A recording reproduction apparatus according to the present disclosure includes: a captured data acquisition unit that acquires first captured data captured by a first camera that captures an image of an outside of a vehicle; an event detection unit that detects an event regarding the vehicle; a recording controller that stores the first captured data in a period including at least a timing of occurrence of the event as event recording data; a reproduction controller that reproduces the event recording data; a display controller that causes a display unit to display the event recording data reproduced by the reproduction controller; and an attachment/detachment detection unit that detects an attachment/detachment state of the display unit to/from the vehicle, in which the reproduction controller starts, when it has been detected by the attachment/detachment detection unit that the display unit has been detached from the vehicle, reproduction of event recording data.

A vehicular camera is configured to be disposed at a vehicle. The camera includes a circuit board and a lens holder having a lens barrel accommodating a lens. The circuit board has circuitry disposed at a circuit board substrate. The circuitry includes an imager disposed at a first side of the circuit board substrate. The circuit board substrate has a coefficient of thermal expansion (CTE) that is different from the CTE of the lens holder. The circuit board substrate is attached at the structure of the lens holder via a fastener that passes through an oversized hole in the circuit board substrate, with a cross dimension of the oversized hole being greater than a corresponding cross dimension of the fastener. The vehicular camera, via movement of the fastener within the oversized hole, allows for temperature-induced expansion or contraction of the lens holder relative to the circuit board substrate.

A seat assembly of a vehicle may include a support having a lower end portion connected to a floor of the vehicle; a seat frame having a connection portion provided above the support and having an entire slope which is changed by a curvature of the connection portion when the connection portion is slid, the connection portion being formed in a curved line or a curved surface; and a seat mounted on the seat frame and configured for implementing reclining by having a slope which is changed together with the seat frame when the seat frame is slid on the support.

A monitor mounting apparatus for use in connection with passenger vehicles such as aircraft, trains, and buses. The unique pivoting mechanism of the mounting apparatus permits lowering of the monitor in a manner that permits the top of the monitor screen to be visible even to the tallest of passengers.

An in-flight entertainment system is disclosed. In various embodiments, the in-flight entertainment system includes a display having a viewing surface and a back surface opposite the viewing surface; and a projector connected to the display and configured to illuminate the viewing surface.

A vehicular display system includes an electronic control unit (ECU) and a plurality of cameras disposed at the vehicle. The cameras capture image data and provide captured image data to the ECU. The system includes a video display screen and a video mirror display screen that are operable to display video images derived from video images provided by the ECU. When the vehicle is traveling forward at a speed below a threshold speed, the ECU generates rearward view video images derived from image data captured by a rearward viewing camera and provides the rearward view video images to the video display screen. When the vehicle is traveling forward at a speed at or above the threshold speed, the ECU generates rearward view video images derived from image data captured by a rearward viewing camera and provides the rearward view video images to the video mirror display screen.

An autonomous driving system relying on communication between a vehicle and a human road user

According to embodiments of the present invention, an apparatus fora vehicle is provided. The apparatus includes a support structure adapted to support a display panel, a drive assembly capable of selectively driving the support structure to rotate about a first axis and to rotate about a second axis, the first axis being different from the second axis, and a sensor arrangement located at a first predetermined position along a path of the rotation about the first axis and at a second predetermined position along a path of the rotation about the second axis, the sensor arrangement being configured to directly detect the support structure selectively at the first and second predetermined positions. According to further embodiments of the present invention, a display for a vehicle and a method for controlling an apparatus for a vehicle are also provided.

A method for controlling a multi-screen system includes acquiring a control instruction for the multi-screen system; and controlling a plurality of display screens to move according to the control instruction. The multi-screen system includes a plurality of display screens and a driving mechanism configured to drive the plurality of display screens to move in space.

A method for displaying and processing an image captured by an optical system used to simulate a rear-view system of a vehicle, includes capturing the image, identifying primary edges of a first image of the plurality of images, locating a first border within the first image that extends to part of a first edge of the first image, identifying secondary edges of a second image of the plurality of images, selecting a second edge from the secondary edges closest in position and orientation to the part of the first edge of the first image, locating a second border within the second image that extends to the second edge, and adjusting the second image such that a second part of the second border of the second image aligns with the first border of the first image, wherein the optical system simultaneously simulates both a plane mirror and a spotter mirror in form of a spherical mirror in the single image to provide a plurality of optical subsystems.