Systems described herein control communication paths used for machine-type communications (MTC) devices in a wireless network. The systems store a subscriber profile for an MTC device, including an APN configuration that differentiates, for non-IP-type communications, types of bearer paths between the MTC device and an ePC network; receive an attach request from the MTC device; retrieve the subscriber profile; and determine if the subscriber profile indicates an APN configuration for a non-IP bearer. When the subscriber profile indicates an APN configuration for a non-IP bearer, the systems identify in the subscriber profile an MTC-ePC delivery mechanism, between the MTC device and the ePC network, as a user plane or a control plane.

Techniques described herein may enable user equipment (e.g., user broadband devices, Internet of Things (IoT) devices, etc.) to connect to different core networks of a wireless telecommunication network. The core networks may support different network services (e.g., Voice over Internet Protocol (VoIP) services, Internet access service, telematics services, Video on Demand (VoD) services, etc.) and a UE may connect be connected to the appropriate core network based on an Access Point Name identifier (APN ID) that the UE may provide to the network (e.g., upon sending a request to connect to the wireless telecommunication network).

Methods and systems for establishing communication sessions between communication endpoints. A method for operating a first communication endpoint having a processor, memory and a transceiver for establishing communication sessions with other communication endpoints includes communicating with a second communication endpoint in a first communication session between the first communication endpoint and the second communication endpoint over a first communication network. The communicating comprises executing a first communication application at the first communication endpoint. The method further includes receiving, at the first communication endpoint, an invitation to establish a second communication session with a third communication endpoint over a communication network, wherein the first mobile communication endpoint is provisioned to handle the second communication session by executing a second communication application at the first communication endpoint. The method further includes processing the received invitation according to a specified call treatment option without interruption of the first communication session.

A plurality of neutral host network (NHN) deployments may share a common evolved packet core (EPC). When a plurality of NHNs share a common EPC, continuity and mobility may be facilitated for a user equipment (UE) when the UE moves between NHNs (e.g., because the NHNs share a common EPC). Accordingly, a UE may perform a tracking area update (TAU) procedure when moving between NHNs that share a common EPC. However, a UE may need to discover whether two NHNs share a common EPC in order to perform a TAU procedure. If the UE discovers that, when moving between a first NHN and a second NHN, the NHNs do not sure a common EPC, the UE may perform an attach procedure.

Methods and systems are provided for establishing dynamic peer-to-peer communications channels between terminals. A connection request for establishing a communications channel between a first terminal and second terminal may be intercepted. The first terminal and the second terminal may be connectable over secured communications channels to a secured network. Based on the intercepted connection request and/or network parameters obtained from the first and the second terminals, the terminals may be instructed to establish a peer-to-peer communications channel over a network distinct from the secured network. Security of the peer-to-peer communications channel may be maintained, such as by use of authentication and/or encryption in one or both of the first terminal and the second terminal.

In one embodiment, a method is provided for customization of a mobile communications device's data session retry mechanism in a wireless packet data service network. The mobile communication device requests activation of a data session with a node via the wireless network and receives a reject message via the wireless network in response to the request for activation of the data session, the reject message including a cause code. If the cause code corresponds to a no-retry behavior of the data session retry mechanism of the mobile communication device, the mobile communications device no longer requesting activation of a data session with the node.

Multiple channels are aggregated. In an example embodiment, first data is transmitted on a first channel to a wireless device, and second data is simultaneously transmitted on a second channel to the wireless device. The first data and the second data are transmitted in a coordinated manner by aggregating the first channel and the second channel. Various example channel characteristics and combinations thereof are described. Different data allocation options for aggregated channels are described. Other alternative implementations are also presented herein.

Methods and systems for associating or pairing a mobile device with a local output device via a central or mobile connect server system are provided. Pairing is performed by initiating a pairing request from an output device that is passed to the mobile connect server for processing. The mobile connect server responds to the request with a pairing code that is displayed by the output device. A user of the mobile device then enters the displayed pairing code in the mobile device. The mobile device transmits the entered pairing code to the mobile connect server and, in response to a match, the mobile device is paired to the output device. Pairing can enable various functions, including an ability to apply stored user preference data to control programming or other information displayed by the output device in response to commands entered in the mobile device.

A method in a radio network node for handling a Device-to-Device, D2D, communication is provided. The D2D communication is wireless, and the radio network node is comprised in a wireless communication system. After receiving (201) from a first user equipment, an indication of resources that are currently available in the first user equipment for D2D communication, the radio network node identifies (202) whether or not the first user equipment currently has capacity for a D2D communication based on the received indication. The resources relates to hardware resources, to combined hardware resources and radio resources, or to combined software resources, hardware resources and radio resources.

A method and system are described for servicing a second line service (“SLS”) based communication request originating from a subscriber's telecommunications device (“TD”) even if the call signal does not include sufficient information to identify the phone number from which the subscriber initiated the call. The method involves associating the SLS phone number of the subscriber, the primary number of the subscriber and the primary number of a third party via a special relationship number.