Abstract: Described herein are techniques for receiving an alert associated with an entity and dynamically determining, based on the alert and on substantially real-time attributes for the entity, a geographically dispersed group in which each member of the geographically dispersed group either is a device associated with the entity or shares at least one attribute with the entity. The techniques further include requesting information about the entity from the geographically dispersed group, receiving information from at least a subset of the group, and taking action responsive to the alert based on the received information.

Abstract: Techniques to optimize quality of service and quality of user experience for multi-media mobile applications are described. A traffic detection component detects the video and audio data components of a video call. Detection may be via a modified traffic detection component or via a software quality of service component exposing traffic detection component functionality to a multi-media application via an application programming interface. Based on available bandwidth for a session of the multi-media application and heuristics, video and audio data components may be placed in different contexts with different priorities. In the specific case of a video call, the video and audio data components are each associated with a quality of user experience threshold, which when available bandwidth fails to meet those thresholds, an optimizing heuristic to trigger the traffic detection component to change contexts and priorities of the video and audio data components.

Abstract: A method of verifying IMEIs and chipset S/Ns of devices within a wireless communication network. The method comprises receiving a request from a device to access the wireless communication network and receiving an international mobile equipment identity (IMEI) and serial number (S/N) from the device, wherein the IMEI and S/N are included on a chipset of the device, and wherein the S/N is the S/N for the chipset. The method further comprises comparing the IMEI and S/N with a database to confirm the authenticity of the IMEI and S/N. Based upon the authenticity of the IMEI and S/N, the request is either granted or not granted for the device to access the wireless communication network.

Abstract: A method of accessing a wireless communication network using secure voice print authentication. The method includes receiving a request from a mobile device at a gateway of the wireless communication network for service on the wireless communication network. A voice print is obtained at the gateway from a user using the mobile device. The voice print is compared by the gateway with a primary voice print, wherein the primary voice print is associated with a voicemail account at the wireless communication network, and wherein the voicemail account is associated with a primary user of the mobile device. Based upon comparing the voice print with the primary voice print, the service may be provided to the mobile device on the wireless communication network.

Abstract: Described herein are techniques for receiving an alert associated with an entity and dynamically determining, based on the alert and on substantially real-time attributes for the entity, a geographically dispersed group in which each member of the geographically dispersed group either is a device associated with the entity or shares at least one attribute with the entity. The techniques further include requesting information about the entity from the geographically dispersed group, receiving information from at least a subset of the group, and taking action responsive to the alert based on the received information.

Abstract: Techniques to optimize quality of service and quality of user experience for multi-media mobile applications are described. A traffic detection component detects the video and audio data components of a video call. Detection may be via a modified traffic detection component or via a software quality of service component exposing traffic detection component functionality to a multi-media application via an application programming interface. Based on available bandwidth for a session of the multi-media application and heuristics, video and audio data components may be placed in different contexts with different priorities. In the specific case of a video call, the video and audio data components are each associated with a quality of user experience threshold, which when available bandwidth fails to meet those thresholds, an optimizing heuristic to trigger the traffic detection component to change contexts and priorities of the video and audio data components.

Abstract: A remote location monitoring arrangement within a wireless communication network. The monitoring arrangement comprises a tracking device for securing to an object. The monitoring arrangement further comprises one or more sentinel devices arranged within at least one of (i) around a boundary area or (ii) within the boundary area, wherein the boundary area is an area in which a user wishes the object to remain. The monitoring arrangement also comprises a monitoring device in communication with at least one of (i) the one or more sentinel devices or (ii) the tracking device such that at least one of (i) at least one of the one or more sentinel devices or (ii) the tracking device alerts the monitoring device over the wireless communication network that (i) the tracking device has left the boundary area or (ii) another object has entered the boundary areas.

Abstract: A telecommunication carrier may stitch data from multiple sources to support device automation and access control. A state may be assigned to a user of a user device at a telecommunication carrier based on a data stitch of information from multiple data sources. The data sources may include data on a geolocation of the user device. The state may be provided to a rules engine at a remote location via a carrier network of the telecommunication carrier. An indication from the rules engine that the user device is granted or denied access to one or more entities at the location based on the state may be received via the carrier network at the telecommunication carrier. In turn, the telecommunication carrier may provide the indication of the granted or denied access to the user device of the user.

Abstract: A method of verifying IMEIs and chipset S/Ns of devices within a wireless communication network. The method comprises receiving a request from a device to access the wireless communication network and receiving an international mobile equipment identity (IMEI) and serial number (S/N) from the device, wherein the IMEI and S/N are included on a chipset of the device, and wherein the S/N is the S/N for the chipset. The method further comprises comparing the IMEI and S/N with a database to confirm the authenticity of the IMEI and S/N. Based upon the authenticity of the IMEI and S/N, the request is either granted or not granted for the device to access the wireless communication network.

Abstract: Video calling devices are described herein that are configured to exchange video presence statuses with each other. Each of these video calling devices determines its presence status based at least on its network connection type, its login status for a video calling service, and its camera status and provides the presence status to the video calling service. Each video calling device also receives presence statuses of other video calling devices. This exchange of presence statuses enables initiation of video calls between the video calling devices.

