A window display system for a vehicle is provided to display blind spot information to an occupant. The system includes a vehicle window with an interior side facing the passenger compartment and an exterior side facing away, a transparent display integrated with the window to present visual information to the occupant, environment sensors mounted on the vehicle to acquire visual data of the exterior environment corresponding to a blind spot region, turn signal sensors operatively coupled to a turn signal to detect activation, and a controller operatively connected to the transparent display, environment sensors, and turn signal sensors. The controller includes a processor and memory storing instructions that, when executed, detect an object in the blind spot region and activation of the turn signal, and in response, cause the transparent display to overlay a highlighted representation of the object on the interior side of the window.

A display dimming control apparatus includes: a display image generation unit that determines a display device position that is a position of a display device that emits image light in order to display an image on a transparent screen from a display apparatus having the display device; and a dimming processing control unit that controls a dimming apparatus having a plurality of dimming elements. The plurality of dimming elements independently control a dimming level of the screen for each of a plurality of tiles obtained by virtually dividing the screen The dimming processing control unit includes a dimming position determination unit that determines one or more dimming elements that control dimming levels of one or more tiles corresponding to a screen display position.

A display dimming control apparatus includes: a display image generation unit that determines a display device position that is a position of a display device that emits image light in order to display an image on a transparent screen from a display apparatus having the display device; and a dimming processing control unit that controls a dimming apparatus having a plurality of dimming elements. The plurality of dimming elements independently control a dimming level of the screen for each of a plurality of tiles obtained by virtually dividing the screen The dimming processing control unit includes a dimming position determination unit that determines one or more dimming elements that control dimming levels of one or more tiles corresponding to a screen display position.

A display device for a vehicle comprises a display module having a display panel and a cover window disposed on one side of the display panel, and a drive mechanism for laying down the display module or standing the display module up, wherein the cover window may comprise: a total reflection area in which an image emitted from the display panel is totally reflected; and a transmission area in which the image emitted from the display panel is transmitted.

A display device for a vehicle comprises a display module having a display panel and a cover window disposed on one side of the display panel, and a drive mechanism for laying down the display module or standing the display module up, wherein the cover window may comprise: a total reflection area in which an image emitted from the display panel is totally reflected; and a transmission area in which the image emitted from the display panel is transmitted.

Provided is a laminated glass capable of transmitting light applied from a remote sensing device satisfactorily, and enhancing the heat shielding property. A laminated glass of the present invention includes a first lamination glass member, a second lamination glass member, and an interlayer film, the interlayer film is arranged between the first lamination glass member and the second lamination glass member, the first lamination glass member has a light transmittance of 85% or more at every wavelength within a range of 380 nm to 2500 nm, the laminated glass has a first region and a second region, and the second region has a light transmittance of higher than a light transmittance of the first region by 5% or more at at least one wavelength within a range of 380 nm to 2500 nm.

A head-up display system includes a display that emits a light flux visually recognized by an observer as the virtual image, and a light guide body that guides the light flux to the light-transmitting member. The light guide body includes an incident surface on which the light flux from the display is incident and an emission surface from which the light flux is emitted from the light guide body. The light flux incident on the incident surface of the light guide body is changed in a traveling direction in the light guide body, the light flux is replicated into a plurality of light fluxes in a direction perpendicular to a horizontal direction of the virtual image visually recognized by the observer to be emitted from the emission surface so as to expand a visual recognition region.

A head-up display system includes a display that emits a light flux visually recognized by an observer as the virtual image, and a light guide body that guides the light flux to the light-transmitting member. The light guide body includes an incident surface on which the light flux from the display is incident and an emission surface from which the light flux is emitted from the light guide body. The light flux incident on the incident surface of the light guide body is changed in a traveling direction in the light guide body, the light flux is replicated into a plurality of light fluxes in a direction perpendicular to a horizontal direction of the virtual image visually recognized by the observer to be emitted from the emission surface so as to expand a visual recognition region.

A head-up display includes an image generation unit emitting light for generating a predetermined image and a mirror reflecting the light so that a transmission member is irradiated with the light emitted by the image generation unit. The image generation unit includes a light source, an optical member transmitting light from the light source, and a liquid crystal portion in which an original image for forming the predetermined image is generated by the light emitted from the optical member. The original image is formed in a shape corresponding to distortion of the predetermined image. The optical member is formed in a shape matching the shape of the original image.

A head-up display includes an image generation unit emitting light for generating a predetermined image and a mirror reflecting the light so that a transmission member is irradiated with the light emitted by the image generation unit. The image generation unit includes a light source, an optical member transmitting light from the light source, and a liquid crystal portion in which an original image for forming the predetermined image is generated by the light emitted from the optical member. The original image is formed in a shape corresponding to distortion of the predetermined image. The optical member is formed in a shape matching the shape of the original image.