The driving assistance system of motor vehicles comprises a driving assistance device of a motor vehicle having at least a detection device for detecting the presence of possible obstacles on the outside of the motor vehicle, first activation/deactivation means operatively connected to the detection means and adapted to the activation/deactivation of the detection means, a first RF communication unit operatively connected to the first activation/deactivation means, removable fixing means of the assistance device to the motor vehicle, and wherein the system comprises a command device of the assistance device comprising an OBD type connector coupleable to an OBD type connection port of an on-board diagnostics system of the motor vehicle.

A monitoring device for a vehicle that, in a case in which it is determined, based on information captured by a towing information capture device, that the vehicle is not towing another vehicle, provides support for monitoring an area to a rear of the vehicle using images captured by a first capture device, and in a case in which it is determined, based on the information captured by the towing information capture device, that the vehicle is towing another vehicle, provides support for monitoring the area to the rear of the vehicle using images captured by a second capture device.

A front or rear camera on a rotating arm where rotation of the camera is coupled to movement of the rotating arm such that when the rotating arm is against the front or rear of the car (parallel thereto) the camera points away from the vehicle. When the arm is rotated away from the car, the camera rotates towards the car pointing to one of a left blinker, right blinker, or license plate. This can be controlled via a manual switch in the car which rotates one or both of the camera and rotating arm or automatically as a function of placing the car in reverse or using a turn signal, such as by way of acting on output from a car's diagnostic port.

A three-dimensional object detection device can enhance the accuracy in detecting a three-dimensional object regardless of the brightness in the detection environment. The device has an image capture means that captures an image of a predetermined area and an image conversion means that converts the image through a viewpoint conversion into birds-eye view image. A first three-dimensional object detection means aligns positions of bird's-eye view images at different times obtained by the image conversion means, counts the number of pixels that exhibit a predetermined difference on a differential image of the aligned bird's-eye view images to generate a frequency distribution thereby creating differential waveform information, and detects a three-dimensional object on the basis of the differential waveform information. A second three-dimensional object detection means detects edge information from the bird's-eye view image obtained by the image conversion means and detects a three-dimensional object on the basis of the edge information.

Systems and methods are provided for imaging a region of interest. A structured light source is configured to provide a substantially two-dimensional light curtain within a field of view of the camera formed by at least one projected laser beam at a wavelength detectable by the camera. An image analysis component is configured to detect objects within the region of interest from at least a position of the at least one projected laser beam within the image.

A surrounding image display apparatus for a vehicle includes: left and right side cameras respectively configured to take left and right obliquely rear images of the vehicle including at least side regions of left and right rear wheels; a display device arranged in a vehicle cabin; and an electronic control device configured to control an image displayed on the display device. When a preset condition is satisfied, the electronic control device displays on the display device at least one of the left and right obliquely rear images, which are taken by the side cameras, respectively, such that a rear side of the vehicle corresponds to an upper side of the image.

The invention relates to a rear view mirror assembly for a vehicle comprising a housing configured for mounting to a vehicle; one or more mirror units disposed in the housing, wherein each mirror unit comprises a reflective mirror element and a mirror mount for securing the mirror element within the housing, wherein at least one mirror unit is an overhead mirror unit that is positioned to allow an operator in the vehicle to see an area that is behind the operator and above the vehicle.

There is disclosed a viewing system coupled to a motor vehicle having a frame having a roof, at least one support, and a body with the at least one support supporting the roof over the body. The system can comprise at least one camera, at least one screen coupled to the support. In addition each camera is coupled to the at least one support and wherein said at least one screen is in communication with the first set of cameras, wherein said at least one screen displays images presented by the first set of cameras. This device can provide additional view in the blind spot of the vehicle.

The invention relates to a device, to a vehicle, and to a method for measuring a dimension between at least two points on surfaces. The device comprises an image-generating apparatus configured to scan the surroundings of the vehicle, and a display apparatus configured to display a representation of the surroundings of the vehicle. The device also includes an input apparatus configured to define at least two points as measuring points between which a dimension is to be determined in the displayed representation, a surroundings sensor configured to sense a distance and a direction of each of the measuring points with respect to the vehicle, and an evaluation apparatus configured to determine the dimension based on the sensed distances and directions of the measuring points, wherein the evaluation apparatus is further configured to output the determined dimension.

A vehicle side-view mirror control system includes a pair of extendable side-view mirrors and a controller configured to receive and store one or more trailer identifying indicia and one or more predetermined extendable side-view mirror configurations. The controller is configured to control translation of at least one of the pair of side-view mirrors to a one of the one or more predetermined extendable side-view mirror configurations according to the one or more stored trailer identifying indicia. The one or more trailer identifying indicia define or identify a specific trailer having been previously towed by the vehicle.