The head-up display apparatus includes: a vehicle information acquisition unit configured to acquire various kinds of vehicle information which can be detected by a vehicle; a controller configured to control display of a video image based on the vehicle information; a video image display configured to form the video image based on an instruction from the controller; a mirror configured to reflect the video image formed by the video image display to project onto the windshield; a mirror driver configured to change an angle of the mirror based on an instruction from the controller; and a display distance adjusting mechanism configured to adjust a display distance of the virtual image with respect to the driver, and the controller adjusts the angle of the mirror via the mirror driver based on the vehicle information such that the virtual image can be displayed with respect to the driver overlapped with the scenery.

On an inner wall in the interior of a vehicle, a display device is subdivided into a plurality of display fields with two directly adjacent display fields connected to each other along a common axis. At least one display field can be pivoted relative to at least one bending plane to beam display content into the interior at an angle a relative to the at least one bending plane. In a first operating position, a surface of this at least one display field is oriented perpendicular to the at least one bending plane. In a second operating position, this at least one display field is pivoted relative to the at least one bending plane at an angle 90 relative to the at least one bending plane to beam the display content into the interior parallel to the at least one bending plane.

A driver interface system includes a steering wheel assembly and a display. The steering wheel assembly includes a variable-function input device. The variable-function input device includes a plurality of assignable functions and a present function being one of the plurality of assignable functions. The display is configured to display an image corresponding to the present function of the variable-function input device. The driver interface system may include a plurality of display modes, and in response to a change in display mode, the driver interface system may change the present function in the plurality of assignable functions. The steering wheel assembly may also include a touchpad configured to receive a handwritten input, and the display may be configured to display an image corresponding to the handwritten input.

An assembly of a graphical user interface in a transportation vehicle with a transportation vehicle seat to which a range is assigned and having a touchscreen arranged in the transportation vehicle relative to the transportation vehicle seat so a first sub-region of the touchscreen is arranged within the range and a second sub-region is arranged outside of the range. The assembly includes a control unit by which a virtual operating surface with an application region and an information region are generated. The virtual operating surface is output on the touchscreen so the application region extends substantially over the first sub-region of the touchscreen and the information region extends substantially over the second sub-region of the touchscreen. During the output process, a first section of the virtual operating surface is displayed on the touchscreen.

A head up display arrangement for a motor vehicle includes a global positioning system module emitting geographic location coordinates associated with the motor vehicle. A database includes lane marking location data stored in association with corresponding geographic location coordinates. An electronic processing device is communicatively coupled to the global positioning system module and to the database. The electronic processing device receives the geographic location coordinates and retrieves from the database lane marking location data stored in association with the received geographic location coordinates. The electronic processing device transmits the retrieved lane marking location data. A head up display is communicatively coupled to the electronic processing device and receives the transmitted lane marking location data. The head up display displays virtual lane markings dependent upon the received lane marking location data.

The disclosure specifies a display device for a motor vehicle. The display device has a memory unit that stores visual requirements of vehicle occupants, an identification component that identifies a vehicle occupant, a processing unit that is designed to assign the visual requirements to an identified vehicle occupant and transfer the assigned visual requirements to a display. The display is individually adjustable to visual requirements of a vehicle occupant.

Method and apparatus are disclosed for transferring control of one or more vehicle functions from a driver HUD to a passenger HUD. An example vehicle includes a driver HUD, a passenger HUD, and a processor. The processor is configured for enabling control of one or more vehicle functions via the driver HUD responsive to determining that the vehicle speed is below a threshold. The processor is also configured for transitioning control of the one or more vehicle functions from the driver HUD to the passenger HUD responsive to determining that the vehicle speed has increased above the threshold.

Embodiments of the present invention provide a human-machine interface (HMI) for a vehicle, comprising an output means (40, 50) for outputting information, passenger monitoring means (20) for determining a status of at least one passenger within the vehicle and to outputting a passenger status signal indicative thereof, control means (10) for determining an operating state of one or more systems of the vehicle, wherein the control means (10) is arranged to receive the passenger status signal, and wherein the control means (10) is arranged to compose an output from the output means (40, 50) in dependence on the operating state of the one or more systems and the passenger status signal.

An information presentation device, mounted on a vehicle for which automatic evacuation control functions when it is difficult for a driver to continue driving the vehicle, and presenting information to an occupant of the vehicle except the driver by a display in a display area that is visually recognizable by the occupant, includes: an operation information acquisition unit that acquires operation information of the automatic evacuation control; and a display generation unit that generates an occupant notification display that is displayed in the display area to notify information relating to the automatic evacuation control when the automatic evacuation control is in operation. The occupant notification display includes: an explanatory image that shows an explanation of a process executed currently; and a progress image that indicates a degree of progress in the automatic evacuation control.

An information display apparatus emits an image forming light beam to a transmissive reflection member and makes a virtual image visible through the reflection member. The information display apparatus is configured to display the virtual image so that a difference between a convergence angle when viewing the virtual image through the reflection member and a convergence angle when viewing a real object through the reflection member is less than or equal to 1 degree.