Abstract: Systems and methods are described herein for providing a telecommunications network, such as a wireless network, LTE (Long Term Evolution) network, and so on, with blockchain nodes, agents, or sub-nodes. The blockchain nodes enable network components to access and maintain a blockchain for the network, such as a distributed ledger that tracks actions, activities, or other transaction associated with the telecommunications network.

Abstract: Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for detecting modified media are disclosed. In one aspect, a method includes the actions of receiving an item of media content. The actions further include providing the item as an input to a model that is configured to determine whether the item likely includes audio of a user's voice that was not spoken by the user or likely includes video of the user that depicts actions of the user that were not performed by the user. The actions further include receiving, from the model, data indicating whether the item likely includes audio of the user's voice that was not spoken by the user or includes video of the user that depicts actions of the user that were not performed by the user. The actions further include determining whether the item likely includes deepfake content.

Abstract: An example acoustic detector includes an acoustic transducer, an analog-to-digital converter, an encryption module, and a wireless communication interface. The acoustic transducer is to be coupled to a solid medium and is configured to generate an electrical signal in response to acoustic waves propagating through the solid medium. The analog-to-digital converter is coupled to the acoustic transducer to convert the electrical signal into digital acoustic data. The encryption module is coupled to encrypt the digital acoustic data to generate encrypted acoustic data and the wireless communication interface is coupled to transmit the encrypted acoustic data via one or more radio access technologies (RATs).

Abstract: A method of searching for missing objects by gathering images from an array of cameras in a wireless communication network. The method includes receiving, at an image server via the wireless communication network, images from the array of cameras, which are communicatively coupled to the wireless communication network. The method further includes receiving, at the server from a third party via the wireless communication network, (i) a reference image, wherein the reference image includes an object of interest, and (ii) a request as to whether the object of interest is present in any of the images. The images are analyzed with respect to the reference image to determine if any of the images include the object of interest.

Abstract: Systems and methods for authenticating users to operate a vehicle are disclosed. The system can receive biometric data from a sensor on user equipment (UE) or a sensor installed in the vehicle. The system can also receive location data from the UE and the vehicle. The biometric data can be compared to stored biometric data for one or more authorized users. The location data of the UE and the location data of the vehicle can be compared to determine the proximity thereof. When the biometric data matches at least one biometric profile in the stored biometric data and the UE location data is within a predetermined distance of the vehicle location data, the user can be authenticated to operate the vehicle. The system can also detect risky driving behavior and assume control of the vehicle or report the behavior to authorities.

Abstract: A method for virtual subscriber identity module (SIM) sharing. The method can include a service provider receiving a request including service details from a first UE. The service provider can verify the request and then generate a first SIM over-the-air (OTA) message. The first virtual SIM-OTA message can be sent to the first UE and causes the first UE to dynamically provision a virtual SIM. The service provider can also generate and transmit a first unique identifier to the first UE. The method can further include the service provider receiving a second unique identifier from a second UE. After determining the first unique identifier matches the second unique identifier, the service provider can generate and transmit a second SIM-OTA message to the second UE. The service provider can then provide the service to the first UE and second UE according to the service details.

Abstract: Outgoing communications from a user device are monitored following a notification that an application is installed on a user device. When a number of the outgoing communications to a premium-rate number during a predetermined period of time exceeds a corresponding quantity threshold, the pattern of the outgoing communications may be ascertained to be anomalous. A user device is directed to present a prompt that requests an input as to whether the outgoing communications are authorized. In response to a first input that the outgoing communications are unauthorized, additional outgoing communications from the user device to the premium-rate number are blocked for a predesignated amount of time. Further, the first input is stored as a corresponding vote that the application is malicious. In response to a second input that the outgoing communications are authorized, the second input is stored as a corresponding vote that the application is non-malicious.

Abstract: A video stream from a user device that is destined for a recipient device is received at a core network of a wireless carrier network. The video stream has a video quality that at least meets a quality threshold for behavioral biometric analysis. A determination of whether a video privacy policy for the user device permits transmission of the video stream of the video quality to the recipient device is made. In response to the video privacy policy not permitting the transmission of the video stream of the video quality, the video quality of the video stream is downgraded to generate a downgraded video stream that prevents behavioral biometric analysis for transmission to the recipient device. However, in response to the video privacy policy permitting the transmission of the video stream of the video quality, the video stream of the video quality is transmitted to the recipient device.

Abstract: A method for dynamically provisioning virtual subscriber identity modules (SIMS) to enable a user equipment (UE) to use a service from a service provider. The method can include a UE transmitting a user request to a virtual SIM marketplace. The virtual SIM marketplace can receive a plurality of service offers from a plurality of service providers. The virtual SIM marketplace can match details in the user request with offers made by the plurality of service providers. When a match is found, the virtual SIM marketplace can send user information from the user request to the matching provider. The provider can then send a SIM over-the-air (OTA) message to the UE. The UE can use the SIM-OTA message to enable the UE to provide a user device service on the provider's network.