Abstract: A user device implements a certificate authority for issuing digital certificates that extend to other computing devices a level of trust to a particular user paired with the user device. The user device may obtain user persona information, generate a user key, and combine the user key with a device key for the generation of a digital certificate. The computing device may further transmit the digital certificate to a certificate management system, which manages interactions between other computing devices and the user device or authorizes operation of other computing devices by the particular user based on the digital certificate.

Abstract: A user device implements a certificate authority for issuing digital certificates that extend to other computing devices a level of trust to a particular user paired with the user device. The user device may obtain user persona information, generate a user key, and combine the user key with a device key for the generation of a digital certificate. The computing device may further transmit the digital certificate to a certificate management system, which manages interactions between other computing devices and the user device or authorizes operation of other computing devices by the particular user based on the digital certificate.

Abstract: Wearable electronic devices configured to connect to cellular network(s) via radio transceiver(s) and methods of using such devices are described herein. These wearable electronic devices receive data from a sensor and transmit the data or a notification regarding the data via the radio transceiver. The wearable electronic devices can also provide feedback to the user regarding the data collected, or regarding indications received via the radio transceiver from a third party provider, including a cloud service. Further, the wearable devices may be customizable such that additional functionality may be added by downloading additional software applications and/or by the addition of physical modules, such as those containing additional sensors.

Abstract: A method of selecting a virtual machine (VM) on a mobile device within a wireless communication network based upon context of an incoming event. For example, a virtual intelligence engine can select a VM to handle an incoming phone call based upon the context of the phone call. If the phone call is work-related, then the virtual intelligence engine may select a first VM, while if the incoming phone call is a personal phone call, then the virtual intelligence engine may select a second VM different from the first VM. The VMs can utilize different operating systems.

Abstract: Systems and processes that may be implemented to maintain an up-to-date communication bridge between an Internet-of-Things (IoT) physical network and a cellular telecom network are described herein. The systems and processes may eliminate an incompatibility of a hub device with physical layer technologies (PLTs), e.g. 4G or 5G technology, or various IoT protocols. The hub device may include one or more FPGAs that are configured to facilitate communication using one or more PLTs and/or IoT protocols. The hub device may receive information corresponding to different PLTs and/or IoT protocols, e.g. that the hub device is currently incompatible with, and may reprogram one or more of the FPGAs based on this information to eliminate such incompatibilities.

Abstract: Wearable electronic devices configured to connect to cellular network(s) via radio transceiver(s) and methods of using such devices are described herein. These wearable electronic devices receive data from a sensor and transmit the data or a notification regarding the data via the radio transceiver. The wearable electronic devices can also provide feedback to the user regarding the data collected, or regarding indications received via the radio transceiver from a third party provider, including a cloud service. Further, the wearable devices may be customizable such that additional functionality may be added by downloading additional software applications and/or by the addition of physical modules, such as those containing additional sensors.

Abstract: A system and method for establishing a dynamic wireless communication network with a plurality of autonomous aerial vehicles, such as drones. The drones can dynamically change the size and availability of the communication network, and work with an existing communication network, such as cellular telecommunications or internet protocol networks. The drones can therefore create and maintain a robust network in response to a variety of needs, such as emergency response areas or large sporting events. Further, the drones can establish communication hotspots for mobile devices, and can alternately be configured to create a data pipeline.

Abstract: Drone-based package delivery infrastructure includes, e.g. a registration system, a mobile application for requesting the delivery drones, multi-factor authentication subsystems (e.g., biometric readers and cameras on the drones), a scheduling coordinator, and a management portal. For example, a delivery drone can be requested via a mobile application. The scheduling coordinator can identify a drone and route it to the pick-up location. Upon nearing the pick-up destination, the drone can turn on a camera and stream the data to a monitoring platform to help identify the person submitting the cargo or anyone who might damage the drone. In addition, once the drone lands, additional authentications may be required to aid in identifying the user. The package may be analyzed for harmful/illegal content. The management portal allows for remote requests for the drones to land for inspection (e.g., by the police or border agents).

Abstract: A secure operating environment for a telecommunication device is disclosed, where a trusted execution environment (TEE) can establish both first secure communication (SC) channel between the TEE and a security-enabled SIM card, and a second SC between a service provider entity and Trustlet application, which is a component of the TEE of the telecommunication device. The telecommunication device may include a processor(s), an identification module, and a memory including the TEE and a normal operating environment (NOE). The TEE can be operated by the one or more processors to establish the first SC channel, authenticate a service identifier of the identification module, and establish the second SC channel, prior to an execution of the NOE.

Abstract: Systems and processes that may be implemented to manage access by software applications to various resources of a user telecommunications device are disclosed. The systems and processes may implement a trust policy which reflects privacy criteria selected by a user of the user telecommunications device, wherein the trust policy overrides registered permissions of the software applications. The user telecommunication device may include a memory that stores a software application has been granted registered permissions to access a input and/or output component of the user telecommunications device as well as a trust policy has been set by the user to proscribe access by that particular software application to the input and/or output component. In implementing the trust policy, the software application may be prevented from accessing the input and/or output component notwithstanding the software application having registered permissions to access the input and/or output component.