A method for representing the surroundings of a vehicle. The method includes: detecting the surroundings of the vehicle and ascertaining obstacles in the surroundings with the aid of surroundings sensors of the vehicle; displaying a first depiction encompassing a representation of the surroundings including the obstacles and a representation of the vehicle on a display device; establishing an approach by the vehicle to an ascertained obstacle due to the fact that a predefined distance to the obstacle has been undershot; and displaying a second depiction including a detail, enlarged in comparison to the first depiction, of the representation of the surroundings including the obstacles and the representation of the vehicle on the display device, the detail representing the area of the surroundings and of the vehicle at which the approach by the vehicle to the obstacle was established.

A method for a driver assistant image customization of vehicle-related images, a data processing circuit, a computer program, a computer-readable medium, and a vehicle, can include, with at least one sensing device of the vehicle, obtaining an input image to be customized. With at least one human-machine-interface of the vehicle or connected thereto an input determining at least one customization scheme to be performed is received. Using at least one data processing circuit of the vehicle applying artificial intelligence the input image is transformed according to the at least one customization scheme into a transformed output image. With at least one smart mirror of the vehicle or a mobile device connected to the at least one data processing circuit the transformed output image is outputted. The at least one customization scheme includes a plurality of different types of adaptation modes.

An example embodiment of the present disclosure relates to a method for monitoring the position of a connection cable of a trailer, having the steps of: capturing a region which lies behind a motor vehicle using a camera, processing the captured image data using an analysis unit, detecting the connection cable, and determining the position of the connection cable, comparing the captured position of the connection cable with a secure position of the connection cable, and outputting a warning signal if the captured position of the connection cable deviates from the secure position.

Another example embodiment additionally relates to a camera system and to a motor vehicle including a camera system.

Aspects of the present disclosure relate generally to limiting the use of an autonomous or semi-autonomous vehicle by particular occupants based on permission data. More specifically, permission data may include destinations, routes, and/or other information that is predefined or set by a third party. The vehicle may then access the permission data in order to transport the particular occupant to the predefined destination, for example, without deviation from the predefined route. The vehicle may drop the particular occupant off at the destination and may wait until the passenger is ready to move to another predefined destination. The permission data may be used to limit the ability of the particular occupant to change the route of the vehicle completely or by some maximum deviation value. For example, the vehicle may be able to deviate from the route up to a particular distance from or along the route.

A vehicular camera system includes an attaching structure configured to attach at an in-cabin side of a vehicle windshield. A camera module accommodates a circuit board and an imager and the camera module includes a lens aligned with the imager. The attaching structure includes a camera module receiving portion having an opening at a lower portion of the camera module receiving portion. With the attaching structure attached at the in-cabin side of the vehicle windshield, the camera module is inserted upward through the opening and is at least partially received in the camera module receiving portion to attach the camera module at the camera module receiving portion. With the attaching structure attached at the in-cabin side of the vehicle windshield and with the camera module at least partially received in the camera module receiving portion, the imager views through the vehicle windshield and forward of the vehicle.

The present technology relates to, for example, an image-capturing apparatus, an image processing method, and a program that make it possible to suppress an increase in costs. A controller performs an extraction control for extracting a first image and a second image from a captured image captured by an image sensor that performs image-capturing, the first image being displayed on a first display section, the second image being displayed on a second display section. A data amount adjuster adjusts data amounts of the first image and the second image according to vehicle information acquired from a vehicle. For example, the present technology is applicable to a viewing system that displays an image of a region behind a vehicle.

A display apparatus projects an image of an object located in an area outside a mobile body onto a target projection surface, the target projection surface being set in a cabin of the mobile body and having a first region and a second region. The display apparatus includes: an image data acquisition unit that acquires image data; an image processing unit that generates projection image data by performing image conversion processing including color conversion in which the first wavelength light is selected for a pixel corresponding to the first region and the second wavelength light is selected for a pixel corresponding to the second region based on region distribution information; a light source unit that emits light selected from either the first wavelength light or the second wavelength light; and a projection unit that projects the image formed by the emitted light onto the target projection surface.

To appropriately determine the display order of a plurality of images captured by at least one image capturing apparatus installed on a movable body, based on an imaging direction of the image capturing apparatus, an apparatus identifies the imaging direction of the image capturing apparatus in capturing each of the plurality of images, and determines the display order of the plurality of images based on a result of the identification.

A vehicular imaging system includes an imaging device comprising an array of photo-sensing pixels and a control having an image processor operable for processing image data captured by the imaging device. The control utilizes edge detection in processing captured image data by the image processor for detecting objects present exterior of the vehicle. Responsive at least in part to processing at the control of captured image data by the image processor, the control detects an object of interest present in the field of view of the imaging device. In detecting the object of interest present in the field of view of the imaging device and responsive at least in part to processing at the control of captured image data by the image processor, shadows present in the field of view of the imaging device are discerned and distinguished from the object of interest.

Systems and methods are provided for generating a rear view image display for a motor vehicle. A rear view system includes an optical sensor disposed at the motor vehicle and configured to capture image data, a computational unit coupled to the optical sensor by a cable connection and configured to execute program instructions stored on a computer-readable medium to modify the image data for presentation, and a display device coupled to the computational unit and configured to receive the modified image data from the computational unit and display the modified image data to a driver of the motor vehicle. The computational unit is further configured to receive software calibration to optimize modification of the image data.