Abstract: A data broker platform may store one or more data sharing preference settings of a subscriber for the subscriber data of the subscriber in a corresponding subscriber preference record of a subscriber preference blockchain ledger. The platform may further store one more access policy settings with respect to the subscriber data in a corresponding access configuration record of an access configuration blockchain ledger. The platform may receive a data request from a computing device of a third-party entity to access a set of subscriber data of the subscriber. Accordingly, the platform may provide the computing device of the third-party entity with access to the set of subscriber data when the platform determines using records in the subscriber preference blockchain ledger and the access configuration blockchain ledger that the third-party entity is permitted to access the set of subscriber data.

Abstract: Systems and methods are described herein for providing a telecommunications network, such as a wireless network, LTE (Long Term Evolution) network, and so on, with blockchain nodes, agents, or sub-nodes. The blockchain nodes enable network components to access and maintain a blockchain for the network, such as a distributed ledger that tracks actions, activities, or other transaction associated with the telecommunications network.

Abstract: Technologies for using edge devices in a cellular network as compute nodes to participate in a blockchain network are described. A cellular network may provision one or more edge devices in communication with the cellular network to instantiate a virtual machine on the edge device to act as a compute node. The cellular network may submit a bid to solve a blockchain hash function using the compute nodes and may instruct the edge to solve the blockchain hash function.

Abstract: A wireless carrier network is used to access data indicative of geographic locations and charging capabilities of a plurality of devices embedded in a roadway infrastructure configured to inductively charge electrical vehicles while the electrical vehicles are traversing the roadway infrastructure. Location tracking information is determined for an electrical vehicle and a probable travel path of the electrical vehicle on the roadway infrastructure. Charging settings for conditions during which the electrical vehicle should be charged is determined. A charging plan for when and where to charge the electrical vehicles generated based on the charging settings, a charging model, the location tracking information for the electrical vehicle, and the charging capabilities of the plurality of embedded devices.

Abstract: A network provider implements network slicing. Network instances are instantiated on a communication network that are configured to provide a configured set of services that are accessible to a controlled set of devices. When a first device is either registered or authenticated with the communication network or has entered a service area, a service profile is identified and analyzed. In response to determining that the service profile matches a configured set of services for one of the instantiated network instances, the first device is enabled to access the matching instantiated network instance.

Abstract: In a 4G LTE wireless carrier network, network slice instances are instantiated that are configured to provide a configured set of services that are accessible to a controlled set of user devices. A service profile for a user device is identified and analyzed. When the service profile matches a configured set of services for one of the instantiated network slice instances, the user device is enabled to access the matching instantiated network instance. The provisioning of the network slice instances is performed by a dedicated node.

Abstract: This disclosure describes techniques that permit a user of a client device to authenticate their identity to a service provider using location-based telemetry data associated with the client device that is captured unobtrusively by a service provider over a predetermined time interval. More specifically, a Location-based identity authentication (LIA) system is described that is configured to develop authentication challenges that are based on the location-based telemetry data, such as location data, transaction data, calendar data, and event data. In one example, a client device may transmit an authentication request that relates to a set of service features available to a user identity. The LIA system may transmit a subset of the authentication challenges to the client device to authenticate the user identity. The LIA system may further receive to the subset of authentication challenges, and further, verify the user identity based at least in part on the number of correct responses.

Abstract: A network provider implements network slicing. Each network slice instance is configured to provide a configured set of services that are associated with controlled access to a set of user devices. An access profile for a first user device is identified and analyzed. In response to determining that the access profile matches security capabilities of a configured set of services for one of the instantiated network instances, the first user device is enabled to securely access the matching instantiated network instance.

Abstract: Systems and methods are described herein for configuring vehicles and infrastructure (e.g., buildings, smart homes, traffic devices, utilities and associated systems, emergency response systems, and so on) to include blockchain nodes, so a smart city or area of the various devices can be supported by a blockchain network, with some or all devices and systems provisioned with nodes acting as distributed nodes for the blockchain network.

Abstract: A method for dynamically provisioning virtual subscriber identity modules (SIMs) to enable a user equipment (UE) to use a service from a service provider. The method can include a UE transmitting a user request to a virtual SIM marketplace. The virtual SIM marketplace can receive a plurality of service offers from a plurality of service providers. The virtual SIM marketplace can match details in the user request with offers made by the plurality of service providers. When a match is found, the virtual SIM marketplace can send user information from the user request to the matching provider. The provider can then send a SIM over-the-air (OTA) message to the UE. The UE can use the SIM-OTA message to enable the UE to provide a user device service on the provider's network.

Abstract: A method for virtual subscriber identity module (SIM) sharing. The method can include a service provider receiving a request including service details from a first UE. The service provider can verify the request and then generate a first SIM over-the-air (OTA) message. The first virtual SIM-OTA message can be sent to the first UE and causes the first UE to dynamically provision a virtual SIM. The service provider can also generate and transmit a first unique identifier to the first UE. The method can further include the service provider receiving a second unique identifier from a second UE. After determining the first unique identifier matches the second unique identifier, the service provider can generate and transmit a second SIM-OTA message to the second UE. The service provider can then provide the service to the first UE and second UE according to the service details.