A hub that receives sensor data streams and then distributes the data streams to the various systems that use the sensor data. A demultiplexer (demux) receives the streams, filters out undesired streams and provides desired streams to the proper multiplexer (mux) or muxes of a series of muxes. Each mux combines received streams and provides an output stream to a respective formatter or output block. The formatter or output block is configured based on the destination of the mux output stream, such as an image signal processor, a processor, memory or external transmission. The output block reformats the received stream to a format appropriate for the recipient and then provides the reformatted stream to that recipient.

A vehicular multi-camera vision system includes a plurality of exterior viewing vehicle cameras disposed at a vehicle, a trailer camera disposed at a rear of a trailer and viewing rearward, an ECU and a display device in the vehicle. With the trailer not hitched to the vehicle and during a driving maneuver of the vehicle, image data captured by the vehicle cameras is provided to the ECU and the display device displays video images generated by the ECU and derived from image data captured by the vehicle cameras. With the trailer hitched to the vehicle and during a driving maneuver of the vehicle towing the trailer, image data captured by the trailer camera and the vehicle cameras is provided to the ECU and the display device displays video images generated by the ECU and derived from image data captured by the trailer camera and side viewing vehicle cameras.

A display system includes a recognizer configured to recognize a surrounding situation of a vehicle, a display configured to display images, and a display controller configured to cause the display to display an image representing a road shape around the vehicle recognized by the recognizer, wherein, when a lane in which the vehicle can travel in the same direction as a travel direction of the vehicle is added, the display controller causes the display to display an image about the added lane outside the image representing the road shape on the side on which the lane is added before the display is caused to display an image representing a shape of the added lane.

A hub that receives sensor data streams and then distributes the data streams to the various systems that use the sensor data. A demultiplexer (demux) receives the streams, filters out undesired streams and provides desired streams to the proper multiplexer (mux) or muxes of a series of muxes. Each mux combines received streams and provides an output stream to a respective formatter or output block. The formatter or output block is configured based on the destination of the mux output stream, such as an image signal processor, a processor, memory or external transmission. The output block reformats the received stream to a format appropriate for the recipient and then provides the reformatted stream to that recipient.

A hub that receives sensor data streams and then distributes the data streams to the various systems that use the sensor data. A demultiplexer (demux) receives the streams, filters out undesired streams and provides desired streams to the proper multiplexer (mux) or muxes of a series of muxes. Each mux combines received streams and provides an output stream to a respective formatter or output block. The formatter or output block is configured based on the destination of the mux output stream, such as an image signal processor, a processor, memory or external transmission. The output block reformats the received stream to a format appropriate for the recipient and then provides the reformatted stream to that recipient.

A vehicular surround vision system includes a plurality of vehicular cameras disposed at a vehicle and having respective exterior fields of view, a trailer camera disposed at a rear of a trailer and having a rearward field of view, an ECU and a display device in the vehicle. With the trailer not hitched to the vehicle and during a driving maneuver of the vehicle, the display device displays surround view video images derived from image data captured by at least the rearward viewing and sideward viewing vehicular cameras and provided to the ECU. With the trailer hitched to the vehicle and during a driving maneuver of the vehicle and trailer, the display device displays surround view video images derived from image data captured by the trailer camera and provided to the ECU and image data captured by at least some of the vehicular cameras and provided to the ECU.

An apparatus for monitoring a vehicle camera system. The vehicle camera system includes at least one camera to capture images of a field of view at a side of the vehicle and a display unit for visualizing the captured images to a driver of the vehicle. The apparatus includes a control unit adapted to control the display unit to display a graphical indicator, the displayed graphical indicator changes sequentially in a default way to allow the driver to visually detect a malfunctioning of the vehicle camera system based on a deviation from the default way of the sequentially changing graphical indicator.

A system for providing security functions to a vehicle may comprise a chassis and a drone. The chassis may be configured to be mounted on top of the vehicle. The chassis may include a drone port for housing a drone. The drone may include a camera. The camera of the drone may be configured to capture images of objects outside of the chassis while the drone is positioned in the drone port. A device including the chassis may be a light bar and further include lights positioned at a periphery of the device.

A vehicle camera mirror system includes a CAN bus that carries vehicle parameter data having vehicle speed, steering angle, braking and/or engine RPM. A driver information system (DIS) graphically displays the vehicle parameter data to a driver, and a camera mirror system includes a camera which has a field of view at least one of Class II and Class IV views. A display is in communication with the camera and is configured to display the field of view, and a controller is in communication with the camera and the display. A wiring harness has first and second connectors that are respectively connected to the CAN bus and the DIS. The wiring harness includes a pigtail that has first and second wires that are electrically connected between the first and second connectors. The first and second wires are connected to the controller to provide the vehicle parameter data.

A system for providing security functions to a vehicle may comprise a chassis and a drone. The chassis may be configured to be mounted on top of the vehicle. The chassis may include a drone port for housing a drone. The drone may include a camera. The camera of the drone may be configured to capture images of objects outside of the chassis while the drone is positioned in the drone port. A device including the chassis may be a light bar and further include lights positioned at a periphery of the device.