A shading device comprises: a shading member; a display apparatus disposed on a surface of the shading member in such a manner that a display portion faces to an operator; an image pickup device to pick up, as an image, a region which an opposite surface of the surface faces, and generate image pickup data; and a data processing circuit to generate display image data, based on the image pickup data. An image display module comprises: a display apparatus to be disposed on a surface of a shading device in such a manner that a display portion faces an operator; an image pickup device to pick up, as an image, a region to which an opposite surface of the surface faces, and generate image pickup data; and a data processing circuit to generate display image data, based on the image pickup data.

A viewing system (100) for a vehicle (10, 10A, 10B, 10C) having at least one capture unit (20A, 20B) adapted to capture at least one first near area (1, 2, 3, 4) around the vehicle (10, 10A, 10B, 10C), at least one control unit (30) adapted to process the data captured by the capture unit (20A, 20B) and at least one reproduction unit (40A, 40B) adapted to show the near area (1, 2, 3, 4) visibly for a driver which steers the vehicle (10, 10A, 10B, 10C). During driving maneuvers conditioned by the situation, in addition, at least one collision area (K1, K2) which comprises an area at risk of collision around the vehicle (10, 10A, 10B, 10C) is shown on the reproduction unit (40A, 40B). The collision area (K1, K2) corresponds to an image section of a near area (1, 2, 3, 4) captured by the capture unit around the vehicle (10, 10A, 10B, 10C).

A camera device for detecting a surrounding area of a subject vehicle has optoelectronics including a high-resolution image capturing sensor and a wide-angle optical system. The optoelectronics are designed to output an image sequence of the surrounding area with a periodic variation of high-resolution images and resolution-reduced images.

A display system for a vehicle includes a first imager configured to capture image data in a field of view rearward of the vehicle. A second imager is also configured to capture image data in the field of view rearward of the vehicle. The display system additionally includes a first display device disposed in a passenger compartment of the vehicle and a second display device also disposed in the passenger compartment of the vehicle. The display system also includes a controller in communication with the first and second imagers and the first and second display devices wherein the controller is operable to adjust at least one of an orientation and a scale of two desired views of the image data for display on the first and second display devices.

A periphery display control device includes: an image acquisition unit acquiring captured image data obtained by imaging a periphery of an own vehicle; a target acquisition unit acquiring a target position to which the own vehicle moves; an image generation unit generating a virtual viewpoint image while moving, based on a relative angle of the target position with respect to a movement direction of the own vehicle when moving to the target position, at least one of a virtual viewpoint set at a position facing the target position across the own vehicle and a gazing point when facing an area including at least one of the own vehicle and the target position from the virtual viewpoint in a state where a distance between and heights of the virtual viewpoint and the gazing point are maintained; and an output unit outputting the virtual viewpoint image to a display device.

A display system comprises: a shooting unit configured to shoot a periphery of a vehicle; a display unit configured to display an image shot by the shooting unit: and a display control unit configured to switch a display mode of display of the display unit between a first display mode for displaying a first display region and a second display mode for displaying a second display region that is different from the first display region. When the display mode is switched to the second display mode in a state in which a display range of the display unit has been adjusted in the first display mode, the display control unit displays the second display region based on an adjusted display range.

A display system comprises: a shooting unit configured to shoot a periphery of a vehicle; a display unit configured to display an image shot by the shooting unit; and a display control unit configured to switch a display mode of display in the display unit between a first display mode for displaying a first display region and a second display mode for displaying a second display region that is different from the first display region. When the display mode is switched to the second display mode in a state in which a display range of the display unit has been adjusted in the first display mode, the display control unit displays the second display region regardless of the adjustment of the display range.

A vehicular display control device includes a video acquiring unit configured to acquire video data captured by a rear camera configured to capture a rear view of a vehicle, a frequency detecting unit configured to detect a frequency of a driver's action in the vehicle for changing a range of view with respect to a display installed in front of the driver, a video data generating unit configured to clip, when the frequency of the driver's action detected by the frequency detecting unit becomes high, a clipping range in the captured video data acquired by the video acquiring unit wider than a clipping range before the frequency of the driver's action becomes high to generate video data for a predetermined time, and a display controller configured to cause a display installed in front of the driver to display the video data generated by the video data generating unit.

An ECU as a vehicle device includes an image generation unit that generates an image in a predetermined reference coordinate system, a viewpoint position identification unit that identifies a viewpoint position of a driver; a superimposed position identification unit that identifies a display position at which the image is displayed within an eyesight of the driver; an image conversion unit that generates a converted image obtained by converting the image into a coordinate system having the viewpoint position of the driver as a reference point; and a notification unit that displays a display image falling within the converted image so as to be superimposed on the eyesight of the driver with the projection device.

A method is shown to indicate to a driver of a vehicle the presence of an object moving relative to the vehicle. The method begins by collecting data using a camera or other such image capturing device. The data is analyzed to detect a hazard created by the presence of the object, regardless of whether it is moving or not. A warning associated with the hazard is created. Both the hazard and the warning are displayed using the display device.