Provided are a display panel and a vehicle. The display device includes a knob and a main display panel; the knob includes a first magnetic adhering piece; the display device further includes a second magnetic adhering structure, and the second magnetic adhering structure is disposed on a non-light exiting side of the main display panel; the second magnetic adhering structure includes a plurality of first magnetic adhering regions, and at least two first magnetic adhering regions are not overlapped; when the knob is magnetically adhered to any one of the plurality of first magnetic adhering regions, the knob is disposed on a light exiting side of the main display panel.

A method for controlling the views of the surroundings of a vehicle by a vehicle occupant includes determining an operational mode of a control switch controlling a camera view direction of at least a first camera by the control switch, when the control switch is in a first operational mode; and controlling a mirror view direction of at least a first side mirror by the control switch, when the control switch is in a second operational mode.

Provided is an image output device mounted on a vehicle capable of performing autonomous driving. In particular, the image output device provides a user interface optimal for an occupant using 5G communication in a vehicle capable of performing autonomous driving. The image output device may be a robot having artificial intelligence. Specifically, the image output device includes: an image output unit; and a processor setting a screen in the vehicle on the basis of a gaze of an occupant riding in the vehicle, and controlling the image output unit to output an image corresponding to the screen, wherein at least one of a size and a ratio of the image is varied according to the screen.

Provided is a steering apparatus. The steering apparatus includes a console unit allowed to be switched left and right in front of a driver's seat and a front passenger seat in a vehicle, a handle unit connected to the console unit and configured to steer the vehicle, and a rail unit disposed on a bottom surface of the console unit and configured to provide a path through which a position of the console unit is switched left and right.

A dynamic touch user interface system includes a touch-input interface, one or more visual indicators, and a plurality of sensors. The touch-input interface has a reference surface that covers one or more touch elements. The touch elements define an active area that allows user communication with a computer through touch. The active area is relocatable along the reference surface in response to detected circumstances. The visual indicators visually identify a location of the active area. The sensors detect the circumstances affecting a relocation of the active area.

A display apparatus and a mobile phone for content adjustment based on motion of a vehicle and an eye gaze of an occupant is provided. The display apparatus includes a display screen, a motion sensor, and an image capturing device. The display screen displays content. The display apparatus controls the motion sensor to capture a motion signal associated with the display apparatus. The display apparatus controls the image capturing device to capture an image of the occupant in the vehicle. The display apparatus determines a region of the eye gaze of the occupant on the display screen based on the captured image. The determined region on the display screen includes a portion of the displayed content. The display apparatus adjusts a movement of the portion of the displayed content in response to the captured motion signal being higher than a predefined threshold.

An operating system for a motor vehicle includes an interface having an operating surface and a projector configured to project display content onto the operating surface of the interface. The interface is a portable item freely movable in the motor vehicle. The operating system further includes a capturing device configured to determine an inclination vector of a relative inclination of the operating surface with respect to the projector, and an image processing device configured to generate the display content by graphically distorting an original display content by use of a predetermined pre-distortion function based on the determined inclination vector. The pre-distortion function is set inversely to an optical distortion that occurs due to the relative inclination of the operating surface during the projection of the display content onto the operating surface.

According to one embodiment, a display system includes an external light sensor, a display panel, a viewing angle control panel including a liquid crystal layer containing liquid crystal molecules twist-aligned, configured such that a drive voltage applied to the liquid crystal layer is controlled based on an external light intensity detected by the external light sensor, and a polarization axis rotation element disposed between the viewing angle control panel and the display panel. The drive voltage when the external light intensity is less than a threshold value is greater than the drive voltage when the external light intensity is greater or equal to than the threshold value.

A method for controlling an autonomous vehicle is disclosed. The vehicle control method, which adjusts a seat installed in a vehicle, a first display positioned in front of the seat and facing the seat, and a second display positioned in front of the first display and facing the seat, includes: detecting the face of a passenger sitting in the seat by a camera installed in the vehicle; estimating the face height from the floor surface of the vehicle; if the estimated face height is lower than a predetermined level, setting a display region on the first display, and, if the estimated face height is higher than the predetermined level, setting the display region on at least part of the second display; and displaying images in the set display region. One or more among an autonomous vehicle, user terminal, and server according to the present invention may be associated with an artificial intelligence module, a robot, an augmented reality (AR) device, a virtual reality (VR) device, etc.

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.