A display device includes; pixel units arranged in a matrix on a first substrate, wherein each pixel unit among the pixel units includes a transmission region including a liquid crystal layer, and a reflection region spaced apart from the transmission region and including an organic light emitting layer.

A tiled electronic device includes a first display panel, at least two other display panels and a roller. The first display panel transmits a plurality of signals to the at least two other display panels directly. The at least two other display panels include a second display panel being adjacent to the first display panel. The roller is rotatable in a rotating direction, wherein the first display panel is connected to the roller, and the second display panel is connected to the roller.

To make a display device inconspicuous. A display system includes a base and a display device attached to the base. The display device includes a plurality of inorganic light emitters arrayed in a matrix with a row-column configuration and a surface layer. The surface layer is provided in a traveling direction of light emitted from the inorganic light emitters with respect to the inorganic light emitters and includes a plurality of transmission parts and a blocking part. The transmission parts are provided in a matrix with a row-column configuration so as to overlap the inorganic light emitters when viewed from the traveling direction of the light and allow the light from the inorganic light emitters to pass therethrough. The blocking part blocks the light from the inorganic light emitters. The inorganic light emitters are provided overlapping the transmission parts provided to the surface layer.

Disclosed herein are systems, apparatuses, methods, and non-transitory computer readable media related to a display construct coupled to a structure (e.g., a vision window such as a tintable window). The structure can be a supportive structure such as a fixture. The display construct is configured to facilitate media display and is at least partially transparent. An interactive installation software tool and process aligns a digital configuration of the display construct and/or touch screen functionality of the display construct, with its physical configuration in a matrix of display constructs.

The disclosed embodiments generally relate to a method, system and apparatus for forming a custom-sized display panel. An exemplary method to form a custom display from a large sheet of pixels includes: providing a sheet of pixels having a TFT substrate, a liquid crystal layer and a second substrate, the sheet of pixels having a first perimeter, the liquid crystal medium interposed between the TFT substrate and the second substrate; forming a display panel from the sheet of pixels, the display panel having a display panel perimeter, the second display having a first edge defined by the TFT substrate extending beyond the second substrate to thereby expose an electrical trace on the TFT substrate; sealing the liquid crystal layer on the first edge; conductively exposing the electrical trace on the TFT substrate; and forming a column driver line on the TFT substrate to communicate a driver signal to the second display.

Resources of a system for controlling optically switchable windows may be used for a personal computing unit. The window system resources may include (i) a display associated with an optically switchable window, (ii) one or more processors of one or more controllers on a window network connected to a plurality of optically switchable windows in a building, wherein the one or more controllers are configured to vary tint states of the plurality of optically switchable windows in the building, (iii) memory of one or more controllers on the window network connected to the plurality of optically switchable windows in the building, and/or (iv) at least a part of the window network.

The disclosure provides an electronic device and a driving method thereof. The electronic device includes a first display panel and at least two other display panels. The first display panel transmits a plurality of signals to the at least two other display panels directly.

A robotic mount is configured to move an entertainment element such as a video display, a video projector, a video projector screen or a camera. The robotic mount is moveable in multiple degrees of freedom, whereby the associated entertainment element is moveable in three-dimensional space. In one embodiment, a system of entertainment elements are made to move and operate in synchronicity with each other, such as to move a single camera via multiple robotic mounts to one or more positions or along one or more paths.

Systems and methods for a multi-primary color system for display. A multi-primary color system increases the number of primary colors available in a color system and color system equipment. Increasing the number of primary colors reduces metameric errors from viewer to viewer. A six-primary color system includes Red, Green, Blue, Cyan, Yellow, and Magenta primaries. The systems of the present invention maintain compatibility with existing color systems and equipment and provide systems for backwards compatibility with older color systems.

An image display device includes a panel in a curved surface shape that lets through and reflects light, a first display unit that displays a first image based on first image data that reaches a predetermined position through the panel, a second display unit that displays a second image based on second image data that is reflected by the panel and reaches the predetermined position, a position information acquisition unit that acquires position information indicating a position of an actual viewpoint of an observer, and an image processing unit that determines a scaling factor of the second image data for each scan line based on the position information and performs a scaling process for each scan line on the second image data to be inputted to the second display unit.