A mobile computing device can include a processing unit, wireless communication interfaces, and a computer-readable memory including instructions executable by the processing unit to cause the device to perform various operations. The device may receive a request to access an application includes application pages that may be configured to provide functional features of the application, and in response to receiving the request, may present an authentication user interface (UI) and may detect a gesture from a user by the UI. The device may transmit the gesture to an authentication server and may receive a confirmation from the server that the user has been successfully authenticated. The device may determine a specific application page to present to the user based on the gesture by accessing mappings between the application pages and corresponding gestures. The specific application page, providing functional features, can be presented to the user by the device.

Disclosed are methods, systems, and devices for management of a premises. The premises may comprise one or more devices, such as a gateway device, a control device, or a premises device. The gateway device may receive data and send the data to the control device. The data may comprise a command, an update, a configuration, or other information. Communication between the control device and any of the other devices at the premises may be configurable by a server device.

The present inventions, in one aspect, are directed to systems and circuitry for and/or methods of establishing communication having one or more pairing facilitator-intermediary devices (for example, a network connected server) to enable or facilitate pairing and/or registering at least two devices (e.g., (i) a portable biometric monitoring device and (ii) a smartphone, laptop and/or tablet) to, for example, recognize, interact and/or enable interoperability between such devices. The pairing facilitator-intermediary device may responsively communicates information to one or more of the devices (to be paired or registered) which, in response, enable or facilitate such devices to pair or register. The present inventions may be advantageous where one or both of the devices to be paired or registered is/are not configured (e.g., include a user interface or certain communication circuitry that is configured or includes functionality) to pair devices without use of a facilitator-intermediary device.

Techniques for neutralizing malicious malware embedded in a media item being sent to a user equipment (UE) are discussed herein. A network device may receive (e.g., intercept) a medial file in transit via a wireless communication network being sent to a UE. The media file may include some type of perceptible content (e.g., audio, video, image data, etc.) as well as malware embedded in the media file. The network device may generate a transcoded media file based on the received media file that includes the perceptible content while neutralizing the malware.

Techniques for neutralizing malicious malware embedded in a media item being sent to a user equipment (UE) are discussed herein. A network device may receive (e.g., intercept) a medial file in transit via a wireless communication network being sent to a UE. The media file may include some type of perceptible content (e.g., audio, video, image data, etc.) as well as malware embedded in the media file. The network device may generate a transcoded media file based on the received media file that includes the perceptible content while neutralizing the malware.

Techniques for securing containerized applications are disclosed. In some embodiments, a system, process, and/or computer program product for securing containerized applications includes detecting a new application container (e.g., an application pod); deploying a security entity (e.g., a firewall) to the application container; and monitoring all traffic to and from the application container (e.g., all layer-7 ingress, egress, and east-west traffic associated with the application container) using the security entity to enforce a policy.

Techniques for securing containerized applications are disclosed. In some embodiments, a system, process, and/or computer program product for securing containerized applications includes detecting a new application container (e.g., an application pod); deploying a security entity (e.g., a firewall) to the application container; and monitoring all traffic to and from the application container (e.g., all layer-7 ingress, egress, and east-west traffic associated with the application container) using the security entity to enforce a policy.

In some embodiments, an exemplary access controlling network architecture may include: a computing device, configured to: receive application program instruction to display an access controller interface element and a multi-part multi-functional access control, where the access controller interface element is: communicatively coupled to a cellular network hosted access controlling schema and operationally linked to at least one access-restricted digital resource; where the multi-part multi-functional access control sequence includes: a symbol, an access code, and a particular access control digital key; transmit an access request having: the multi-part multi-functional access control sequence and an identity linked to the computing device; receive, in response to the access request, a program instruction to unlock the at least one access-restricted digital resource for accessing via the computing device after the access code has been accepted by the cellular network hosted access controlling schema and the particular access control digital key matches an expected access control digital key.

A regional lock-state control system for operation within a region, includes a server, a plurality of mobile devices and a plurality of lock assembles. The server is configured to initiate a lock-state event. The mobile devices are each configured to receive a wireless lock-state directive from the server upon the lock-state event, and send a wireless lock lock-state directive to the server. The lock assemblies are each configured to receive a lock-state command associated with the lock-state directive from the plurality of mobile devices, and are each configured to transmit an advertisement that includes data on a lock-state.

A regional lock-state control system for operation within a region, includes a server, a plurality of mobile devices and a plurality of lock assembles. The server is configured to initiate a lock-state event. The mobile devices are each configured to receive a wireless lock-state directive from the server upon the lock-state event, and send a wireless lock lock-state directive to the server. The lock assemblies are each configured to receive a lock-state command associated with the lock-state directive from the plurality of mobile devices, and are each configured to transmit an advertisement that includes data on a lock-state.