Systems and methods for allowing a subscriber to opt-out of targeted digital advertisements are provided. In one implementation, a mobile network operator operations support system server receives an input from a subscriber, the input comprising an account number and a stable network-level identifier. The server then causes a message to be sent to the mobile device along with a URL based on the input from the subscriber. The server receives a beacon that is generated when the subscriber visits the website, and sends a message to a mobile analytics platform server indicating a preference on whether the subscriber wants to receive targeted digital advertisements.

Intelligent systems for detecting SIM swap in mobile devices, wherein if a user requests access to an account via a mobile device, a mobile device application (MDA) sends the request along with mobile device ID and IMSI. If all information received from the MDA matches information stored in memory, the user can access the account. If the mobile device ID or IMSI received from the MDA do not match the mobile device ID or IMSI stored in memory, a social intelligence module compares a mobile device user profile with a profile for a user associated with the account ID. If the mobile device user profile matches or is within a confidence level of the profile for the user associated with the account ID, the user can access the account. Otherwise, additional methods to validate the user may be implemented to prevent possible fraudsters from accessing the account.

The present disclosure relates to a method and a device for controlling congestion in a mobile communication system. A method for controlling congestion of a network node according to the present disclosure comprises the steps of: receiving congestion-related information from at least one base station; transmitting a user equipment information request message for making a request for information on a piece of user equipment corresponding to the base station to a mobility management entity; receiving a user equipment information response message including the information on the user equipment corresponding to the base station from the mobility management entity; and transmitting the information on the piece of user equipment corresponding to the base station to another core network node.

Some embodiments relate to methods and systems for initiating and transferring cellular subscription service using associated cellular communication devices. Cellular service may be initiated for a first cellular communication device via a second cellular communication device. The first cellular communication device may be provisioned to operate in an independent mode. In other scenarios, cellular service may be transferred from the first cellular communication device operating in independent mode to a third cellular communication device, which may be provisioned to operate in independent mode.

Systems and methods are disclosed for a 3G gateway. In a first embodiment, a method is disclosed for a network, comprising: receiving a relocation request message at a home nodeB gateway (HNBGW), the HNBGW coupled to an operator core network, the relocation request message including a target super cell identifier and a user equipment (UE) identifier; sending a second relocation request message from the HNBGW to a coordinating node, the coordinating node having as its identifier the target super cell identifier; querying a lookup table at the coordinating node using the UE identifier to determine a target cell identifier; replacing, in the second relocation request message, the target super cell identifier with the target cell identifier to create a third relocation request message; and sending the third relocation request message to a target cell identified by the target cell identifier.

A first subscriber identification module (SIM) of a dual SIM device is connected to a network. A small cell is informed that the dual SIM device is a dual SIM-type device and a first radio frequency device of the dual SIM device is attached to the network. A second radio frequency device of the dual SIM device is attached to the network. The small cell is configured to treat a second SIM as a control SIM and to treat the first SIM a data SIM. User data is transferred to the first radio frequency device, a control channel switch command is sent to the dual SIM device, and control information is transferred to the second radio frequency device.

A wireless device identification system including one or more sensors each having at least one software defined radio to receive signals transmitted between one or more wireless devices and a mobile wireless device, one or more processors, and one or more memory devices. The one or more memory devices having stored thereon instructions that when executed by the one or more processors cause the one or more processors to capture cellular information, Wi-Fi information, Bluetooth information, and local network information from the received signals. The instructions can include correlating the captured information to the mobile wireless device by creating a weighted edge relationship graph having a plurality of nodes, including a node corresponding to each of the cellular information, the Wi-Fi information, the Bluetooth information, and the local network information, and determining an association strength between each node of the relationship graph.

A method performed by a network node for managing transmission of one or more CRS subframes. The network node identifies if a cell is actively serving a set of UEs. When the cell is actively serving a set of UEs, which set of UEs is configured for DRX the network node sends CRS over the first bandwidth in one or more CRS subframes which are transmitted in the cell during an onDuration interval of the DRX pattern and/or in one or more CRS subframes where system information is sent and/or in one or more CRS subframes where downlink, DL, data is sent. The network node sends CRS over a second bandwidth, in CRS subframes which are not transmitted in the cell during the onDuration interval of the DRX and/or in the one or more CRS subframes except CRS subframes where system information is sent and/or in the one or more CRS subframes except CRS subframes where DL data is sent, which second bandwidth is reduced in relation to the first bandwidth.

A method for an interconnection functionality between a first mobile communication network and a second mobile communication network includes: associating or assigning private identifier information to specific public land mobile network (PLMN) identifier information related to the second mobile communication network; and in respect of signalling messages and/or data traffic packets that are to be routed or to be addressed or to be processed, providing for or supporting, by a network identifier and number translating functionality, a replacement and/or a translation, in both directions, between the private identifier information and the specific PLMN identifier information related to the second mobile communication network.

A communications management system for implementing a freeze on electronic transactions. For example, a device management system provides a means of preventing the porting of at least one communication device account—such as a cellular phone number—from one carrier to another through a list of identifiers that include phone numbers, device identifiers, or personal identifiers that have been enrolled in the device management system through an interface by an authorized user. Advantageously, the device management system provides a revision to the existing phone porting architecture and enables fraud detection and prevention.