A vehicle includes a camera for capturing a rear image and effectively outputs a rear image captured through a mobile device when the vehicle does not include a display. A method of providing the rear image of the vehicle includes: setting a data path with a smart device, acquiring a rear image from a rear camera of the vehicle, correcting the acquired rear image based on a vehicle speed and delay that occurs in the data path, and transmitting the corrected image to the smart device.

A vehicular vision system includes first and second cameras disposed at a vehicle and having respective overlapping fields of view that include a road surface of a road along which the vehicle is traveling. Image data captured by the cameras is provided to an image processor and is processed to determine relative movement of a road feature present in the captured image data. The determined movement of the road feature relative to the vehicle in first image data captured by the first camera is compared to the determined movement of the road feature relative to the vehicle in second image data captured by the second camera, and at least a rotational offset of the second camera at the vehicle relative to the first camera at the vehicle is determined and the image data are remapped to at least partially accommodate misalignment of the second camera relative to the first camera.

A user interface apparatus for a vehicle includes: an interface unit; a display unit configured to project an augmented reality (AR) graphic object onto a screen; at least one processor; and a computer-readable medium coupled to the at least one processor having stored thereon instructions which, when executed by the at least one processor, causes the at least one processor to perform operations including: acquiring, through the interface unit, front view image information and vehicle motion information; based on the front view image information, generating the AR graphic object; and based on the vehicle motion information, warping the AR graphic object.

An image display control device displays, on a monitor, images of the periphery of a vehicle that are captured by a left camera and a right camera installed in the vehicle. The device includes: a vehicle detection unit which detects another vehicle from the images captured by the left camera and the right camera; an enlargement unit which, when the other vehicle is detected by the vehicle detection unit, subjects the images captured by the left camera and the right camera to enlargement processing on the basis of a delay time the images take to be displayed on the monitor; and an output unit which outputs the images subjected to the enlargement processing by the enlargement unit to the monitor.

A user interface apparatus for a vehicle including an interface unit; a display; a camera configured to capture a forward view image of the vehicle and a processor configured to display a cropped area of the forward view image on the display in which an object is present in displayed cropped area, display a first augmented reality (AR) graphic object overlaid onto the object present in the displayed cropped area, change the cropped area based on driving situation information received through the interface unit, and change the first AR graphic object to a second AR object based on the driving situation information.

Disclosed are systems, methods, and non-transitory computer-readable media for adjusting depth of AR content on HUD. A viewing device identifies, based on sensor data, a physical object visible through a transparent display of the vehicle. The sensor data indicates an initial distance of the physical object from the vehicle. The viewing device gathers virtual content corresponding to the physical object and generates an initial presentation of the virtual content based on the initial distance. The viewing device presents the initial presentation of the virtual content on the transparent display at a position on the transparent display corresponding to the physical object. The viewing device determines, based on updated sensor data, an updated distance of the physical object and generates an updated presentation of the virtual content based on the updated distance. The viewing device presents the updated presentation of the virtual content on the transparent display of the vehicle.

A display control device is disposed in a vehicle in which a camera photographing a first captured image indicating an image on a rear right side of the vehicle and a display displaying the first captured image are mounted. The display control device includes an image acquiring unit acquiring the first captured image from the camera and a display control unit controlling the first captured image displayed on the display. The display control unit causes the display to display one of a narrow angle image indicating a part of the first captured image and a wide angle image indicating an image in a range wider than the narrow angle image in the first captured image and to display the first captured image such that a size of a first region in displaying the wide angle image is larger than a size of the first region displaying the narrow angle image.

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 visual field support image generation device for generating a visual field support image of a vehicle has a camera that captures an image from the vehicle and a processing section. The processing section covers the image captured by the camera to generate the visual filed support image. The image is covered by compressing the captured image so that a compression ratio of the captured image in a horizontal direction becomes higher than a compression ratio of the captured image in a vertical direction by using a depth vanishing point included in the captured image as the center.

A method, an apparatus and a system for displaying an image of a vehicle blind spot are provided. The apparatus is coupled to at least one external camera disposed outside the vehicle, at least one internal camera disposed inside the vehicle with a lens facing towards a driver, and at least one display disposed inside the vehicle. The method comprises capturing an image of the external environment of the vehicle by the external camera as an external image, capturing an image including the driver by the internal camera as an internal image, recognizing a face of the driver and a displacement of the face in the internal image, and adjusting a position of an ROI in the external image according to the recognized displacement, to display an image of the ROI on the display corresponding to the external camera. The displayed image of the external of the vehicle may be adjusted according to the posture or the angle of view of the driver, to have the image of the current blind spot by the driver shown correctly.