Disclosed herein is a method for updating authentication of a user equipment (UE) in a wireless communication system, including: receiving, by a relay UE, a first authentication request message for authenticating a first remote UE from a network, wherein the first authentication request message includes an ID of the first remote UE and authentication request information; acquiring authentication response information by performing an authentication-related procedure with the first remote UE; and transmitting a first authentication response message including the authentication response information and the ID of the first remote UE to the network, and authentication for the first remote UE may be performed based on the authentication response information.

The present invention relates to a network connection system. The network connection system includes a gateway, an extender, and a wireless access point. Wherein, the gateway can be used as one of the enrollee router and the registrar router, and the extender can be used as the other of the enrollee router and the registrar router, and the extender can send authentication information to the gateway. After the gateway confirms that the extender is a model supported by the gateway according to the authentication information, the gateway sends a credential to the extender, allowing the extender to establish a wireless mesh network through the wireless access point. In this way, the purpose of seamless connection is achieved. In addition, the network connection system of the present invention has functions such as high security and convenience.

Disclosed are techniques for improving an advanced driver-assistance system (ADAS) using a secure channel area. In one embodiment, a method is disclosed comprising establishing a secure channel area extending from at least one side of a first vehicle; detecting a presence of a second vehicle in the secure channel area; establishing a secure connection with the second vehicle upon detecting the presence; exchanging messages between the first vehicle and the second vehicle, the messages including a position and speed of a sending vehicle; taking control of a position and speed of the first vehicle based on the contents of the messages; and releasing control of the position and speed of the first vehicle upon detecting that the secure connection was released.

Disclosed are techniques for improving an advanced driver-assistance system (ADAS) using a secure channel area. In one embodiment, a method is disclosed comprising establishing a secure channel area extending from at least one side of a first vehicle; detecting a presence of a second vehicle in the secure channel area; establishing a secure connection with the second vehicle upon detecting the presence; exchanging messages between the first vehicle and the second vehicle, the messages including a position and speed of a sending vehicle; taking control of a position and speed of the first vehicle based on the contents of the messages; and releasing control of the position and speed of the first vehicle upon detecting that the secure connection was released.

The present invention teaches a method of pairing two user worn devices including collecting first and second biometric activity from respective first and second user worn devices to create first and second biometric signals, processing the first and second biometric signals to create first and second keys and determining if the keys match to allow for pairing of the two user worn devices. The first and second biometric activity may be the same or different biometric activities. The processing of the biometric signals is adjusted based upon the types of biometric activities being sensed.

The present invention teaches a method of pairing two user worn devices including collecting first and second biometric activity from respective first and second user worn devices to create first and second biometric signals, processing the first and second biometric signals to create first and second keys and determining if the keys match to allow for pairing of the two user worn devices. The first and second biometric activity may be the same or different biometric activities. The processing of the biometric signals is adjusted based upon the types of biometric activities being sensed.

The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services.

A method of a first terminal in a wireless communication system is provided. The method includes establishing a unicast link with a second terminal; determining to change a first old identifier of the first terminal related to the unicast link to a first new identifier of the first terminal; transmitting, to the second terminal, a link identifier (ID) update request message including the first new identifier by using the first old identifier and a second old identifier of the second terminal; in response to the link ID update request message, receiving, from the second terminal, a link ID update accept message including a second new identifier of the second terminal changed from the second old identifier and the first new identifier by using the first old identifier and the second old identifier; and transmitting, to the second terminal, a link ID update acknowledgement message including the second new identifier.

Federation policy exchange is provided in response to receiving a sharing query from an Access Point (AP) indicating that an associated wireless network supports federated identities with data sharing, determining whether the sharing query is within sharing preferences; and in response to determining that the sharing query is within the sharing preferences, transmitting, to the AP, a positive response for identity sharing that authorizes collection and sharing of identity data with at least one entity identified in a sharing policy for the associated wireless network. In various embodiments, federation policy exchange includes transmitting a support notification, via an AP, indicating support for federated identities with data sharing within a wireless network associated with the AP; and in response to receiving a first identify sharing preference from a User Equipment (UE) that indicates that negotiation is preferred, transmitting a sharing policy for the wireless network to the UE.

Federation policy exchange is provided in response to receiving a sharing query from an Access Point (AP) indicating that an associated wireless network supports federated identities with data sharing, determining whether the sharing query is within sharing preferences; and in response to determining that the sharing query is within the sharing preferences, transmitting, to the AP, a positive response for identity sharing that authorizes collection and sharing of identity data with at least one entity identified in a sharing policy for the associated wireless network. In various embodiments, federation policy exchange includes transmitting a support notification, via an AP, indicating support for federated identities with data sharing within a wireless network associated with the AP; and in response to receiving a first identify sharing preference from a User Equipment (UE) that indicates that negotiation is preferred, transmitting a sharing policy for the wireless network to the UE.

The present disclosure is directed to facilitating the pairing of a visitor interactive object. An example method includes receiving, by a first interactive object from one or more sensors, data indicative of a visitor interactive object identifier associated with the visitor interactive object. The method includes generating, by the first interactive object, a pairing communication for the visitor interactive object that includes the visitor interactive object identifier and instructions to pair with the visitor interactive object. The method includes communicating, by the first interactive object, the pairing communication to a central computing device. The central computing device can be temporarily paired with the visitor interactive object based on the pairing communication. For instance, the method can include receiving, by the central computing device, the visitor pairing communication, generating a temporary visitor profile based on the visitor interactive identifier, and establishing the temporary wireless connection with the visitor interactive object.