A head-up display system includes a first projection module, a second projection module, and a first reflective optical element. The first projection module projects a first image. The second projection module projects a second image. The first reflective optical element reflects at least a part of the first image and at least a part of the second image. The first projection module includes a first display panel that displays the first image and projects the first image toward the first reflective optical element. The second projection module includes a second display panel that displays the second image, and an optical system that directs the second image toward the first reflective optical element.

A vehicle display control device includes a memory and a processor coupled to the memory. The vehicle display control device is configured such that the processor controls a vehicle display device for displaying an image on a display region so as to be superimposed on a portion of a view ahead of a vehicle. The processor is configured so as to detect a preceding vehicle traveling at a vehicle front side of a host vehicle, and in cases in which the preceding vehicle has been detected, causes an image that includes a plurality of inter-vehicle marker objects from the host vehicle side toward the preceding vehicle side to be displayed in the display region, and causes sequential emphasis display of the plurality of inter-vehicle marker objects in sequence from the host vehicle side toward the preceding vehicle side.

A head-up display includes: a display medium; a display that displays an image; and a projection optical system that forms a virtual image by guiding the image displayed by the display to the display medium. The projection optical system includes a first mirror disposed above the display and reflecting display light of the image. 3<α−(θ+φ)/2<11.7 is satisfied, where θ denotes an angle between a line segment connecting centers of the first mirror and the display and a normal line at the center of the first mirror, α denotes an angle between the line segment connecting the centers of the first mirror and the display and a normal line at the center of the display, and φ denotes an inclination angle at an edge of the first mirror closer to the display relative to the center of the first mirror.

A vehicle display device includes: a forward image acquiring section that acquires images of a region ahead of a vehicle; a vehicle information acquiring section that acquires vehicle information relating to traveling of the vehicle; a path predicting section that, based on the vehicle information acquired by the vehicle information acquiring section, predicts an own vehicle traveling line that is a traveling path of the vehicle; an ideal path deriving section that, based on the images of the region ahead of the vehicle acquired by the forward image acquiring section, derives an ideal traveling line that is a proper traveling path; and a display control section that displays the own vehicle traveling line and the ideal traveling line so as to be superposed on a view in front of a driver's seat.

A head-up display and a movable body can display a virtual image viewable at a position nearer a user. The head-up display includes a display device that displays a first image and emits image light from the first image in a first direction, a first optical member located in the first direction from the display device, and a second optical member located between the display device and the first optical member in the first direction. The second optical member reflects the first image in a first plane direction and a second plane direction and displays a virtual image of the first image in a space between the first optical member and a user.

A display device is disclosed. The device includes: a display that is provided to a moving body; and a display controller that controls displaying, on the display, of a virtual object corresponding to an object seen through the display from inside of the moving body, based on a positional relationship between the object and the moving body.

Imaging and display system includes: a display; an optical system including a first mirror and a second mirror; a housing; a light-transmissive cover transparent to light and disposed to cover at least part of an opening of the housing; and a driver monitoring camera supported by a supporting body connected outside of the housing. First light emitted from the display passes through the light-transmissive cover via the optical system, and is reflected by a windshield toward a direction of the user. The driver monitoring camera captures an image of a driver shown on the light-transmissive cover by second light from a direction of the driver reflected by the windshield toward a direction of the light-transmissive cover.

An apparatus may include a first emitter and a second emitter. The first emitter may be configured to emit visible light comprising first heads up display information to be displayed to a driver of a vehicle. The second emitter may be configured to emit infrared light comprising second heads up display information to be displayed to one or more rear seat passengers of the vehicle.

Often when there is a glare on a display screen the user may be able to mitigate the glare by tilting or otherwise moving the screen or changing their viewing position. However, when driving a car there are limited options for overcoming glares on the dashboard, especially when you are driving for a long distance in the same direction. Embodiments are directed to eliminating such glare. Other embodiments are related to mixed reality (MR) and filling in occluded areas.

The invention relates to a motor vehicle instrument cluster, comprising a digital display screen which is intended to be hidden from the vehicle passengers and capable of displaying a source image containing a multitude of indicator modules for the driver of the vehicle, and a panel (20) located below the digital display screen, at least the main central (20A) and upper (20B) portions of said panel being opaque and reflective, the panel (20) being inclined relative to the display screen so as to reflect the source image towards the driver so that the latter perceives, in his/her field of vision, a virtual image located in front of the panel (20), characterized in that the lateral (20C) and lower (20D) portions of the panel (20) are transparent.