor implementations that support restriction policies on the source but not on the target.

Restricting mobility between networks by identifying and rejecting incoming mobility events (e.g. handovers) from unknown cell sites based on a cellID included in a handover request. Core network nodes e.g. MME, AMF, SMF, can detect and reject the incoming mobility events by comparing Cell ID with a white list or referring to a database. This improves over current 3GPP specifications and network vendor implementations that support restriction policies on the source but not on the target.

Apparatuses, methods, and systems are disclosed for voice session handover. One method (800) includes receiving (802) a handover message including first information indicating a voice handover request to handover a voice session from a first network to a second network. The method (800) includes determining (804) a first network function configured to facilitate communication with the second network. The method (800) includes transmitting (806) a relocation request message to the first network function, wherein the relocation request message includes second information related to the voice handover request. The method (800) includes receiving (808) a relocation response message from the first network function, wherein the relocation response message indicates completion of a voice handover. The method (800) includes transmitting (810) third information related to the voice handover to a third network function, wherein the third network function suspends non-guaranteed bit rate data flows.

Apparatuses, methods, and systems are disclosed for voice session handover. One method (800) includes receiving (802) a handover message including first information indicating a voice handover request to handover a voice session from a first network to a second network. The method (800) includes determining (804) a first network function configured to facilitate communication with the second network. The method (800) includes transmitting (806) a relocation request message to the first network function, wherein the relocation request message includes second information related to the voice handover request. The method (800) includes receiving (808) a relocation response message from the first network function, wherein the relocation response message indicates completion of a voice handover. The method (800) includes transmitting (810) third information related to the voice handover to a third network function, wherein the third network function suspends non-guaranteed bit rate data flows.

This document describes methods, devices, systems, and means for the transfer of radio bearer (RB) configurations from a Fifth Generation (5G) New Radio (NR) base station (121) to an Evolved Universal Terrestrial Radio Access (E-UTRA) base station (122). The 5G NR base station (121) configures an RB configuration to configure an RB for communication of Protocol Data Units between the 5G NR base station (121) and a user equipment (111). The 5G NR base station (121) determines to hand over the user equipment (111) to an Evolved Universal Terrestrial Radio Access (E-UTRA) base station and sends a Handover Request message for the user equipment (111) to the E-UTRA base station (122). The 5G NR base station (121) receives a Handover Request Acknowledge message from the E-UTRA base station (122) and transmits a 5G NR Radio Resource Control (RRC) message including an E-UTRA RRC message to the user equipment (111).