A method for assisting a driver of a vehicle includes: establishing a signal transfer connection between a mobile display device and a position determination device of the vehicle; determining, based on the signal transfer connection, the position of the mobile display device relative to the vehicle; and displaying, by the mobile display device, based upon the determined position, at least one item of vehicle information and/or at least one operating menu for remote control of at least one vehicle function.

An in-vehicle infotainment IVI apparatus, a terminal device, and a vehicle are provided. The IVI apparatus includes a management module. The management module is configured to: obtain component information of each of at least one IVI component, where the component information includes an internet protocol address; and send the component information of each component to the terminal device, so that the terminal device communicates with the at least one IVI component based on the information about each IVI component. According to the IVI apparatus, the terminal device, and the vehicle, the IVI component can be controlled by using the terminal device.

Technologies and techniques for operating of a touch-sensitive display device of a vehicle. A processor display generates content on the touch-sensitive display device, wherein the content includes assigned elements configured to function in a display mode and an operating mode, depending on a user's presence in at least one of a first position and a second position of the vehicle. A sensing apparatus detects an approach by a user toward the touch-sensitive display device. The processor identifies that the user is in the second position relative to the display device, and, based on the identifying, changes an operating state of the display device to change at least one display mode element of the display content assigned to the second position from display mode to operating mode.

In one example, a computing device includes one or more user input detection components, and one or more processors configured to receive an indication of a first user input detected by the one or more user input detection components, responsive to receiving the indication of the first user input, adjust a level of an attention buffer at a defined rate; responsive to determining that the level of the attention buffer satisfies a first threshold, prevent further interaction with a user interface of the computing device, responsive to determining that an indication of a second user input has not been received within a time period, adjust a level of the attention buffer, and responsive to determining that the level of the attention buffer satisfies a second threshold, allow further interaction with the user interface.

According to one aspect, driver management is provided. One or more speech segments of a driver of an autonomous vehicle may be recorded. A position, a destination, or a previous destination of a driver or an autonomous vehicle may be tracked. An estimated state of the driver may be determined based on one or more of the speech segments, the position, the destination, or the previous destination, and a calendar event associated with the driver or a passenger of the autonomous vehicle. Autonomous driving features may be automatically enabled, disabled, or operation of the autonomous vehicle may be enabled or disabled in different modes based on the estimated state of the driver. Additionally, notifications may be displayed, rideshare applications may be launched, or warnings may be sent based on the estimated state of the driver.

An instrument panel has an aperture in which a display may be arranged. The instrument panel further comprises a rotatable display mechanism. The mechanism comprising at least three display surfaces supported on a rotatable support. A first display surface comprises a touch sensitive display screen; a second display surface comprises at least one dial or gauge; and a third display surface comprises a trim element. The support is mounted for rotation with respect to a mount and the mount is movable away from and towards the aperture in the instrument panel. In use each display surface may be arranged in the aperture. To change from one display surface to another display surface, the mount is moved away from the instrument panel, the support is rotated and the mount is then moved back towards the instrument panel so as to align another display surface in the aperture.

An in-vehicle device comprises a gesture defection unit, which recognizes a user's hand position located within a predetermined range, a driving state recognition unit which detects a driving state of a vehicle, and a gesture control unit which controls a state of a gesture operation based on a recognition result of the hand position by the gesture detection unit, wherein the gesture control unit disables the gesture operation when the driving state of the vehicle detected by the driving state recognition unit is in a predetermined disabling state.

In some embodiments, an electronic device selectively activates and deactivates actuation features in accordance with the context in which an electronic device is operating. In some embodiments, an electronic device controls one or more actuators in accordance with sensor data and/or inputs received using one or more input devices.

The invention relates to a system comprising several touch-sensitive control elements that are arranged next to each other. It is provided that the control elements are able to communicate with each other via a voltage-controlled peer-to-peer line and determine when a particular control element should actively respond to touches or is deactivated.

A system and method for disabling distracting apps on a driver's personal devices while allowing passengers travelling in the same vehicle to have full use of their personal devices. The system works by first identifying all the personal devices that are in the vehicle and then establishing a loose mesh network between those devices. Once the mesh network is established, the system identifies which of the personal devices is associated with the driver, and ensures that any distracting apps on the driver's personal device are disabled, while allowing full functionality for any passenger's personal devices.