A display device for the interior of a vehicle includes: (i) a display unit, which is designed for optical display of information and has a display element for this purpose and which can be or is arranged in a longitudinal extension direction of the vehicle behind a front row of seats, preferably on a roof lining of the vehicle; (ii) a movement unit, which is designed to move the display unit, in particular with the display element pivoted away from the roof lining of the vehicle, in the longitudinal extension direction, in particular controllably, between various working positions and/or to hold the display unit in a given working position; and (iii) a control unit which is designed to control the movement unit in such a way that the display unit and the display element are arranged at a predetermined first distance or first distance range from an element of the front row of seats.

A vehicle monitor device for a vehicle that includes at least a first seat and a second seat, the vehicle monitor device including: a monitor which is electrically connected to a computer of the vehicle and which can be used for driving the vehicle; and a moving mechanism capable of moving the monitor between a position where the monitor can be used for driving by an occupant seated on the first seat and a position where the monitor can be used for driving by an occupant seated on the second seat.

A rear seat occupant monitoring system for a vehicle includes a video display screen disposed in the vehicle cabin so as to be viewable by a driver of the vehicle. A camera is disposed a dome light or an overhead console. The dome light or overhead console includes first and second illumination sources that, when operated, illuminate a rear seat area within the field of view of the camera. The first illumination source principally emits visible light when electrically powered, and the second illumination source principally emits non-visible light when electrically powered. The camera captures image data representative of the rear seat area when the rear seat area is illuminated by at least one of the first and second illumination sources. Image data captured by the camera is provided to the video display screen for displaying video images for viewing by the driver of the vehicle.

A system for generating a floating three-dimensional image display within a vehicle includes an image chamber including a first display adapted to project a first image, a first reflector associated with the first display and a first passenger, a second display adapted to project a second image, and a second reflector associated with the second display and a second passenger, and a transparent display positioned between the first reflector and the first passenger, and between the second reflector and the second passenger, the first reflector adapted to reflect the first image from the first display to the first passenger, and the second reflector adapted to reflect the second image from the second display to the second passenger, and the transparent display adapted to display information to the first and second passengers within an image plane positioned in front of the perceived first and second images.

A vehicular vision system includes a driver-side exterior mirror assembly, a passenger-side mirror assembly and an interior mirror assembly. The fields of view of the mirror reflective elements of the exterior mirror assemblies are adjustable by the driver via a respective actuator. The exterior mirror assemblies include respective cameras that each have a respective rearward field of view that supplements the field of view of the mirror reflective element when viewed by the driver of the vehicle. A video display is disposed behind the mirror reflector of an interior mirror reflective element such that displayed video images are viewable through the mirror reflector of the interior mirror reflective element. The video display includes a driver-side display portion and a passenger-side display portion that each display images derived from image data captured by the respective camera while not displaying images derived from image data captured by the other camera.

A method for a display system of a motor vehicle is provided. The motor vehicle comprises one or more seats for occupants of the vehicle, the position and/or orientation of the seats within an interior of the motor vehicle being variable. The method comprises: determining a position and/or orientation of the seats; determining an orientation at least a first portion of an image to be displayed by the display system according to the position and/or orientation of the seats; and displaying the image such that at least the first portion of the image is in the determined orientation. A display system for a motor vehicle is also provided.

A vision system for a vehicle includes a driver-side exterior mirror assembly having a driver-side camera for capturing driver-side image data and a passenger-side exterior mirror assembly having a passenger-side camera for capturing passenger-side image data. A video display disposed at the vehicle displays video images derived from image data captured by the driver-side and passenger-side cameras. The video display includes a driver-side display portion and a passenger-side display portion. The driver-side display portion of the video display displays video images derived from driver-side image data captured by the driver-side camera and does not display video images derived from any passenger-side image data captured by the passenger-side camera. The passenger-side display portion of the video display displays video images derived from passenger-side image data captured by the passenger-side camera and does not display video images derived from any driver-side image data captured by the driver-side camera.

A vision system for a vehicle includes a driver-side exterior mirror assembly having a driver-side camera for capturing driver-side image data and a passenger-side exterior mirror assembly having a passenger-side camera for capturing passenger-side image data. A video display disposed at the vehicle displays video images derived from image data captured by the driver-side and passenger-side cameras. The video display includes a driver-side display portion and a passenger-side display portion. The driver-side display portion of the video display displays video images derived from driver-side image data captured by the driver-side camera and does not display video images derived from any passenger-side image data captured by the passenger-side camera. The passenger-side display portion of the video display displays video images derived from passenger-side image data captured by the passenger-side camera and does not display video images derived from any driver-side image data captured by the driver-side camera.

A cabin monitoring system for a vehicle includes a video display screen disposed in a cabin of the vehicle so as to be viewable by a driver of the vehicle. A camera assembly is disposed at a ceiling of the cabin of the vehicle and includes a camera having an imager and a lens, with the camera having a field of view that encompasses a rear seat area of the vehicle. An illumination device is operable to illuminate the rear seat area encompassed by the field of view of the camera. The illumination device, when operated, illuminates the rear seat area and the camera captures image data representative of the illuminated rear seat area. The image data captured by the camera is provided to the video display screen for displaying video images for viewing by the driver of the vehicle.

A rear seat occupant monitoring system for a vehicle includes a video display screen disposed in the vehicle cabin so as to be viewable by a driver of the vehicle. A camera is disposed a dome light or an overhead console. The dome light or overhead console includes first and second illumination sources that, when operated, illuminate a rear seat area within the field of view of the camera. The first illumination source principally emits visible light when electrically powered, and the second illumination source principally emits non-visible light when electrically powered. The camera captures image data representative of the rear seat area when the rear seat area is illuminated by at least one of the first and second illumination sources. Image data captured by the camera is provided to the video display screen for displaying video images for viewing by the driver of the vehicle.