A location of a first wearable device is determined based on a first biometric signature. Operation of a touchscreen display is restricted if the location of the first wearable device is in an operator's side of a vehicle cabin and the first wearable device is within a first distance from the display.

A display apparatus for a motor vehicle includes a display surface. A piece of information is displayed on the display surface. In order to offer an optimum display and detectability of the information in different situations, the display surface is arranged on a movably mounted closure device of the motor vehicle and a display of the information is controlled subject to a degree of opening of the closure device detected by using a position sensor of the motor vehicle.

A method and a system for enhancing a user experience of an occupant in a vehicle that includes a step of detecting a change of the occupant's line of gaze and a step of outputting a notification, if a change of the occupant's line of gaze is detected or if a predetermined time period has elapsed. The notification is provided on an output device based on the detected occupant's line of gaze.

An illuminating apparatus for a screen operable in at least two operating modes, viz B1 for a free viewing mode and B2 for a restricted viewing mode. The illuminating apparatus comprising: a backlight with a planar extension radiating light in a restricted angular range; a plate-shaped light guide that is, in a viewing direction, arranged in front of the backlight and with outcoupling elements one of the large surfaces and/or within its volume. The light guide is transparent to at least 70% of the light emitted by the backlight and light sources are arranged laterally at the edges of the light guide. Various parameters are specified for the number of outcoupling elements per unit area and for their extension, and in operating mode B2, the backlight is switched on and the light sources are switched off. In operating mode B1 at least the light sources are switched on.

The invention relates to a control system (2) for controlling a main monitor (10) of a motor vehicle, said control system (2), configured so as to be installed on a central console (12), comprising a display screen and a touchscreen. Said control system (2) has a first mode of operation in which said display screen is in an inactive state and the touchscreen is in a basic configuration, and a second mode of operation in which said display screen is in an active state and the touchscreen is in an advanced configuration; the control system furthermore comprises a control module configured so as to put the control system into said first mode of operation when the vehicle is in a driven driving mode or into said second mode of operation when the vehicle is in an autonomous driving mode.

A method for automatically adjusting vehicle media may include obtaining personal data of a vehicle operator and obtaining contextual data about the vehicle operating. The method may further include generating a distraction-level value that represents a degree to which the vehicle operator may be distracted from the media. The method may further include generating a distraction threshold value. The method may further include determining that the distraction-level value exceeds the distraction threshold value and adjusting the media in response.

When the automobile is changed to the manual driving mode, the control device starts acceptance as the operation of the touch pad as an operation on the application system that displays the screen on the heads-up display, and when the automobile is in the autonomous driving mode, the control device starts acceptance of the operation of the touch pad as an operation on the application system that displays the screen on the center display.

Electrostatic friction textures on a touchscreen panel are used to create the sensation of block icons in a contextual menu adapted to an automotive environment. In particular, a center stack touchscreen friction display in a passenger vehicle provides one set of touch controls and HMI data to the driver while simultaneously providing either the same control options and HMI or a completely different set of information and menu structure to the passenger in invisible texture form. The invisible texture is in the form of block icons, and coincidence between a finger of a passenger and a block icon results in an audio announcement of the block icon to guide a visually impaired passenger through the contextual menu.

Systems, apparatus and methods for limiting information on an augmented reality (AR) display based on various speeds of an AR device are presented. Often information forms a distraction when the wearer is driving, running or even walking. Therefore, the described systems, devices and methods aim to limit information displayed on an AR display based on three or more levels movement (e.g., stationary, walking, driving) such that the wearer is less distracted when higher levels of concentration are needed for real world activities.

A computer system for an autonomous vehicle is presented. The computer system includes a display system for interfacing with a passenger within the vehicle. The display system is disposed on a window of the autonomous vehicle. A server is disposed in the vehicle. The server is in communication with the display system. The server is operable to activate the display system when an auto-pilot system of the autonomous vehicle is activated.