A vehicle includes: a seat; a sensor part provided on the seat and detecting whether a user is seated on the seat; a lighting part provided in the vehicle and including a plurality of light sources disposed at a preset interval; and a controller configured to determine a gaze direction of the user based on a result of the detection of the sensor part and to selectively control the plurality of light sources to distort the preset interval based on the determined gaze direction of the user.

A vehicle includes a transparent display provided on the dashboard to face the front of the driver and provided to be able to descend inside the dashboard or ascend above the dashboard, an input device provided to obtain a user input, and a controller configured to adjust an ascending height of the transparent display and to adjust transparency of the transparent display, according to a driving mode selected by the user input.

A camera monitor system for responding to an amount of light includes: a sensor unit configured to measure an amount of external light of a vehicle; a camera unit configured to capture an image of an outside of the vehicle; a display unit comprising a first display layer configured to display the image of the outside, captured by the camera unit, and a second display layer configured to display at least one icon at least partially overlapping the first display layer; and a controller configured to set luminance of the first display layer in response to the amount of external light received from the sensor unit and to change transparency of the icon of the second display layer.

A system and method for adjusting the transparency of a digital needle of a digital gauge are disclosed herein. The system and method adjust a transparency of a digital needle based on an operating state of an engine of a vehicle.

The present disclosure discloses a control method and apparatus, a device and a storage medium, and relates to the field of computer technologies, and in particular, to technical fields such as intelligent driving, Internet of Vehicles and augmented reality. The control method includes: acquiring an ambient image within a preset range of a projection screen; determining, based on image information of the ambient image, display parameters corresponding to display content, the image information including: image brightness and/or an image color; and controlling the display content to be displayed on the projection screen based on the display parameters. The present disclosure can improve a display effect.

The invention provides device, system, and method for projecting light in the interior of an automotive vehicle. The method includes sending data to the light projector regarding the lighting conditions in the interior of the automotive vehicle, using the data to modify some projection parameter of a light pattern, and projecting the light pattern.

A light control apparatus includes a diffuser plate, a light source, a light pipe, and a light blocker. The diffuser plate includes at least one opening therein. The diffuser plate includes feature located around the opening in the diffuser plate that exposes a portion of the diffuser plate. A light source positioned proximate a second surface of the diffuser plate is optically coupled to a light pipe positioned around a portion of the opening near the second surface of diffuser plate. A light blocker is positioned near a second portion of the at least one feature. The light blocker is positioned between the light source and the second portion of the feature, the light blocker having an opening therein to allow light to pass from the light source to the diffuser plate proximate the second portion of the feature.

A display device for a vehicle includes: a display unit including a display surface that is configured to display information to an occupant of a vehicle; a display control unit that is configured to set the information displayed at the display surface and a display area in which the information is displayed at the display surface; a drive unit that is configured to drive the display unit in and out of an interior member that is disposed in a vehicle cabin; and a drive control unit that is configured to control the drive unit such that the display area and an exposed area, of the display surface, which is exposed from the interior member are proportional to each other.

A luminance determining unit 14 determines a luminance distribution of an exterior circumstantial image in a line-of-sight direction of a driver 300, and a luminance changing unit 15 determines a bright region 301 of this luminance distribution. Further, the luminance changing unit 15 determines a luminance after the change in a peripheral region 302 of this bright region 301. A virtual-image creating unit 16A creates a virtual image based on the determined luminance, and a display processing unit 17 displays this virtual image on a display unit 200. In this manner, since a display system 1A displays the virtual image for use in increasing the luminance in periphery of the bright region 301, the feeling of the brightness for the driver 300 can be moderated, and therefore, the visual recognition can be improved. That is, the display system 1A can output the virtual image depending on the circumstances.

A reflectance/transmittance of an optical device disposed at a position through which image light emitted from a liquid crystal display displaying an icon passes is changed according to an anti-glare level to achieve anti-glare of the reflected image. A color of the icon displayed on the liquid crystal display is adjusted such that the higher the transmittance of the optical device is, the lower the lightness is, so that the icon of a similar color is visually recognized regardless of the reflectance/transmittance of the optical device.