A condition information acquisition section of an image generation device acquires a condition of communication and condition information of a head-mounted display. An image generation section generates a display image including distorted images for a left eye and a right eye. A reduction processing section converts the display image to data in which different regions have different reduction ratios in accordance with the condition of communication, etc., and transmits the data through an output section. An image size restoration section of the head-mounted display restores the transmitted data to the display image in an original size to cause the display image to be displayed by a display section.

An electronic apparatus including: an interface; a display; and a processor configured to: acquire an image captured by a camera while the camera is connected through the interface, obtain information about a position where the camera is placed with respect to the display among a plurality of positions where the camera is placeable with respect to the display, select a motion identification model corresponding to the position where the camera is placed with respect to the display among a plurality of motion identification models prepared based on data corresponding to the plurality of positions, identify a motion of a user from the image captured by the camera based on the selected motion identification model, and perform a function based on the identified motion of the user.

An image generation apparatus increases an adjustment amount of a luminance distribution to a target value B at a time t0 at which an amount of light entering the eyes of a user changes to such a degree that the change has an influence on an action of photoreceptor cells, to thereby cause a head-mounted display to display an image 310b having a luminance increased from that of an original image 310a. The image generation apparatus gradually decreases the adjustment amount of the luminance distribution during a restoration period ?t in such a manner that an image 310c having the original luminance distribution is displayed at a later time t1.

Media hub systems and methods for providing content for display on a device provided. The media system may include a hub and a mount configured to secure the hub to a plurality of structures. The hub may include a camera and be configured to provide content for display on a device. The mount may be configured to couple to the hub via a magnetic connection. The magnetic connection may be configured to allow the hub to tilt relative to the mount to adjust a field-of-view of the camera.

An intelligent television system provides an operating system and an application framework for controlling a user interface to handle user input events from a handheld remote control. The remote control includes color keys that are configured for triggering different functions in different application panels displayed on the television.

An intelligent television system provides an operating system and an application framework for controlling a user interface to handle user input events from a handheld remote control. The remote control includes color keys that are configured for triggering different functions in different application panels displayed on the television.

An audio-visual system may include a housing comprising an open upper end and a storage space, an audio-visual device installed inside the housing and exposable through the open upper end, and a lifting device configured to expose or store the audio-visual device inside the housing through the open upper end. The audio-visual device may include a display, a speaker, and a processor configured to control the audio-visual system to operate in a first mode for outputting media art content while the display is stored in the housing according to a first event, operate in a second mode for outputting audio content through the speaker while part of the display is exposed through the open upper end according to a second event, and operate in a third mode for outputting a visual content while the entire display is exposed through the open upper end according to a third event.

A positional and postural accuracy of stereo cameras 30 is maintained. A camera support structure (100) includes a support frame (130) that is mounted on a housing (110) of a head-mounted display 1 and supports stereo cameras (30), and at least one rubber member (40) that is interposed between the housing (110) and the support frame (130) and has at least a portion elastically deformable between the housing (110) and the support frame (130) upon deformation or displacement of the support frame (130).

In a head-mounted display 100, an input information acquisition unit 140 receives selection of content by a user. A frame rate information acquisition unit 144 acquires information relating to a frame rate of the content, and a luminance adjustment unit 146 determines display luminance according to the frame rate. A content reproduction unit 142 reproduces an image of the content, and a display unit 150 displays the image at the determined luminance.

A middle frame and a display device are provided. The middle frame includes a lamination surface, an outside face, and an inside face. A drainage trough is disposed on the lamination surface. A diversion groove and a sealant storage tank are disposed on the outside face. A width of the drainage trough is less than a width of the diversion groove. The width of the diversion groove is less than a width of the sealant storage tank. The above-described configuration can ensure a greatest degree of lamination area, ensuring reliability of lamination, preventing sealant from flowing into a display area, and increasing yield of a display panel.