There is disclosed a viewing system coupled to a motor vehicle having a frame having a roof, at least one support, and a body with the at least one support supporting the roof over the body. The system can comprise at least one camera, at least one screen coupled to the support. In addition each camera is coupled to the at least one support and wherein said at least one screen is in communication with the first set of cameras, wherein said at least one screen displays images presented by the first set of cameras. This device can provide additional view in the blind spot of the vehicle.

A vehicle periphery monitoring device includes a plurality of sensors including a rear camera, a rear right-side camera, and a rear left-side camera, a display unit that is provided inside a vehicle cabin, memory, and a processor that is coupled to the memory. The processor is configured so as to acquire a rear image that includes a first image of a vehicle rear side acquired by the rear camera, a second image of a vehicle rear right-side acquired by the rear right-side camera, and a third image of a vehicle rear left-side acquired by the rear left-side camera, acquire from the plurality of sensors relative positions of a target that is present in areas including the vehicle rear side, the vehicle rear right-side, and the vehicle rear left-side relative to a host vehicle, determine whether or not the acquired relative positions of the target are mutually consistent with each other in the plurality of sensors, display a single composite image that is created by combining the first image, the second image, and the third image at the display unit in a case in which it is determined that the relative positions of the target are mutually consistent with each other, and display the first image, the second image, and the third image individually and adjacently to each other on the display unit in a case in which it is determined that the relative positions of the target are not mutually consistent with each other.

A movable carrier auxiliary system includes at least two optical image capturing systems respectively disposed on a left portion and a right portion of a movable carrier. Each optical image capturing system includes an image capturing module, an operation module, at least one warning module, and at least one displaying device, and has at least one lens group including at least two lenses having refractive power. The image capturing module captures and produces an environmental image surrounding the movable carrier. The operation module electrically connected to the image capturing module detects at least one moving object in the environmental image to generate a detecting signal. The warning module electrically connected to the operation module receives the detecting signal, and generates a warning signal when determines that the moving object approach to the movable carrier. The displaying device is electrically connected to the warning module to display the warning signal.

A pair of outside view displays that are provided on an instrument panel, are located outside a steering in a vehicle width direction, and display captured outside view images and displays that are provided inside the outside view displays in the vehicle width direction and have display regions from a driver seat to a front passenger seat are provided, and the outside view displays are provided so as to face the inside in the vehicle width direction and are disposed such that inner ends of the outside view displays are located on a front side of the vehicle relative to closer left and right ends of the displays.

A rear view device for a motor vehicle includes a base assembly for arrangement on the motor vehicle, a moveable head assembly attached to the base assembly, and an actuation mechanism, the actuation mechanism including a fixed part attached to the base assembly and a moveable part attached to the head assembly, where the actuation mechanism allows movement of the moveable part with respect to the fixed part in one or more axes.

A display image is obtained in accordance with a deviation of a viewpoint position of a driver from a reference viewpoint position, on the basis of a captured image obtained by capturing an image on a rear side from a vehicle. The reference viewpoint position is updated on the basis of a long-term fluctuation of the viewpoint position. For example, the reference viewpoint position is not updated when a line-of-sight of the driver is in a certain region including a display unit that displays a display image. For example, when a viewpoint position of the driver enters a certain region corresponding to a seated state, there is registered, as an initial reference viewpoint position, a viewpoint position of the driver in a case where a line-of-sight of the driver is continuously present for a certain period of time on the display unit that displays a display image.

In accordance with the teachings described herein, a rearview device for a vehicle is provided that includes a moveable head assembly; a base assembly to be fixed to the vehicle; an actuator assembly; and a cradle configured to attach the actuator assembly to the moveable head assembly and/or the base assembly and a vehicle with such a rearview device.

An image display apparatus 10 comprises image capturing units 11L, 11R, display units 12L, 12R, and adjusting units 14, 16 that adjust a position at which to display a captured image 30 on the display units. The adjusting units 14, 16 have a plurality of adjustment modes in which the position can be adjusted. The plurality of adjustment modes include a first mode (self-aiming mode) in which it is possible to adjust the position by an operation on only a first switch 14, and a second mode (service center aiming mode) in which it is possible to adjust the position by a simultaneous operation on the first switch and a second switch 15.

A vehicle is equipped with a docking station for a driver's smart device. The smart device displays engine related and other information to the driver while operating the vehicle. The smart device provides a supplementary screen to the screen installed in the vehicle at manufacture, or acts as an alternative to having a screen installed at manufacture. The docked smart device replaces one or more of the instruments normally present in a vehicle dashboard or motorcycle instrument cluster. The smart device also controls operation of the vehicle.

The invention relates to a rear view mirror system (1) for motor vehicles (10) comprising a rear view mirror device (2) with a rear view mirror base (21) to be attached to a vehicle (10) and a rear view mirror head (22) attached to the rear view mirror base (21) comprising a mirror element (23) arranged in the rear view mirror head (22) and being transparent or transluminant from inside of the rear view mirror head (22), wherein an actuator (3) enables to adjust an orientation of the mirror element (23) by rotating and/or tilting the mirror element (23) and/or the rear view mirror head (22), wherein a camera (4) is arranged inside the rear view mirror head (22) behind the mirror element (23) for recording a camera view (CV) with a first viewing angle of the surroundings of the vehicle (10) at least through the mirror element (23), wherein a control unit (5) processes the camera view (CV) received from the camera (4) to provide a monitor view (MV) with a second viewing angle being smaller than the first viewing angle being displayed on a monitor (6) to provide the monitor view (MV) to a driver (20) of the vehicle (10), and wherein the control unit (5) is adapted to extract the monitor view (MV) from the camera view (CV) as part of the camera view (CV), with the monitor view (MV) being kept constant regardless on the camera orientation, and/or the control unit (5) is adapted to re-calibrate the camera (4) with respect to the orientation of the mirror element (23) relative to the camera (4) in case of the rear view mirror device (2) enables movements of the mirror element (23) relative to the camera (4), or the control unit (5) is adapted to re-calibrate the camera (4) with respect to the orientation of the mirror element (23) relative to the rear view mirror base (21) in case the rear view mirror device (2) enables movement of the mirror element (23) and the camera (4) together with the rear view mirror head (22). It also relates to a motor vehicle with such a rear view system as well as a method operating such a rear view mirror system.