An imaging and display system for a vehicle may comprise a first portable wireless vehicle imager mounted on a trailer and oriented to capture images from a first field of view having a vertical angle greater than the horizontal angle; a second portable wireless vehicle imager mounted one of the vehicle and the trailer and oriented to capture images from a second field of view having a vertical angle greater than the horizontal angle; an image processor for receiving and processing image data from the images captured by the first and the second portable wireless imagers and configured to generate a first supplementary image from a first portion of the first field of view, a second supplementary image from a second portion of the first field of view, and a first additional image from a first portion of the second field of view.

A vehicular driving assist system includes a rearward viewing camera, a driver-side camera, a passenger-side camera and at least one radar sensor. Image data captured by the cameras is provided to a control and radar data captured by the radar sensor is provided to the control. The control processes the provided captured data to determine a potential hazard presented by rear-approaching traffic. The control outputs video image data for display by a display device of the equipped vehicle. The display device includes a video display screen that displays video images for viewing by a driver of the equipped vehicle during operation of the equipped vehicle. The control processes provided captured image data and provided captured radar data to alert the driver to the determined potential hazard presented by the rear-approaching traffic in the side traffic lane adjacent to the traffic lane being traveled by the equipped vehicle.

The present invention is directed to an air freshener holder for use in automobiles having cabins. The air freshener holder disclosed herein is dimensioned to removably attach to a rear-side of a rear-view mirror of the automobile. The air freshener holder includes an elongated enclosure having a top, bottom, and side walls defining a volume of the enclosure. A wing-shaped pair of flaps are configured on the bottom of the enclosure. The flaps are rigid, but flexible enough to conform to the assorted shapes of the housing of the rear-view mirrors. The enclosure further having a plurality of apertures for the airflow.

The present disclosure relates to an electronic device holder for a car room mirror, the electronic device holder including: a fixing assembly fixed to a room mirror support provided in a vehicle; a holder body coupled to a lower portion of the fixing assembly to rotate forward, backward, left, and right; and a holding unit formed at a side of the holder body and having a seat on a side on which an electronic device such as a smartphone is seated.

A solid-state imaging apparatus includes a plurality of high-sensitivity pixels that are arranged in a matrix, and perform a photoelectric conversion at a predetermined sensitivity; a plurality of low-sensitivity pixels that are arranged in a matrix in gaps between the plurality of high-sensitivity pixels, and perform a photoelectric conversion at a lower sensitivity than the predetermined sensitivity; and a signal processor that generates a pixel signal by (i) detecting a difference signal between a signal from the plurality of high-sensitivity pixels and a signal from the plurality of low-sensitivity pixels, and (ii) correcting the signal from the plurality of high-sensitivity pixels using the difference signal.

A vehicle-mounted system for recording video and audio. The system uses distributed processing, including encoding the video and audio at their source(s), and a high-speed, e.g., Ethernet, bus connecting the various system components and external devices. The system may include a display monitor which is integrated into the same housing as a rear view mirror of the vehicle, with the display monitor being located behind the mirror and video displayed on the monitor being visible through the mirror.

An interior mirror base arrangement for a motor vehicle has a base for an interior mirror which can be permanently fastened to a windshield of the motor vehicle adjacent to a roof liner, a cover element which is movably mounted on the base, and a fastener, by which the cover element can be fastened to the roof liner.

A vehicular interior rearview mirror assembly includes a prismatic mirror reflective element having a glass substrate with a planar front surface and a circumferential edge along the periphery of the glass substrate. A plastic molding is circumferentially disposed about the circumferential edge of the glass substrate without overlapping onto the front surface of the glass substrate, with an outermost part of the plastic molding providing a curved transition between the planar front surface of the prismatic mirror reflective element and another part of the plastic molding. The outermost part of the plastic molding includes an outer curved surface and lacks an exposed sharp edge. The plastic molding includes a portion of a mirror housing of the interior rearview mirror assembly. A mounting structure is configured to mount the vehicular interior rearview mirror assembly at an interior portion of the equipped vehicle.

A method is provided for operating a display inside mirror for driving a display unit in response to a driving request of a user and a change in the driving request to provide a rear visual field to the user. The method includes determining whether a display unit is set to an operation mode and when the display unit is set to the operation mode, determining whether a driving condition is satisfied. When the driving condition is not satisfied whether the determined driving condition is changed is determined prior to determination of the driving condition. The controller is configured to operate the display unit when the driving condition is changed and convert the display unit to an off state when the driving condition is not changed.

A vehicular vision system includes a rear backup camera and a display device viewable by a driver of the equipped vehicle. The display device includes a video screen operable to display video images derived, at least in part, from image data captured by the rear backup video camera. Video images derived, at least in part, from image data captured by the rear backup video camera are displayed by the video screen of the display device when a transmission of the equipped vehicle is shifted into reverse gear by the driver of the equipped vehicle. The video screen continues to display video images derived, at least in part, from image data captured by the rear backup video camera for a threshold time period after the transmission of the equipped vehicle is shifted out of reverse gear by the driver of the equipped vehicle.