A method for detecting an object via a vehicular vision system includes disposing first and second cameras at respective locations at a vehicle so as to have respective first and second fields of view rearward of the vehicle. The locations are vertically and horizontally spaced apart by respective vertical and horizontal separation distances. With the first and second cameras disposed at the respective locations, the first field of view at least partially overlaps the second field of view. An electronic control unit (ECU) is provided that includes an image processor. Image data is captured by the cameras and provided to the ECU and processed at the ECU. The ECU, responsive to processing of captured image data and based on the separation distances, determines presence of an object in the overlapping region of the first and second fields of view and determines the location of the object relative to the vehicle.

To achieve excellent ease in operations in relation to the display output of an in-vehicle display device.

Comprises: image acquiring means for acquiring a captured image wherein the vicinity of a vehicle has been imaged; region setting means for setting a prescribed region between displaying means, installed within a cabin of the vehicle and a position wherein a vehicle occupant is within the cabin of the vehicle; function setting means for setting a display function associated with a prescribed region; viewpoint position detecting means for detecting a position relating to a viewpoint of the vehicle occupant; and image controlling means for controlling the displaying means so as to display the captured image, wherein: when the position relating to the viewpoint is detected as being in a prescribed region, the controlling means execute the display function on the captured image displayed by the displaying means.

For a vehicle (1) with a tractor (2) and a trailer (3), a view system has a capture unit (10) with an image sensor (12) for capturing image data of an area of view, around the vehicle, a processing unit (20) for processing the image data, and a reproduction unit (30) for reproducing at least one first image section (410) and one second image section (420) of the area of view (40) captured by the capture unit (10). The processing unit provides different resolutions of image data depending on the position of the tractor with respect to the trailer.

A surround view monitoring system and a method for providing the same, including a plurality of registration cameras, each mounted on a vehicle and photographing different areas around the vehicle; a depth camera that acquires distance information with respect to an obstacle existing around the vehicle; an image synthesis unit that generates a synthesis image by synthesizing images photographed by the plurality of registration cameras, and displays the distance information with respect to the obstacle acquired by the depth camera on an obstacle existing in the synthesis image; and an image control unit that displays the synthesized synthesis image on a display device are disclosed.

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.

In accordance with an example embodiment, a main frame, a work tool configured to move relative to the main frame to move a material, a first imaging apparatus aimed at a first portion of the work tool to capture a first image, a second imaging apparatus aimed at a second portion of the work tool to capture a second image, an electronic processor in communication with the first imaging apparatus and the second imaging apparatus, wherein the electronic processor is configured to generate a modified image, and a display for displaying the modified image of the material being moved by the work tool, wherein the modified image is based on a combination of the first image and the second image, and the modified image omits the work tool.

The present disclosure relates to a method for illustrating the ground underneath a vehicle using an around view monitoring system. The around view monitoring system comprises at least one camera, a processing unit and a display unit. The method comprises taking at least one image on the ground using at least one camera, tracking the position of the ground with respect to the vehicle and visualizing the ground as an under vehicle view and as a function of the vehicle speed, if the vehicle is moved over at least a portion of the ground. An around monitoring system is also provided.

Example lane detection systems and methods are described. In one implementation, a method receives an image from a front-facing vehicle camera and applies a geometric transformation to the image to create a birds-eye view of the image. The method analyzes the birds-eye view of the image using a neural network, which was previously trained using side-facing vehicle camera images, to determine a lane position associated with the birds-eye view of the image.

A control device includes: a display control unit configured to display a candidate position image on the display device when a candidate position is detected; and a reception unit configured to receive an operation of selecting a candidate position image indicating a candidate position to be set as a target position from among a plurality of candidate position images when the plurality of candidate position images are displayed on the display device. When the plurality of candidate position images are displayed in an overlapped manner and one candidate position image among the plurality of candidate position images is selected, and when an operation is performed on an operation valid region on a display screen, the reception unit changes the selected candidate position image to another candidate position image among the plurality of candidate position images. The operation valid region is a region including the plurality of candidate position images.

According to one embodiment, an overhead image generation apparatus includes: a plurality of cameras mounted to a vehicle; an image processor that takes in images of respective cameras, generates, for respective cameras, overhead images that have been subjected to viewpoint conversion processing based on calibration data of the cameras and virtual viewpoint/line-of-sight information, and generates a synthesized overhead view by connecting the overhead images at their boundaries; and a display device that displays the synthesized overhead view generated by the image processor, wherein a proportion of a shape of the overhead image in a height direction is changed in proportion to an arrangement height of each camera.