A method, performed by a first node (111), for handling subscriptions in a communications network (100). The first node (111) operates in the communications network (100). The first node (111) sends (303), to a second node (112), a first indication. The first indication requests subscription to report new accessibility for a device (140) to a second domain different than a first domain currently accessible by the device (140). The first node (111) receives (304) a second indication from the second node (112). The second indication indicates the new accessibility by the device (140) to the second domain. A fifth node (115) receives (501), from the first node (111), a fifth indication indicating a notification of an event by the device (140) after the new accessibility has been enabled. The fifth indication is received based on a previous indication sent by the fifth node (115) prior to the new accessibility has been enabled.

A network device receives a definition for a data product of consumer Internet-of-Things (IoT) data and registers multiple machine-type communications (MTC)-devices for collection of consumer IoT data. The MTC devices provide the consumer IoT data with heterogeneous formats. The registering identifies a profile for each MTC device and particular data types authorized for collection. The network device receives consumer IoT data generated by the multiple MTC devices and extracts the particular data types from the IoT data. The network device normalizes the extracted data to include a uniform data format, and aggregates the normalized IOT data into clusters that exclude device identifiers. The network device constructs the clusters into a data portfolio that meets the definition for the data product.

A mobile emergency response network may be utilized to respond to emergencies. Emergency response resources may be selected and deployed through the use of network communications between user equipment and network elements. In an example configuration, a mobile emergency response network may receive emergency data, determine an emergency is occurring, determine a resource requirement for the emergency, identify a mobile device associated with a user who meets the resource requirement, and send a request to the mobile device.

A mobile emergency response network may be utilized to respond to emergencies. Emergency response resources may be selected and deployed through the use of network communications between user equipment and network elements. In an example configuration, a mobile emergency response network may receive emergency data, determine an emergency is occurring, determine a resource requirement for the emergency, identify a mobile device associated with a user who meets the resource requirement, and send a request to the mobile device.

The embodiments described herein relate generally to a method and system for using mobility management entity (MME) or Serving GPRS Support Node (SGSN) pooling features depending on whether it is a 3G or 4G network and adding an enhancement in the User Equipment (UE) whereby it uses location information (e.g., broadcast Public Land Mobile Network Identity (PLMN ID), Tracking Area (TA), Cell Identification, Global Positioning System (GPS) coordinates or the like) to decide from which MME or SGSN it should obtain services.

The application relates to the integration of WLAN access networks into cellular communication networks, often referred to as “Non-3GPP Access” in 3GPP standardization, in particular TS 23.402. Location information, such as SSID, WLAN access point name, WLAN access point identifier, WLAN access point MAC address is currently not available for GTP based S2a nor GTP based S2b, and neither for the Gn interface nor for PMIPv6 based S2a. However, Location information is needed in the PGW/GGSN for multiple purposes, e.g. for policy enforcement, charging and lawful interception. This problem is solved by the application in that the missing information is included in a protocol message of the cellular communications system, in particular a GTPv1, GTPv2 or PMIPv6 signalling message, and communicated (S2) to the cellular communications system. Furthermore, an event trigger, similar to event triggers on the Gx interface which may be set by the PCRF, may be set by the PCRF/OCS in the WLAN (S4, S5) to request up-to-date location information (S6, S7, S8).

The application relates to the integration of WLAN access networks into cellular communication networks, often referred to as “Non-3GPP Access” in 3GPP standardization, in particular TS 23.402. Location information, such as SSID, WLAN access point name, WLAN access point identifier, WLAN access point MAC address is currently not available for GTP based S2a nor GTP based S2b, and neither for the Gn interface nor for PMIPv6 based S2a. However, Location information is needed in the PGW/GGSN for multiple purposes, e.g. for policy enforcement, charging and lawful interception. This problem is solved by the application in that the missing information is included in a protocol message of the cellular communications system, in particular a GTPv1, GTPv2 or PMIPv6 signalling message, and communicated (S2) to the cellular communications system. Furthermore, an event trigger, similar to event triggers on the Gx interface which may be set by the PCRF, may be set by the PCRF/OCS in the WLAN (S4, S5) to request up-to-date location information (S6, S7, S8).

Systems, methods, apparatus and mechanisms for deriving user device location information by exploiting existing voice and/or data capabilities within the Radio Access Network (RAN) layer of a 4G or 3G wireless network, and offering the derived user device location information to network optimization functions, application and/or service providers via an application programming interface (API).

Systems, methods, apparatus and mechanisms for deriving user device location information by exploiting existing voice and/or data capabilities within the Radio Access Network (RAN) layer of a 4G or 3G wireless network, and offering the derived user device location information to network optimization functions, application and/or service providers via an application programming interface (API).

A machine type communication (MTC) gateway device is operable to provide usage type information to a 3GPP network entity and an application out of the 3GPP network. The disclosed MTC gateway device and base station provide an enhanced monitoring response with an enhanced positioning granularity to a position monitoring request. Exposure of usage type and subscription information associated with a user equipment (UE) device is a first step to virtual network function and network slice related provisioning and dedicated core network related provisioning for the UE device. Providing UE usage type through a network exposure function to a third party application enables the third party application to adapt for the usage type.