A circuit board that includes OLED display technology is provided. An OLED display may present light patterns recognizable by a hearing or visually impaired users. The light pattern may be customized by the user. A specific workflow may be associated with a specific light pattern. A light pattern may visually guide a user through a workflow. For example, different menu options may be color coded. High consequence changes may flash with a certain light sequence or pattern. Trusted devices may present a specific light pattern or matrix at login time to confirm that the user is accessing a trusted device.

Disclosure herein concerns a method that includes illuminating a user's eye with an illumination source in a head-worn display, capturing an image of the user's eye with an eye camera in the head-worn display, wherein the image includes an eye glint produced by light from the illumination source that is reflected from a surface of the user's eye, determining a size of an eye glint in the captured image, and identifying a change in focus distance for the user's eye in correspondence with a change in the size of the eye glint.

Systems, methods, and computer readable media that improve the gamut size for a multi-layer display. Various embodiments receive a color input value indicative of a target display color associated with an input image and determine a color saturation value for the received color input value. Based on the color saturation value, a drive value for a monochromatic modulation panel and a drive value for a color modulation panel may be determined. The various embodiments can then drive the monochromatic and color modulation panel according to the drive values. The monochromatic modulation panel is not modulated until the color modulation panel is driven to full illumination.

Various approaches discussed herein provide for changing the behavior and/or display properties of various interface elements associated with an application executing on a computing device, such as a device having an electrophoretic ink (e-ink) display screen. According to various embodiments, one or more libraries having E-ink specific parameters are provided that are used to modify the various interface elements based upon such information as a type and/or style of interface element.

The laser projection display device includes: a photo-sensor for detecting the quantity of laser light generated by the laser light source; and an image processing unit for processing a drive signal on the basis of the quantity of light of the detected laser light and supplying the processed drive signal to a driving unit for the laser light source. Right after the dimming, the image processing unit supplies the drive signal to the driving unit for the laser light source on the basis of the quantity of light of the detected laser light within a second execution cycle shorter than a first execution cycle which is the execution cycle used during the normal operation.

A circuit board that includes OLED display technology is provided. An OLED display may present light patterns recognizable by a hearing or visually impaired users. The light pattern may be customized by the user. A specific workflow may be associated with a specific light pattern. A light pattern may visually guide a user through a workflow. For example, different menu options may be color coded. High consequence changes may flash with a certain light sequence or pattern. Trusted devices may present a specific light pattern or matrix at login time to confirm that the user is accessing a trusted device.

An image processing apparatus includes: a luminance/chromaticity calculation unit that calculates a luminance and a chromaticity for each pixel of pixels making up image data, based upon a value indicated for the pixel; a plane calculation unit that determines through arithmetic operation a plane containing coordinates of the pixel in a raw data space; an intersection point calculation unit that ascertains, through calculation, an intersection point at which an achromatic locus and the plane intersect each other in the raw data space; an intersection point chromaticity calculation unit that calculates a chromaticity at the intersection point; and a conversion unit that converts the chromaticity at the pixel to a chromaticity close to a chromaticity of achromatic color if the chromaticity at the pixel is close to the chromaticity at the intersection point.

An electrowetting display device includes a plurality of pixels positioned between a first support plate and a second support plate. A display driver provides addressing signals to the plurality of pixels. The electrowetting display device includes a packaged integrated circuit that includes an input pin configured to electrically connected to a host processor, an output pin electrically connected to the display driver, and an input interface configured to receive image data from a host processor through the input pin. The packaged integrated circuit includes a rendering engine configured to generate a luminance value for a first pixel in the plurality of pixels using the image data, and a memory controller configured transmit a data signal through the output pin to cause the display driver to apply a driving voltage to the first pixel in the plurality of pixels. The driving voltage is at least partially determined by the luminance value.

In a robot (3) in a remote location, an action scene of the robot (3) is determined based on a feature amount derived from its position and motion detection data and video data, and a video parameter or an imaging mode corresponding to the determined action scene is selected. Then, a process of adjusting the selected video parameter for the video data or a process of setting the selected imaging mode to the camera is performed, and the processed video data is transmitted to the information processing apparatus (2) on the user side via the network (4) and displayed on the HMD (1).

A circuit board that includes OLED display technology is provided. An OLED display may present light patterns recognizable by a hearing or visually impaired users. The light pattern may be customized by the user. A specific workflow may be associated with a specific light pattern. A light pattern may visually guide a user through a workflow. For example, different menu options may be color coded. High consequence changes may flash with a certain light sequence or pattern. Trusted devices may present a specific light pattern or matrix at login time to confirm that the user is accessing a trusted device.