The invention relates to a top-leaning electric reflection sheet device, which includes a base, a reflector stand, a linkage seat and an electric module, the electric module is provided to dolly move on the base to drive the linkage seat to move, and the bottom of the connecting portion of the reflector stand is synchronously driven to dolly move, and the elasticity provided for the linkage seat to move upwards could used to buffer vibration of the dashboard, so the reflection sheet could tightly lean on the windshield to improve stability of the reflection sheet and displayed images would not be shaken, to thereby enhance viewing quality.

A method for a driver assistance system of a vehicle. The driver assistance system can control the vehicle at least partially automatic by an autopilot function. In the method, an activation state of the autopilot function is determined and a display device of the driver assistance system is activated depending on the activation state of the autopilot function.

A display system (100) has a navigation device (1) and a head-up display (2) that displays a virtual image (Iv) using a combiner (8). The combiner (8) is equipped with a reflective member reflecting display light, and is supported so as to be openable and closable. The navigation device (1) performs at least one of the opening control and/or the closing control of the combiner (8), and the navigation device (1) carries out the opening/closing control at the time when a predetermined condition is satisfied. For example, the navigation device (1) automatically closes the combiner (8) to enhance the visibility of a driver in an attention necessary section and in a guidance unnecessary section, or automatically closes the combiner (8) to adhere to highway regulations in an HUD restriction area.

A head-up display apparatus stored in a storage space within an instrument panel of a vehicle for irradiating a display light into a projection area on an upper side of the instrument panel to form a virtual image, is provided. The apparatus includes a display for emitting the display light, a reflecting member supported swingably about a swing axis for reflecting the display light from the display toward the projection area, a drive mechanism arranged in the reflecting member for swinging the reflecting member, and a case storing the display, the reflecting member and the drive mechanism. The drive mechanism includes a drive part and a transmission part for transmitting a drive force of the drive part to the reflecting member. The drive mechanism is arranged at a position shifted from an optical path of the display light nearer the display than the reflecting member.

A head-up display apparatus includes an image display surface that displays a color image by multiple pixels, each of the pixels being divided into sub-pixels. The color image displayed on the image display surface is projected to a transparent plate member provided in front of a driver seat, and the color image is displayed superimposed to a forward scenery of the transparent plate member. The image display surface includes a first region including a center position, and a second region other than the first region. Each of the pixels in the first region includes a sub-pixel displaying red, a sub-pixel displaying green, and a sub-pixel displaying blue. Each of the pixels in the second region includes multiple sub-pixels including a sub-pixel displaying color having a color phase biased to at least one direction of a red direction, a green direction, and a blue direction.

There is provided a vehicle display device capable of simplifying a configuration for a passenger. A ring member is provided to be closer to the front side (opposite to the passenger) than a half mirror, and thus the configuration for the passenger can be further simplified than the half mirror, thereby achieving a simple appearance. The ring member is visually confirmed through the half mirror thereby to display the ring member and an image in combination like a configuration in which a decorative member is provided to be closer to the passenger than the display as conventionally.

A motor vehicle includes a rearview camera capturing images of a scene behind the motor vehicle. An electronic processor receives the images captured by the camera. A virtual image projection arrangement is communicatively coupled to the electronic processor and presents a virtual image dependent upon the images captured by the camera. The virtual image is visible by a driver of the vehicle after being reflected by a windshield.

A head up display unit can be provided in an inner portion of an instrument panel. A column bracket for mounting a steering column is at a lower portion of a vehicle body strength member and extends in a vehicle width direction in a vehicle rear side of a front wall panel of a vehicle interior. The head up display unit is mounted on the column bracket so as to be movable to a vehicle upward direction by an emergency input load from a vehicle front direction.

A method for screen projection in vehicle includes displaying first screen projection data sent from connected first mobile terminals in sub-areas on a display screen; in response to receiving a connection request from a second mobile terminal, establishing a connection with the second mobile terminal; receiving second screen projection data sent from the second mobile terminal; determining whether any target screen projection data having a same data type as the second screen projection data exists in the first screen projection data; in response to the target screen projection data being determined, assigning a target sub-area corresponding to the target screen projection data to the second mobile terminal to project the second screen projection data sent from the second mobile terminal; and in response to no target screen projection data being determined, adding a new sub-area on the display screen to screen project the second screen projection data.

A vehicle display system includes a display device, a determiner, and a display controller. The display device is mounted on a vehicle. The determiner is configured to determine whether a person present outside the vehicle enters a blind spot of a driver of the vehicle. The display controller is configured to control, when the person enters the blind spot, the display device to display a warning to the person.