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.

A method for processing a touch instruction, an electronic device and a storage medium, related to the fields of Internet of Things, intelligent transportation, and the like, are provided. The method includes: detecting a type of a received touch event; in a case where the type of the touch event is a predetermined type, acquiring a number of fingers which execute the touch event of the predetermined type each time; and determining a touch instruction by utilizing a change situation of the number of fingers which execute two adjacent touch events of the predetermined type. According to the solution, the number of fingers which execute the touch event can be determined by utilizing the change situation of the number of fingers corresponding to two adjacent touch events conforming to the predetermined type.

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.

The technology relates to providing an enhanced user experience for riders in autonomous vehicles. Two or more displays may be arranged at different locations within a vehicle to provide notifications, alerts and control options. Information may be dynamically and automatically switched between these displays, as well as a rider's own personal communication device(s). What information to present on each screen can depend on factors including how many riders are in the vehicle, their seating within the vehicle, how their attention is focused and/or display location and size. Certain information may be mirrored or otherwise duplicated among multiple screens while other information can be presented asymmetrically on different screens. Presented information may include a “monologue” from the vehicle explaining why a driving action is taken or not taken, alerts about important conditions, buttons to control certain functionality of the vehicle, or other information that may be of interest to the rider.

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.

A mobile device, vehicular electronic device, method and medium thereof are disclosed. The mobile device includes a communicator, display, memory/medium, and processor. The processor implements one method, including: receive context information and driving state information from the vehicular device, generate a control interface based on the received information, and output the control interface. The vehicular control device includes a communicator, memory/medium, and processor, which transmits the context information and drive state information to the mobile device, receives input information generated through the control interface as transmitted by the mobile device, and executes a corresponding control operation based on the input information.

An HUB system 1 is equipped with an HUB device 10 for displaying a video in front of a vehicle; a communication unit 31 for connecting a mobile device 3 with the HUD device and establishing communication; a speaker 32 for outputting sounds to a driver; a microphone 33 for picking up the voices of the driver; a sound recognition unit 34 for analyzing the picked-up voices; and an in-vehicle camera 35 for photographing the face of the driver. When there is an incoming call at the mobile device, a calling indication of the mobile device 3 is displayed on the display screen of the HUD device, an incoming call sound is outputted from the speaker, and on the basis of a result of an analysis of voices uttered by the driver performed by the sound recognition unit, the conversation operations of the mobile device are started or ended.

A method and an apparatus for controlling a mobile terminal. The apparatus includes a receiving module for receiving gesture information from a first mobile terminal with an image capturing device, wherein the gesture information is from a user; and a sending module for sending a particular operation instruction to a second mobile terminal whose graphic user interface is being currently displayed on a display screen of a display device to instruct the second mobile terminal to execute an operation corresponding to the particular operation instruction, wherein the particular operation instruction is related to the received gesture information.

Techniques are described that facilitate remotely interfacing with a vehicle touchscreen. According to an embodiment, a method is provided comprising determining touch controls included in a GUI configured for displaying on a touchscreen of the vehicle, wherein the touch controls provide for controlling functions of the vehicle based on first interaction with the touch controls as displayed on the touchscreen. The method further comprises generating a representation of the GUI for display via an auxiliary display of the auxiliary device, the representation comprising one or more graphical controls corresponding to one or more touch controls of the touch controls, and enabling remote control of one or more functions of the functions of the vehicle by the auxiliary device based on second interaction with the one or more graphical controls as displayed via the auxiliary display.

A compartment in a vehicle can be loaded by an object and an operating device having a user interface configured to output at least one output signal on a part of the user interface. The operating device is designed to cover the compartment. The compartment includes a sensing unit configured to detect the presence of the object when at least a part of the object is loaded into the compartment and the operating device includes control circuitry configured to display a digital image of the object on a part of the user interface.