A display device includes a base structure, a plurality of modules coupled to the base structure, where each of the modules include a plurality of actuator assemblies. Each of the actuator assemblies is individually controllable to move the actuator assemblies between a retracted state and a plurality of extended states. A controller is coupled to each of the modules and is programmed to control the actuator assemblies to move the actuator assemblies between the retracted state and the plurality of extended states.

Disclosed herein are frameless display devices comprising a glass sheet (110) having a first surface, an opposing second surface, and a thickness between the first and second surfaces of less than 3 mm; a transparent adhesive layer (120); and an assembly comprising a backlight unit and a back panel (160); wherein at least one of the first and second surfaces is patterned with an image; and wherein the transparent adhesive layer (120) affixes the first surface of the glass sheet (110) to a surface of the assembly. Also disclosed herein are display devices comprising a glass sheet (110) having a first surface, an opposing second surface, a thickness between the first and second surfaces of less than about 3 mm, and a core having a plurality of light extraction features; a transparent adhesive layer (120); and an assembly comprising a back panel (160). Further disclosed herein are kits for making frameless display devices.

An apparatus, including: a lens layer comprising a plurality of lenticular lenses, wherein the plurality of lenticular lenses comprise a predetermined focal length, an image layer comprising printed media; wherein the image layer is disposed behind the lens layer; and a pane layer comprising at least one illumination source; wherein the at least one illumination source illuminates the lens layer, image layer, and pane layer, generating a visualization of a three-dimensional image of the printed media. Other embodiments are claimed and described herein.

A luminaire includes a housing (102) with an inner cavity a light source (122) mounted to an inner top surface of the housing. The luminaire also includes a door frame (104), wherein the door frame includes a first side rail (108), a second side rail (109), a third side rail (107), and a fourth side rail (110). The four side rails of the door frame define a light emitting opening for the luminaire. A film stack (116) is supported by the door frame and placed in the light emitting opening so that light from the light source passes through the film stack as it is emitted through the light emitting opening. The film stack (116) includes a diffuser film (129) and a photopolymer film (127). The photopolymer film (127) is embossed with optical structures that create a holographic pattern that appears to be three-dimensional.

A display device includes a base structure, a plurality of modules coupled to the base structure, where each of the modules include a plurality of actuator assemblies. Each of the actuator assemblies is individually controllable to move the actuator assemblies between a retracted state and a plurality of extended states. A controller is coupled to each of the modules and is programmed to control the actuator assemblies to move the actuator assemblies between the retracted state and the plurality of extended states.

A display device for head-up display forms an image with a view of an object from above in a vertical direction in a space outside the display device for an image which presents an object with a vertical direction. The object includes a reference surface that is a reference of the vertical direction. The display device forms the image so that an observer has a view from the upper part of the reference surface.

A three-dimensional (3-D) projection system includes a projector configured to output a projection of light to simulate a 3-D object, an opaque surface configured to receive the projection of light to simulate a portion of the 3-D object on the opaque surface, and a translucent scrim disposed at a boundary of the opaque surface and configured to receive the projection of light to simulate an extension of the 3-D object away from and beyond the boundary of the opaque surface.

A display device includes a base structure, a plurality of modules coupled to the base structure, where each of the modules include a plurality of actuator assemblies. Each of the actuator assemblies is individually controllable to move the actuator assemblies between a retracted state and a plurality of extended states. A controller is coupled to each of the modules and is programmed to control the actuator assemblies to move the actuator assemblies between the retracted state and the plurality of extended states.

A display device component includes an optical waveguide having a surface; a first material formed on a portion of the surface of the optical waveguide; and a second material formed on a portion of the first material. The first material has light scattering properties.

A three-dimensional light box includes a light source including a light guide panel and a light-emitting device for emitting light into the light guide panel, and a signboard including multiple signboard sheet members arranged in a stack on the light-emitting surface of the light guide panel. Each signboard sheet member includes a positioning sheet made of a light-emitting material and a picture layer coated on the positioning sheet. When the light-emitting device emits light through the light guide panel and the signboard, the picture layers of the signboard sheet members create a sense of three-dimensional hierarchy.