A method and apparatus for outputting a three-dimensional (3D) image are provided. To output a 3D image, a stereo image is generated based on viewpoints of a user and rendered into a 3D image. Since the stereo image is generated based on the viewpoints of the user, the user views a different side of an object appearing in the 3D image depending on a viewpoint of the user.

A system for displaying data inside of a vehicle includes a main body including a substrate forming a display surface and defining a vehicle interior. The system also includes a plurality of lenticular lenses located on the display surface. The system also includes an eye tracker designed to detect a location of eyes of a person relative to the display surface. The system also includes a light source designed to generate light to produce an image via the plurality of lenticular lenses. The system also includes an electronic control unit (ECU) coupled to the eye tracker and the light source and designed to determine the location of the eyes relative to the display surface and to control the light source to center the image based on the location of the eyes relative to the display surface.

The present invention has an object to provide a technology of accurately identifying a device that a driver desires to operate out of on-board devices, and supporting operation of the device. An operation support device of the present invention includes a line of sight direction acquisition unit, a characteristic behavior acquisition unit, a device identification unit, and a display controller. The device identification unit is configured to identify at least one on-board device out of a plurality of on-board devices mounted in the vehicle as an operation target device that the driver desires to operate, based on a line of sight direction and a characteristic behavior. The display controller is configured to cause a display device mounted in the vehicle to display an operation screen of the operation target device.

Modifying vehicle display parameters using operator gaze, including: detecting a gaze of an operator of a vehicle; and modifying one or more parameters of a display based on the gaze of the operator.

A display device for a vehicle, comprising an electro-optical display and a position detection device which is used to determine the position of eyes of a driver of the vehicle, wherein a multiplicity of different items of information are displayed by the electro-optical display device and are perceived by the driver of the vehicle is disclosed. Provision is made for there to be a viewing direction detector for determining the driver's viewing direction, which is used to determine which information of the multiplicity of different items of information are perceived by the driver, and, depending on the perceived information, for the perceived information to be able to be enlarged and/or for additional information relating to the perceived information to be able to be displayed. A method for displaying information on a display device in a vehicle is also disclosed.

A vehicle display device includes a display portion attached to a vehicle. The vehicle display device acquires a position of a viewpoint-related part provided by a viewpoint of a driver or a point that moves together with the viewpoint. The vehicle display device acquires image data for generating a display image to be displayed on the display portion. The vehicle display device generates the display image based on the image data and display the display image on the display portion.

An imaging device is provided in a vehicular display device mounted in a vehicle to display information and photographs a passenger of the vehicle. The imaging device includes an imaging unit having a plurality of viewpoint positions provided at vertically different locations in the vehicular display device. The imaging unit is configured to photograph the passenger from a plurality of viewpoints at the plurality of viewpoint positions.

There is disclosed a system for generating and displaying augmented reality content on a display that incorporates movement both internally and externally to the display and takes into account the perspective of a viewer so that three-dimensional content may properly perspective shift based upon movement of the viewer or viewers.

A vehicle information provision device includes a travel state detection unit, a surroundings situation detection unit, a potential hazard detection unit detecting a potential hazard based on the situation detected by the surroundings situation detection unit, a driver state detection unit detecting the driver state during self-driving of a vehicle; a driver state determination unit configured to determine whether or not the driver is observing the situation in the vehicle surroundings based on the state of the driver detected by the driver state detection unit, and an information control unit that provides information to the driver regarding the potential hazard in a case in which the driver is observing the situation in the vehicle surroundings, and restricts provision of information to the driver in a case in which the driver is not observing the situation in the vehicle surroundings during self-driving of the vehicle.

A head up display arrangement is for a motor vehicle having a human driver. The arrangement includes a picture generation unit producing a light field. A light-reflective mirror reflects the light field such that the light field is visible to the driver as a virtual image. The mirror is transmissive of infrared energy. An infrared energy emitter emits infrared energy through the mirror such that the infrared energy is reflected off of a face of the driver. An infrared camera detects the reflected infrared energy after the reflected infrared energy passes through the mirror a second time.