Disclosed herein are an around view provision apparatus and a vehicle including the same. The around view provision apparatus includes a plurality of cameras mounted on a vehicle, a display, and a processor configured to receive a plurality of images from the plurality of cameras, to check locations of the images using first area patterns in the plurality of images, to compensate a parameter in an image using second area patterns located in overlapping areas between the plurality of images, and to generate an around view image based on the compensated parameter. Accordingly, it is possible to provide an accurate around view image based on a calibrated image.

Vehicle visual systems are disclosed to produce seamless and uniform surround-view images of the vehicle using a number of Ultra Wide-Angle (UWA) lens cameras and optionally HUD systems. A distributive system architecture wherein individual cameras are capable of performing various image transformations allows a flexible and resource efficient image processing scheme.

For driver assistance for a combination (8) with a motor vehicle (9) and a trailer (10), a first camera image (19) and a second camera image (20) are generated. A combined image (21) is generated by means of a computing unit (13) by superimposing the camera images (19, 20) such that the second camera image (20) covers a subsection of the first camera image (19), wherein a hitch angle (14) of the combination (8) is determined by means of the computing unit (13). State data of the combination (8) are determined by means of a sensor system (17) and it is determined whether the combination (8) moves forward or backward. The hitch angle (14) is determined based on the state data, if the combination (8) moves forward and based on a change of time-dependent image data, if the combination moves backward. A position of the subsection is determined depending on the hitch angle (14).

A method for overlapping images is revealed. After overlapping the overlapped regions in two depth images generated by structured-light camera units, a first image, the overlapped image, and a fourth image are display on a display unit. Thereby, the drivers' viewing ranges blocked by the vehicle body while viewing outwards from the interior of a vehicle can be retrieved. Then the drivers' blind spots can be minimized and thus improving driving safety.

A vehicle display device includes: a display unit that is disposed in a host vehicle and that displays an image; an imaging unit that captures an image of circumstances surrounding the host vehicle; and a controller configured to perform processing through which, by controlling the display unit, a virtual vehicle image representing a virtual vehicle imitating the host vehicle is displayed, and the image of the circumstances surrounding the host vehicle captured by the imaging unit is pasted for display as a reflected image representing reflection in the host vehicle onto an outer panel of the virtual vehicle represented by the virtual vehicle image.

Systems and methods for a rear-viewing camera system for a vehicle. A first camera is mounted on the vehicle with a field of view that is at least partially obstructed by a tailgate of the vehicle and/or a load carried by the vehicle. A second camera is mounted on the vehicle with a field of view that includes an unobstructed view of an imaging area that is obstructed in the field of view of the first camera. A tailgate position sensor is configured to output a signal indicative of a current position of the tailgate of the vehicle. By determining a position of the tailgate, an electronic controller is configured to generate an output image in which the tailgate and/or the load appear at least partially transparent by replacing image data that is obstructed in the image captured by the first camera with image data captured by the second camera.

A display device for a vehicle, including: a rear imaging section that captures a rear image; a rear lateral imaging section that captures rear lateral images; and a control section that generates a combined image in which a rear processed image obtained by processing the rear image with a first parameter, and rear lateral processed images obtained by processing rear lateral images with a second parameter, are combined, wherein the control section further identifies an object existing in the rear image or the rear lateral images; acquires relative information including relative position and relative speed of the object with respect to the vehicle, and blind spot regions of the combined image; and, based thereon, if the object will disappear from the combined image due to entering into the blind spot regions, changes the blind spot regions by adjusting the first and second parameters.

A method for operating a vehicle camera system including receiving a first image from at least one video camera, identifying a first object in the first image, determining a distance between a vehicle component and the identified object, modifying the first image by incorporating a human machine interface (HMI) within the first image, wherein the human machine interface includes a display configured to communicate the distance between the object and the vehicle component, and displaying the modified image to a vehicle operator.

A method of assisting a driver in maneuvering a vehicle with a trailer hitched to the vehicle includes equipping a vehicle with a trailering assist system that includes (i) a camera disposed at the vehicle and viewing a trailer that is hitched the vehicle and (ii) a control having an image processor. During a reversing maneuver of the vehicle and trailer, image data is captured by the camera and vehicle parameters are provided to the control. Responsive to the vehicle parameters and processing of captured image data, the trailering assist system estimates an estimated trailer angle and an estimated vehicle steering wheel angle. The estimated vehicle steering wheel angle and an actual steering wheel angle are compared to determine a steering wheel angle error. The estimated trailer angle is modified in subsequent determinations of the estimated trailer angle based at least in part on the determined steering wheel angle error.

A vehicle control device including: a display; a recognizer; a driving controller that generates a target trajectory of a subject vehicle on the basis of states of objects recognized and controls one or both of a speed and steering of the subject vehicle on the basis of the generated target trajectory; and a display controller that causes to display images resembling the other vehicles recognized as the objects, wherein the display controller causes to display a first image resembling a first vehicle having an influence on a behavior of the subject vehicle according to the driving controller and a second image resembling a second vehicle having an influence on generation of the target trajectory among the other vehicles recognized as the objects with more emphasis than a third image resembling a third vehicle other than the first vehicle and the second vehicle.