A method and system for wireless communication between a public transport vehicle and a remote server through at least one external mobile network. At least one router is provided in the public transport vehicle for receiving and transmitting wireless data to and from a stationary communication server outside the public transport vehicle and to and from at least one client onboard the public transport vehicle, wherein router includes a captive portal in order to provide an authentication process for the client(s). The router determines if a stream of wireless data packets received by said router corresponds to at least one of a VoIP stream and a VoWIFI stream. The router then forwards, if it has been determined that the stream of wireless data packets corresponds to at least one of a VoIP stream and a VoWIFI stream.

An attack prevention method includes: receiving an authentication request frame; and in response to receiving the authentication request frame, replying with an authentication response frame that is sent to a non-access-point (non-AP) station (STA), wherein the authentication request frame includes a timeout interval element that carries Authentication Comeback time. Another attack prevention method includes: ignoring each specific request frame that is received within a period in which a connected non-AP STA operates under a power saving mode, wherein each specific request frame includes one of an authentication request frame, an association request frame, and a reassociation request frame.

An attack prevention method includes: receiving an authentication request frame; and in response to receiving the authentication request frame, replying with an authentication response frame that is sent to a non-access-point (non-AP) station (STA), wherein the authentication request frame includes a timeout interval element that carries Authentication Comeback time. Another attack prevention method includes: ignoring each specific request frame that is received within a period in which a connected non-AP STA operates under a power saving mode, wherein each specific request frame includes one of an authentication request frame, an association request frame, and a reassociation request frame.

A method of authenticating a controller by a gateway in a vehicle may include transmitting a first symmetric key to the controller; generating a first one-time authentication value (OTAV), encrypting the first OTAV with the first symmetric key and delivering the encrypted first OTAV to the controller; sending a request for authentication using the first OTAV to the controller; and receiving a hash value from the controller in response to the request.

Migration of a pairing of wearable device to a new companion electronic device is disclosed. In one embodiment, pairing migration is performed by syncing and verifying a migration key in the wearable and new companion device. Pairing migration includes moving settings and pairing data of the wearable to the new companion device in response to detecting the wearable is associated with the migration key, wherein the migration key establishes a validation of trust of the wearable relative to the companion device. The settings and pairing data can include configuration and protected data and one or more keys to establish a trust relationship between the wearable and new companion device. The settings and pairing data can also include device data such that the wearable can be discoverable by the new companion device.

Migration of a pairing of wearable device to a new companion electronic device is disclosed. In one embodiment, pairing migration is performed by syncing and verifying a migration key in the wearable and new companion device. Pairing migration includes moving settings and pairing data of the wearable to the new companion device in response to detecting the wearable is associated with the migration key, wherein the migration key establishes a validation of trust of the wearable relative to the companion device. The settings and pairing data can include configuration and protected data and one or more keys to establish a trust relationship between the wearable and new companion device. The settings and pairing data can also include device data such that the wearable can be discoverable by the new companion device.

A 5G Network Architecture uses virtualization and network slicing. The user equipment (UE) interacts with an underlay network that interacts with virtual network slices. The UE interacts with the underlay network (ULN) to establish a connection to a virtual network slice. Procedures are defined to assign a new slice instance to a UE (UE initiated and ULN initiated); to change a UE Profile (UE initiated and ULN Initiated); and to change a UE's assigned slice instance (ULN Initiated).

A printing apparatus of the present invention makes wireless LAN connection in at least either one of a first connection mode for making wireless LAN connection to an image processing apparatus in which inherent authentication information is stored and a second connection mode for making wireless LAN connection to the image processing apparatus via a second access point provided by an apparatus other than the printing device and the image processing apparatus. The printing apparatus controls, in a case of connection in the first connection mode, a first function provided by the printing apparatus to be enabled and a second function which is enabled in the second connection mode to be disabled.

A secure ranging system can use a secure processing system to deliver one or more ranging keys to a ranging radio on a device, and the ranging radio can derive locally at the system ranging codes based on the ranging keys. A deterministic random number generator can derive the ranging codes using the ranging key and one or more session parameters, and each device (e.g. a cellular telephone and another device) can independently derive the ranging codes and derive them contemporaneously with their use in ranging operations.

Systems and methods for sharing authentication information are provided. The systems and methods include generating, with a messaging application, a media item using a camera of a client device; identifying a target application that has been authorized by the messaging application to share authentication information with the messaging application; generating a share option associated with the media item for display in a graphical user interface of the messaging application; and in response to receiving a user selection of the share option, enabling the target application to access the media item.