An information display system configured to unidirectionally display an image to inside or outside of a space via a transparent projected member provided in the space includes an image projection apparatus arranged inside the space and configured to generate and project image light by modulating a light flux from a light source, a transparent sheet provided on an inner surface of a display region set on a part of the projected member, and a light direction changing panel configured to change a direction of the image light from the image projection apparatus toward the transparent sheet of the display region, and the transparent sheet includes a retardation plate, an absorption type polarization plate that absorbs a specific polarized wave, and a transparent diffusion sheet material having a light diffusion function, and projects the image light whose direction has been changed by the light direction changing unit to the inside or the outside of the space.

An image display device includes a display panel, a barrier panel, and a controller. The display panel is configured to be able to form a first display region, to be able to display a right-eye image in a right-eye visible region of the first display region and display a left-eye image in a left-eye visible region of the first display region. The barrier panel is configured to be able to form a first barrier region and to form a light-transmitting portion and a dimming portion in the first barrier region. The controller is configured to display a portion located in the first display region as one parallax image frame including two sub-frames. The controller is configured to form the dimming region in the entire first barrier region during a frame change period including a timing of changing a display from the parallax image frame to a new parallax image frame.

The present disclosure relates to a dual-display digital cluster for use with a vehicle, which includes a plastic lens having a plurality of curvatures, super retardation films (SRFs) adhered to a plurality of positions on a rear surface of the plastic lens by using an optically clear adhesive (OCA), a plurality of liquid crystal displays (LCDs) each adhered to rear surfaces of the super retardation films by using an optically clear resin (OCR), a carrier bezel configured to be assembled to a rear side of the plastic lens, to support the plurality of LCDs closely, and to prevent the plastic lens from being deformed, a rear cover assembled to a rear side of the carrier bezel, and at least one printed circuit board (PCB) disposed between the carrier bezel and the rear cover.

A method for presenting image content in two operating modes, B1 for a viewing mode with a restricted viewing angle, and B2 for a viewing mode with an unrestricted viewing angle, comprising: providing a first image generator radiating image content into a restricted viewing angle; providing a second image generator radiating image content into an unrestricted viewing angle, wherein the second generator is in front of the first, and is partially transparent to light from the first, and deflects, on at least 50% of its surface, at least 90% of the light passed by it, by maximally 10°; switching on the first generator to start mode B1, wherein the second generator is switched to a transparent state and scatters only a negligible portion of light from the first generator, to retain the restricted viewing angle; and switching on the second generator to start mode B2.

An occupant monitoring device for a vehicle includes an imager, a display, and a determiner. The imager is configured to image a cabin of the vehicle to monitor conditions of occupants in the vehicle. The display is configured to display a screen to be viewed by the occupants in the vehicle. The determiner is configured to determine the conditions of the occupants in the vehicle by using captured image data obtained by imaging each of the occupants by the imager while the screen is displayed on the display. A panel configured to display the screen of the display has a non-display area on an inner side of a rectangular frame circumscribing a display area of the screen. The imager is disposed on a back of the non-display area of the panel of the display.

A head-up display and methods for providing a lane-related visual assistance function with a head-up display for a motor vehicle. Information is obtained regarding a driving lane currently travelled on by a motor vehicle. A characteristic value is obtained, which describes an uncertainty regarding the lane-related display of a virtual object serving as a visual assistance function with the head-up display. At least one virtual object is displayed as a visual assistance function, wherein the object is displayed such that it runs along at least a portion of the lane from the perspective of the driver, wherein a length of the object along the lane is defined according to the magnitude of the characteristic value.

The disclosure provides a display device, a display control method, and a non-transitory computer-readable recording medium. The display device of an embodiment is mounted on a vehicle and includes: a display part; and a display controller displaying operation information related to downhill road travel control, which controls a speed of the vehicle traveling downhill to a constant speed, on the display part. The downhill road travel control switches from a standby state to an active state when an execution condition, including that input of an accelerator operation and a brake operation is stopped, is satisfied. The display controller displays by changing at least a part of a display mode of the operation information when the downhill road travel control is in the standby state and the input of the accelerator operation or the brake operation is stopped.

A display panel has a first panel side and a second panel side, both capable of displaying graphic display object(s). The display panel has a pixel layer, control circuitry and a sensor unit which identify the presence of at least one person at a predefined threshold distance from the display device and whether the at least one person is on the first panel side or the second panel side. The control circuitry is adapted to enable the displaying of the graphic display object in accordance with a predefined display alignment in one of a first orientation and a second orientation based on a physical environment condition.

A base unit with a base dent region supports a main display unit having a main display panel. The main display unit is integrated in the base dent region and is rotatable about a base axis between a main loaded position and a main viewing position where the main display panel is visually accessible to a user from a predefined head position. The display device includes an auxiliary display unit which is integrated in a main dent region of the main display unit. The auxiliary display unit includes an auxiliary display panel which is designed to be visually accessible to the user from the predefined head position by rotating the main display unit about the base axis.

An information display apparatus that displays image information on a vehicle includes a HUD apparatus projecting a large-scale virtual image onto a distant position and serving as a first information display apparatus 100 arranged between a windshield glass 6 of the vehicle and an instrument panel, and effectively displays a plurality of pieces of the image information by making coordination with a second information display apparatus 48 close to the windshield glass 6, the second information display apparatus causing a transparent dispersion sheet in the windshield glass to directly reflect a screen of a large-scale high-resolution image display panel so that the screen is observed by the driver.