A method for displaying information, in which at least one first graphical object is graphically displayed on a display area, and, in the case of a change to a second graphical object, a control device generates graphic data that control the display area in a manner that causes the first object to disappear and the second object to be faded in. In the case of a change to the second object, the control device generates graphic data that control the display area such that, in the perspective representation on the display area, the first graphical object is swiveled out about a first axis disposed outside of the display area; and, in the perspective representation on the display area, the second graphical object is swiveled in about a second axis disposed outside of the display area, until it is fully displayed.

The invention relates to a display device comprising a display plane, on which one or more planar display regions 10, 11 are arranged, said planar regions 10, 11 being covered by transparent coverings. A single transparent covering 3 covers all the planar display regions 10, 11 of the display device, is formed three-dimensionally on the viewer's side by regions of differing thicknesses and is connected on the side facing away from the viewer to the planar display regions 10, 11 by means of optical bonding. The refractive index of the material of the covering 3 corresponds to the refractive index of the optical-bonding material 8.

A head-up display device includes: a display unit that produces a display light for the left eye by modulating a first illumination light derived from superimposing first illumination light beams output from a first region of a fly eye lens and produces a display light for the right eye by modulating a second illumination light derived from superimposing second illumination light beams output a second region of the fly eye lens; and an image processing unit that produces an image for the left eye and produces an image for the right eye; and a display control unit that causes a display unit to display the image for the left eye when the first illumination light is produced and causes the display unit to display the image for the right eye when the second illumination light is produced.

A device includes a control unit and a projection surface. The projection surface has at least one first subsection, which is associated with at least one of the functional elements and which covers the at least one functional element toward the interior of the vehicle, so that the at least one functional element is not visible. The control unit and the projection device project an image, a graphic, or an animation according to an item of information associated with the at least one functional element on the at least one first subsection. The projection surface also has at least one second subsection, which surrounds the at least one first subsection. The control unit and the projection device project an image, a graphic, or an animation according to an illumination scenario and/or according to items of information to be displayed on the at least one second subsection.

In a method for displaying items of information in a transportation device, the items of information are displayed in the form of hierarchical menu structures. A device for displaying items of information includes a control unit and a display unit for the stereoscopic and/or autostereoscopic display of items of information. In the method, the display is implemented stereoscopically, at least two different menus or menu items being displayed to the viewer at different distances. The instrument cluster includes the placement of a mask in front of the display of a display unit, the mask modifying the light emission of the light emitted by the display so as to result in a display of autostereoscopic images.

A vehicular projection display apparatus includes: an intermediate image forming optical member; a display device disposed to project light including a display image to the intermediate image forming optical member, and to form an intermediate image as a virtual image or a real image, and an HUD optical system which receives the light of the intermediate image formed by the intermediate image forming optical member, which guides the light to a reflecting face of a windshield of a vehicle or a light reflecting member in a vicinity of the windshield, and which projects the light to allow the display image to be visually recognized as a virtual image at a predetermined eye point. The intermediate image forming optical member forms the intermediate image in a state in which at least part of the intermediate image is curved from a flat plane with respect to the display device.

A vehicle display device includes a housing mounted in a vehicle and having a light-shielding outer wall that forms an accommodation space, a slit being formed in the outer wall, a three-dimensional display surface disposed in the accommodation space and on which a real image is formed by display light, a projector disposed in the housing and configured to project the display light onto the display surface, and a reflector disposed outside the housing and having a reflection surface configured to reflect the real image toward an eyepoint in the vehicle. The shape of the reflection surface is a recessed shape such that light rays of the real image intersect in an optical path extending from the display surface to the reflection surface through the slit.

A vehicle display assembly includes a three-dimensional (3D) display, and an actuator coupled to the 3D display. The actuator is configured to adjust an orientation of the 3D display relative to a vehicle occupant. The vehicle display assembly also includes a sensor assembly configured to monitor a position of a head of the vehicle occupant, and a controller communicatively coupled to the sensor assembly and to the actuator. The controller is configured to instruct the actuator to adjust the orientation of the 3D display based on the position of the head of the vehicle occupant.

Disclosed herein are embodiments of a curved glass article. The curved glass article includes a glass sheet having a first major surface and a second major surface. The second major surface is opposite to the first major surface, and the first major surface and the second major surface define a thickness therebetween. The curved glass article also includes a carrier having a curvature and being made of a carrier material. The carrier material has a coefficient of thermal expansion (CTE) of from 8(10.sup.−6)/° C. to 40(10.sup.−6)/° C. The glass sheet is adhered to the carrier such that the glass sheet conforms to the curvature of the carrier.

Vehicle visual systems are disclosed to produce seamless and uniform surround-view images of the vehicle using a number of Ultra Wide-Angle (UWA) lens cameras and optionally HUD systems. A distributive system architecture wherein individual cameras are capable of performing various image transformations allows a flexible and resource efficient image processing scheme.