A method for providing incentives based on geolocation of mobile devices. The method includes storing, by a server, data including merchant information of merchants and points of interest, and associated incentive information. The method includes determining, based on communication with user's device of a user, a first location of the mobile device. The method includes determining, based on the first location, a first subset of merchants and associated first subset of incentives. The method includes communicating merchant data, including information on the first subsets of merchants and incentives, to the mobile device. The method includes communicating to the mobile device, in response to a determination that the mobile device is inside a geofence associated with at least one of the first subset of merchants, additional information on the at least one of the first subset of merchants, the additional information comprising one or more related incentives.

A method of establishing a network connection between a subscriber device and a network server having a server processor matching a device processor of the subscriber device. The method comprises receiving a processor matching message (PMM) by an Exposure Function (EF) executing on a computer system, where the PMM comprises a request for a network service and an EF attribute representing an identity of a device processor of a subscriber device, determining by the EF the existence of a matching network server offering the requested network service and having a server processor with an identity matching the identity of the device processor, and based on the determination that the matching network server exists, establishing by the EF a connection between the matching network server and the subscriber device.

A method of establishing a network connection between a subscriber device and a network server having a server processor matching a device processor of the subscriber device. The method comprises receiving a processor matching message (PMM) by an Exposure Function (EF) executing on a computer system, where the PMM comprises a request for a network service and an EF attribute representing an identity of a device processor of a subscriber device, determining by the EF the existence of a matching network server offering the requested network service and having a server processor with an identity matching the identity of the device processor, and based on the determination that the matching network server exists, establishing by the EF a connection between the matching network server and the subscriber device.

Techniques for location tracking, location utilization, and dissemination and management of location information are disclosed. As a location monitoring system, one embodiment includes at least a plurality of mobile computing devices supported by a wireless network, and a computing device coupled to a wired network (e.g., the Internet) that couples to the wireless network. Each of the mobile computing devices is associated with and proximate to an object whose location is being monitored. The computing device stores the locations of each of the mobile computing devices or the objects proximate thereto, and enables only authorized users to obtain access the locations via the wired network.

Techniques for location tracking, location utilization, and dissemination and management of location information are disclosed. As a location monitoring system, one embodiment includes at least a plurality of mobile computing devices supported by a wireless network, and a computing device coupled to a wired network (e.g., the Internet) that couples to the wireless network. Each of the mobile computing devices is associated with and proximate to an object whose location is being monitored. The computing device stores the locations of each of the mobile computing devices or the objects proximate thereto, and enables only authorized users to obtain access the locations via the wired network.

A network device receives a location update message from a mobile network switch. The location update message indicates that a mobile device is registered with the mobile network switch. The location update message includes an international mobile subscriber identity (IMSI) associated with the mobile device. The network device determines, based at least on the IMSI, a plurality of MSISDNs associated with the mobile device, including a first MSISDN that is enabled for calling and a second MSISDN that is not enabled for calling. The network device transmits, in response to the location update message, subscriber data to a database associated with the mobile network switch, which associates the IMSI with the first MSISDN.

A network device receives a location update message from a mobile network switch. The location update message indicates that a mobile device is registered with the mobile network switch. The location update message includes an international mobile subscriber identity (IMSI) associated with the mobile device. The network device determines, based at least on the IMSI, a plurality of MSISDNs associated with the mobile device, including a first MSISDN that is enabled for calling and a second MSISDN that is not enabled for calling. The network device transmits, in response to the location update message, subscriber data to a database associated with the mobile network switch, which associates the IMSI with the first MSISDN.

A method performed by a vehicle. The method includes the vehicle receiving information from a server. The method also includes, based on the information from the server, the vehicle configuring itself such that a device is able obtain from the vehicle operational status information indicating an operational status of the vehicle. The method also includes, after configuring itself, the vehicle receiving an operational status request from the device. The method also includes, after receiving the operational status request from the device, the vehicle sending an operation status response comprising the operational status information indicating an operational status of the vehicle.

Certain aspects of the present disclosure relate to methods and apparatus for enhanced user equipment (UE) capability exchange for transitioning a connection from a first radio access technology system to a second radio access technology system. An exemplary method performed by a UE includes communicating with a first base station (BS) via a connection of a first radio access technology (RAT), determining, based on the first RAT, to omit a set of capabilities of the UE from capabilities information of the UE regarding a second RAT, transmitting the capabilities information of the UE regarding the second RAT to the first BS via the first RAT, communicating with a second BS via the second RAT according to the capabilities information, and sending an update of the capabilities information of the UE regarding the second RAT via the second RAT.

One aspect of the disclosure relates to a method for providing a service to a user equipment connected to a first operator network. The second operator network comprises a register containing subscription information of the user equipment. The method comprises a number of steps. One of these steps is receiving from the first operator network a service request of the user equipment, the service request being associated with the service. Another step is obtaining a service-deployment-specification for the second operator network comprising at least one network function associated with the service on the basis of the service request. Yet another step is converting the service-deployment-specification for the second operator network into a generic specification, the generic specification enabling execution of the at least one network function in the first operator network for providing the service to the user equipment. Yet another step is transmitting the generic specification to the first operator network. The invention further relates to systems and nodes in the first and second operator network, and to a computer program product for performing methods for providing the service.