A hands-free device enables a hands-free call by being wirelessly connected to a mobile phone. The hands-free device incudes a hardware processor configured to: perform a control related to data transfer using a transfer protocol for implementing transfer of history data including incoming call history data and outgoing call history data, and phone book data stored in the mobile phone when the mobile phone is in a wireless connection area; receive the history data and the phone book data from the mobile phone through communication using the transfer protocol; and store the history data and the phone book data that are received. The hardware processor is configured to perform the control to transfer the history data prior to the phone book data.

Embodiments disclosed herein describe vehicle-based authentication protocols. An illustrative authentication server may receive a request to authenticate a user connected from a mobile device. The authentication server may transmit a request to the mobile device to transmit geolocation data of the mobile device. In response, the mobile device may transmit a stream of its geolocation data. Based upon the received geolocation data stream, the authentication server may determine that the mobile device in a motion and select a vehicle-based authentication protocol to request geolocation data of a trusted vehicle. The authentication server may compare the mobile device geolocation data stream and the vehicle geolocation data stream to determine a similarity score. If the similarity score is above a threshold, the authentications server may authenticate the user. In some cases, the authentication server may authenticate the user if the mobile device is connected to the trusted vehicle.

A display system for at least one wheel of at least one vehicle comprising: At least one LED display device for displaying information on a wheel of a vehicle; A computer in association with the at least one LED display device, the computer comprising GPS; A main server;
Wherein the LED display device is linked to the computer and the computer is in wireless communication with the main server via a wireless network; in use, the server has stored in memory a plurality of information packets for display by the LED display device, each information packet has an associated location and/or time for being displayed, the main server wirelessly sends at least one information packet and associated time and/or location to the associated computer of the at least one vehicle, when the at least one vehicle is in the desired location and/or time the computer instructs the at least one LED display device to display the associated information.

A vehicle infotainment system that adds background sounds to an outgoing call on a mobile device. The infotainment system comprises: i) a database of selectable augmenting audio signals; and ii) audio processing circuitry configured to receive at a first input an uplink signal from the infotainment system and receive at a second input a selected augmenting audio signal. The audio processing circuitry adapts a spectrum of the first selected augmenting audio signal to prevent the selected augmenting audio signal from masking the uplink signal and combines the adapted selected augmenting audio signal and the uplink signal to produce an augmented uplink signal at an output.

A vehicle infotainment system for performing a large file transfer (SATA), music (USB), phone projection (CarPlay/Android Auto/MirrorLink), a modem (USB) and a phone mirroring (MHL) function using a millimeter wave short-range communication method in a band of 30 GHz to 300 GHz for a link between the vehicle infotainment system and a smartphone.

When the distance indicated by distance information received by a Bluetooth module (31) is less than a predetermined first reference distance (KY1), a guidance image (33) including a distance image (33a) and a direction image (33b) is generated, and this guidance image (33) is displayed on a combiner (26) of a helmet (20). By stopping the display of the distance image (33a) of the guidance image (33) and continuing to display the direction image (33b) from when the distance indicated by the distance information becomes less than a second reference distance (KY2) shorter than the first reference distance (KY1) to when the guidance point is reached, the driver's attention is focused on the direction image (33b), so that a mistake in the direction of travel at the guidance point can be prevented.

An information sharing system includes a processor that receives and stores a post from a user group, outputs content of the post to a terminal device of a user, receives a joining request regarding synchronous output of the content, from the user, and acquires specification of a joining mode of the terminal device in the synchronous output, the processor makes, based on a reproduction operation in the terminal device of the user from whom the joining request is received, the terminal devices of all the users from whom the joining request is received synchronously output the content, establishes communication between the terminal device and equipment of a vehicle when the specification of a driver mode is acquired as the joining mode, and outputs the content to the equipment.

A vehicle electronic device, an electronic device and information receiving and sending methods thereof, a server and a communication system. The vehicle electronic device includes: a first processing component and a first storage component connected with the first processing component. First password information and vehicle information are stored in the first storage component. The first processing component Is configured to generate a second dynamic password according to the first time for receiving a connection request and the first password information and the vehicle information stored in the first storage component when receiving the connection request including a first dynamic password sent by an external electronic device, and to receive information sent by the external electronic device when determining that the second dynamic password is matched with the first dynamic password.

A method for controlling a terminal, a device, and a storage medium are provided, relating to a field of Internet of Vehicles technology, and in particular, to a field of In-vehicle Infotainment interconnecting/mirroring technology. An implementation includes: generating a touch event corresponding to a touch operation for a screen mirroring image according to a touch position coordinate of the touch operation, in response to the touch operation, wherein the screen mirroring image corresponds to an operation interface of a terminal device; and transmitting the touch event to the terminal device through a Bluetooth connection with the terminal device based on a Bluetooth human interface device protocol, so that the terminal device controls a controlling member in the operation interface according to the touch event.

An example system according to an example of the present disclosure includes a wireless headset having a speaker and a microphone. Control circuitry is disposed in a vehicle and is in communication with a plurality of vehicle systems. The control circuitry is configured to provide alerts through the speaker based on information from the plurality of vehicle systems indicating occurrence of trigger events, and to determine when to provide each alert based on a priority level of the alert within a multi-level hierarchy of priority levels.