A vehicular camera includes a lens holder, a plurality of printed circuit boards and a housing portion. The individual printed circuit boards are stacked and overlap one another. Circuitry disposed at a first printed circuit board is electrically connected with circuitry disposed at a second printed circuit board via board-to-board electrical connection. The first side of the first printed circuit board is adhesively bonded to the lens holder via cured adhesive. Thermally conductive material is disposed between and is in thermally-conductive contact with the first printed circuit board and the second printed circuit board. A first electrical connector is disposed at the second printed circuit board and electrically connects with a second electrical connector of an electrical connector portion of the housing portion as the housing portion is being joined with the lens holder to encase the plurality of printed circuit boards during assembly of the vehicular camera.

The present disclosure provides a blocked information displaying method and system for use in an autonomous vehicle. The method comprises obtaining information about a road ahead the autonomous vehicle and information about a rear vehicle; determining road information blocked by the autonomous vehicle, according to a positional relationship between the autonomous vehicle and the rear vehicle; displaying the road information blocked by the autonomous vehicle to the rear vehicle. The present disclosure is used to solve problems in the prior art that the autonomous vehicle blocks road surface information and causes limitation to the field of vision of the rear vehicle, and that real-time display of the images of the road ahead the autonomous vehicle is prone to cause confusion, and can effectively improve the safety of the travel of the rear vehicle.

Methods and systems for sharing image data between vehicles. The system includes an image sensor of a first vehicle configured to detect image data of an environment around the first vehicle as it traverses a road. The system also includes a transceiver of the first vehicle configured to communicate the detected image data. The system also includes a transceiver of a second vehicle configured to receive the detected image data. The system also includes a display screen of the second vehicle configured to display a view of the environment around the road based on the detected image data.

A self-driving vehicle with an external advertising platform, such as video display signage, designed to provide on-demand video ever-changing advertising. The audiences of such advertisements would include those individuals that were in proximity to the self-driving vehicle as it traversed a geographic area. A large fleet of such self-driving vehicles could constantly move between targeted areas, including suburban neighborhoods to reach a maximum audience, without the need of a human operator.

A vehicular sensing system includes a data processor disposed at a vehicle, a camera disposed at an in-cabin side of the vehicle windshield, and a range sensor disposed at the vehicle and having a field of sensing that overlaps a portion of the field of view of the camera. During a driving maneuver of the vehicle, the system detects another vehicle that is located within the radar sensor's field of sensing and outside of the camera's field of view and determines movement of the range sensor-detected other vehicle relative to the vehicle. When the range sensor-detected other vehicle enters the field of view of the camera, the system, at least in part via processing at the data processor of image data captured by the camera, determines that the range sensor-detected other vehicle is an object of interest. A system output is provided for use by a driving assist system.

A remote operation terminal is provided with: a terminal-side control device configured so as to be capable of communicating with a control device, the terminal-side control device being a control unit for controlling the actuation of the remote operation terminal; a suspended load movement operation tool, which is a first operation unit for remotely operating a crane device; and a reference change operation tool, which is a second operation unit for setting an operation direction reference of the suspended load movement operation tool in relation to a vehicle direction reference of a crane. The terminal-side control device calculates the actuation direction of the crane device in relation to the operation of the suspended load movement operation tool, on the basis of a setting value of the reference change operation tool, and transmits the actuation direction to the control device.

An outside sensing information processing device for suppressing adverse influence on warning of an advanced vehicle safety system. The vehicle safety system receives position information of an object detected by another vehicle or a road, the positions of feature points of a stationary object, and configuration information of an environmental map. When the system receives the information, the position of the object on the environmental map is calculated. Another vehicle also transmits position information of itself. The present vehicle checks an error of the position information of the vehicle detected by the other vehicle from the position information of the another vehicle and the relation of the position of a feature point detected by the another vehicle and the position of the feature point detected by the present vehicle. In the case where the error is large or unstable, use of the position information from the other vehicle is avoided.

A vehicular camera configured to be disposed at a vehicle so as to have a field of view exterior of the vehicle includes a lens holder, an imager printed circuit board, a connector printed circuit board and a rear housing. The circuitry of the imager printed circuit board is electrically connected to the circuitry of the connector printed circuit board via a flexible electrical connector. The imager printed circuit board has an imager disposed at a side thereof and is attached to the lens holder with the imager side facing the lens. The imager printed circuit board and the connector printed circuit board are joined together via a pliable material. The rear housing is mated with the lens holder to encase the imager printed circuit board and the connector printed board.

A vehicle has a trailer hitch, a vehicle electrical connector configured to electrically connect to a trailer electrical connector, and an imaging system oriented to captures images proximate to the trailer hitch. The vehicle also includes a proximity sensing system arranged to sense objects proximate to the trailer hitch and generate a proximity signal, an electrical connection detection system to detect an electrical connection to the vehicle trailer connector and generate an electrical connection signal, and a controller processing the captured images, the proximity signal and the electrical connector signal and determining a connection state of a trailer to the vehicle based on the captured images, the proximity sensor and the electrical connector signal, and generating an output indicative of the determined connection state.

Provided herein is an apparatus for displaying a forward blind spot situation. The apparatus for displaying a forward blind spot situation includes a front camera capturing a blind spot of a driver, a display device displaying image information on the blind spot of the driver captured through the front camera, and a processor controlling the image information on the blind spot of the driver captured through the front camera to be seamlessly output at a position of a driver's gaze.