A display device for attachment to a vehicle roof, comprises a display screen and an operating mechanism to move the screen into a storage position and an operational position. The operating mechanism includes at least one guide rail mounted to the roof and a first and second slide shoe slidably guided in the guide rail. A screen support supports the screen and is pivotally connected to the first or second slide shoe. A lever is pivotally connected to the screen support and to the other of the first and second slide shoes to at least rotate the screen between its operational and storage positions by changing the distance between the first and second slide shoes. Only the first slide shoe is driven by a drive motor. The second slide shoe has a locking mechanism to lock the second slide shoe where the screen is moved toward its operational position.

The invention relates to a device for controlling interior lighting of a motor vehicle interior including at least one light source, a projection support and a control module. The control module is capable of configuring the projection support so that it can receive at least one image emitted by the light source. The invention also relates to a method for lighting at least a part of an interior space of a motor vehicle by such an interior lighting device.

Provided is an electronic device whose display quality is independent of environment light. The electronic device is provided with an optical sensor, an acceleration sensor, and the like so that information including the brightness of external light, the angle of external light incident on the electronic device, and the orientation of the display portion in the electronic device is obtained, and the luminance and color tone of the display portion in the electronic device are corrected on the basis of the information. As the correcting method, calculation using a neural network is performed using the luminance and color tone meeting the preference of the user as teacher data and the obtained information as input data. The calculation result is reflected on the luminance and color tone of the display portion in the electronic device, whereby an image with display quality that suits the user's preference can be displayed.

A device for controlling an interior lighting system of a vehicle to produce ambient lighting and/or reading lighting involves the interior lighting system having an array of a plurality of light sources. The device includes a control unit, by means of which the light sources of the array can be individually controlled in order to produce the ambient lighting and/or the reading lighting, and an input unit that can be connected to the control unit. The input unit has a touch-sensitive screen for inputting a current set of control information for the control unit. The control unit controls the light sources on the basis of the current set of control information. Furthermore, the input unit, on the basis of the current set of control information, displays associated ambient lighting and/or reading lighting for an illuminable region in the vehicle interior on the screen.

An automotive animated image projector comprises a light source emitting a light beam, a microelectromechanical system projector aligned to receive the light beam and project an animated image onto a target surface, a computer system programmed to control the light source and the microelectromechanical system with commands to produce the animated image, and a transmission link for sending the commands from the computer system to the light source and the microelectromechanical system projector. In some embodiments, the target surface is the ground next to a vehicle and the animated image illuminates the ground to assist entry into, and exit from, the vehicle. A method is also provided of projecting an animated image from an automotive animated image projector. The method comprises generating a light beam, directing the light beam onto a microelectromechanical system projector, manipulating the light beam by dynamically controlling the microelectromechanical system projector to generate animated images that are projected onto a target surface.

A deployable display for use in a vehicle is provided. The deployable display can be positioned in a plurality of stowed or a plurality of deployed positions, wherein the deployable display functions as a sun visor located in front of a windshield of the vehicle when it is in a first one of the plurality of deployed positions and when the deployable display is in a second one of the plurality of deployed positions or the first one of the plurality of deployed positions the deployable display functions as a screen that provides images from a controller operatively coupled to the deployable display.

For a vehicle interior compartment defined by a vehicle floor, opposing sidewalls, a forward end and a rearward end, and a vehicle ceiling covering at least part of the compartment, an end zone overhead display structure includes bulkhead forming attachment elements coupled to a roof strut spanning from sidewall to sidewall of the vehicle roof. The display structure includes an open box-like upper bracket and an open box-like lower bracket coupled together with the roof strut interposed to provide an assembly that reduces unwanted motion, rotation or vibration of the display assembly.

The display device for a vehicle has a display portion that is provided at a ceiling of a vehicle cabin interior, and a control device that, in a case in which a vehicle is traveling within a legal speed limit, carries out display control that displays, on the display portion, moving images that are based on the vehicle speed and a peripheral environment of the vehicle.

A laser-based warning system for a vehicle, the system including: a laser device located on an inner face of a ceiling of a vehicle frame; and a controller configured to generate an emergency message and send the message to the laser device, wherein the laser device is configured to receive the emergency message and to shape a laser based on the message to irradiate the laser-based message onto a front, left, right, rear glasses of the vehicle selectively.

System, methods, and other embodiments described herein relate to adaptively communicating notices to passengers within a vehicle. In one embodiment, a method includes in response to receiving a notice about an occurrence of an event, determining a viewing orientation of a passenger in the vehicle according to at least one electronic input that indicates information about a physical position of the passenger within the vehicle. The event is an incident associated with the vehicle for which the passenger is to be informed. The method also includes selecting at least one alerting device from available communication devices in the vehicle according to the viewing orientation by determining which of the available communication devices correspond with the viewing orientation of the passenger. The method further includes controlling the at least one alerting device to communicate the notice to the passenger about the occurrence of the event.