A multi-view display is a display capable of simultaneously showing different images to viewers that see the display from different locations. Viewers do not see the images intended for other viewers at other locations. A multi-view display in accordance with some embodiments of the present invention comprises a light source with a light-emitting aperture that emits light whose direction of propagation can be controlled by a controller. An aperture filter mounted on the aperture forms one or more visible images. Different viewers see different visible images based on characteristics of the light such as color and/or polarization. In some embodiments, the aperture filter can be an active filter, such as an LCD filter, that displays different images synchronized with the direction of propagation of the light.

In an imaging method, an image source transmits N image source light beams to a light beam deflector in K periodicities, where N is a positive integer greater than or equal to 2, and K is a positive integer greater than or equal to 1. The light beam deflector deflects transmission directions of the N image source light beams to a plurality of viewing areas, where the N image source light beams transmitted to the plurality of viewing areas are respectively imaged in a plurality of display areas.

Methods, systems, and media for controlling information utilized to present content using a public display device are provided. In some implementations a method for presenting content on a public display device is provided, the method comprising: (a) initiating communication with one or more display devices; (b) selecting a display device; (c) establishing a communication channel with the selected display device; (d) receiving information related to an area of a screen allocated for use by the user device; (e) identifying content that is to be presented using the selected display device; (f) generating formatted content based on the area of the screen allocated for use by the user device; (g) transmitting the formatted content to the display device using the communication channel; and repeating at least (e) to (g) until (h) determining that presentation of content using the selected display device is to be inhibited.

A projector includes a transmitter that transmits a signal, a receiver that receives a signal transmitted from another projector, and a control unit that achieves synchronization of the signals between the projector and the another projector based on the signal transmitted from the another projector and received by the receiver. The control unit includes a synchronization judgment portion that judges whether or not the projector is synchronized with the another projector, and a state judgment portion that judges whether or not the synchronization with the another projector is stable.

A system may produce images including narrow-bandwidth colors. One or more sets of the narrow-bandwidth colors may be selected to be interpreted as substantially a same color by a user. The system may include a light source configured to produce the narrow-bandwidth colors, and/or narrow-passband filters may create narrow-bandwidth colors from light emitted by broad-spectrum light sources or color sources. Spatial and/or time multiplexing may be used to create separate narrow-bandwidth colors interpreted as substantially a same color by the user. For example, the light source and/or the narrow-passband filter elements may be adjustable and may alternate between emission of two or more narrow-bandwidth colors. A viewing device may include filters allowing the user to selectively filter the narrow-bandwidth colors. The user may filter the narrow-bandwidth colors to separate a stereoscopic image pair, to view a user-specific image, to view desired content obfuscated by an obfuscating image, and/or the like.

A display device has a display panel (70) and a color filter layer (72) spaced from the display panel, comprising an array of color filter portions. In a privacy mode (narrow viewing angle mode), the display panel produces output regions of different light output color, which regions are aligned with corresponding color portions of the color filter layer. In a public mode (wide viewing angle mode) the display panel produces light containing all of the output colors to all of the output regions. By providing a color filter layer spaced from the display panel, color filtering is used to control the range of angles over which an image is output. The color filter layer is in essence moved away from the display panel. The spacing between the two and the width of the color filter portions determines the extent by which the light output is angularly limited.

A projector includes a plurality of transmitters each of which transmits a signal, a receiver that receives signals transmitted from another projector, and a control unit that achieves synchronization of the signals between the projector and the another projector based on the signals transmitted from the another projector and received by the receiver. The control unit includes a state judgment portion that judges whether or not the synchronization with the another projector is stable and a number determination portion that determines the number of transmitters to be used among the plurality of transmitters based on the judgment result made by the state judgment portion.

This disclosure makes it possible to provide a more favorable air floating video display apparatus. According to the present invention, it is possible to contribute to Goal 3: Ensure healthy lives and promote well-being for all at all ages, and Goal 9: Build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation in the Sustainable Development Goals. An air floating video display apparatus includes a display apparatus configured to display a video, a retroreflection plate configured to reflect video light from the display apparatus and display an air floating video in air by the reflected light, and an image processor configured to perform image processing to the video displayed on the display apparatus. When an air floating video including a display of an object is displayed as the air floating video displayed by the air floating video display apparatus, the image processor performs an image processing to an image of the object displayed on the display apparatus, and the image processing has input/output characteristics that convert an input image having a pixel with low luminance into an output image having a pixel with increased luminance.

Disclosed are methods and systems for displaying content. In an aspect, a plurality of content items can be displayed on one user device according to user preference. An example method can comprise positioning a first set of pixels associated with a user device so that first content displayed via the first set of pixels can be viewable in a first viewing location. A second set of pixels associated with the user device can be positioned so that second content displayed via the second set of pixels can be viewable in a second viewing location. The second content can be different from the first content.

In one aspect, a device includes at least one processor, a display accessible to the at least one processor, and storage accessible to the at least one processor. The storage includes instructions executable by the at least one processor to identify a context associated with a user, identify a location of the user, and adjust the orientation of the display to direct the display toward the location of the user based on the context associated with the user and the location of the user.