The present application relates to devices and components including apparatus, systems, and methods for security enhancement with respect to reselection of relay user equipment.

A UE can enable a VoWIFI service, receive hidden SSID information, and register with a core network via a RAN. The UE can monitor a first signal strength of a first signal from the RAN. The UE can scan for a second signal from a WLAN, and when found, can measure a second signal strength of the second signal. The UE can determine whether the first signal strength is at or below a first threshold. If so, and if the WLAN is untrusted, the UE can probe it with the hidden SSID information. If the untrusted WLAN responds, the UE can send an access request to an untrusted WLAN access point. The UE can receive, via the untrusted WLAN access point, an authentication challenge from an ePDG. If the UE passes the authentication challenge, the UE can register with the core network via the untrusted WLAN and the ePDG.

A system for governing access to a network environment, including: at least one communication node communicatively coupled to a network infrastructure; a network assurance agent configured to monitor the at least one communication node, wherein the network assurance agent performs actions including: generating, in response to an access request for a network resource from the at least one communication node, an environmental model of the at least one communication node relative to the network environment, wherein the environmental model includes operational data of the at least one communication node or at least one other communication node in the network environment, calculating a risk score for the at least one communication node via a machine learning algorithm, based on the environmental model, and granting or denying the access request based on the risk score.

A method for authenticating a network entity to access restricted information. The method includes receiving a request to generate a visual voicemail message based on an analysis of network entity profile data and contextual information relating to the network entity. The method includes generating the visual voicemail message based on the network entity profile data and the contextual information, sending the visual voicemail message to the network entity and requesting authentication information included with the visual voicemail message. In response to receiving the requested authentication information, the network entity is authenticated to access to the restricted information.

This disclosure describes techniques for enabling selective connections between user devices and trusted network devices. An example method includes receiving a beacon from a network device. The beacon includes a trust level of the network device. The method further includes determining that the trust level of the network device satisfies a predetermined trust criterion. Based on determining that the trust level of the network device satisfies the predetermined trust criterion, the method includes transmitting a connection request to the network device. Further, user data is received from the network device.

Enhancing the security of emails by providing the user an indicator within an email and/or an email inbox that indicates a level of connectedness between the user/recipient to the email sender and/or a level of trust that the email has been sent from who it purports to be sent from. As such the present invention provides a highly efficient means by which email users can assess their connectedness to the email sender and/or their trust in the email sender.

An access control system is provided and includes a control device disposed to restrict access to a secured resource and a networked device disposed in signal communication with the control device. The networked device requests authentication of a user from a trusted device responsive to a presentation of credentials to the control device in a request for access to the secured resource, the credentials are associated with access rights of the user, the networked device is receptive of the authentication, and the control device permits a level of access to the secured resource in accordance with the access rights upon the reception of the authentication.

Systems, devices, and techniques described herein relate to use of an optimized security mode command (SMC) procedure for securing communications. When connecting to a different cellular network (e.g., from a 5.sup.th generation (5G) Radio Access Network (RAN)) to a different cellular network (e.g., a 4.sup.th generation (4G) RAN), a User Equipment (UE) performs the SMC procedure without processing subsequent commands until a period of time has elapsed. Instead of allowing the UE to process subsequent commands received close in time to receiving the SMC, the subsequent commands may be delayed/suspended so that the UE has time to perform the SMC procedure and establish secure communications with the 4G LTE network. According to some examples, the delay is set to a period of time (e.g., 1 ms, 10 ms, or some other value) such that the subsequent command does not interfere with performing the SMC procedure.

Embodiments of the invention are directed assessing reliability between two computing devices. A distributed database may maintain reliability associations between pairs of computing devices. Each reliability association may indicate a particular device has determined (e.g., locally) that another device is reliable. In order to determine an amount of reliability between a first computing device and a second computing device, an ordered combination of the reliability associations may be determined utilizing the distributed database. The ordered combination of reliability associations may identify a reliability path between the first computing device and the second computing device. An amount of reliability may be determined based on the reliability path. An interaction between the devices may be allowed or restricted based at least in part on the amount of reliability between the computing devices.

Systems and methods are described for seamlessly connecting devices based on relationships between the users of the respective devices. A media guidance application may determine that a first user has entered an environment (e.g., his/her mother's home) and may determine a frequency with which the first user enters the environment (e.g., daily). In response to determining that the first user visits frequently, the media guidance application may identify a second device in the environment (e.g., a smart TV) that a second user (e.g., the first user's mother) is authorized to grant access rights for. The media guidance application may determine a likelihood that the second user will grant the access rights for the second device to the first user, based on interaction data between the first user and the second user. In response to determining a high likelihood, the media guidance application may transmit the access rights.