An image processing method includes: constructing an image data analysis model; obtaining a first gray level of at least one of a plurality of first sub-pixels, and second gray levels of at least two second sub-pixels corresponding to each of the at least one first sub-pixel; obtaining a first light transmittance corresponding to the first gray level of the at least one first sub-pixel, and second light transmittances corresponding to the second gray levels of the at least two second sub-pixels corresponding to each of the at least one first sub-pixel, and determining actual light transmittances corresponding to the second gray levels of the at least two second sub-pixels respectively according to the image data analysis model; and obtaining target light transmittances corresponding to the second gray levels of the at least two second sub-pixels respectively, and determining compensation gray levels corresponding to the at least two second sub-pixels according to the actual light transmittances corresponding to the second gray levels of the at least two second sub-pixels and the target light transmittances corresponding thereto.

A device and method of an image processing system where a Field Sequential Color Delta Sigma Pulse Density Modulation is used for digital displays, where the digital displays are non-emissive. The device and method are a digital driving solution using Delta Sigma Encoding where N bit-per-component symbols at F1 frame-rate-per-second are represented using M bits-per-component symbols at F2 frame-rate-per-second, where N≥M and F2≥F1. The F2 frames are sent to a sequential color picker, which outputs frames with one color, followed by the next in a sequential pattern which reduces power consumption, increases color saturation, increases contrast, and increases brightness.

An embodiment for adjusting digital content in a flexible display device is provided. The embodiment may include receiving data relating to a position and orientation of a reference device relative to a user. The embodiment may also include identifying an orientation of a display surface of a mobile device and a relative position of the mobile device relative to a viewing direction of the user. The embodiment may further include identifying an optimal viewing angle of display content on the display surface of the mobile device. The embodiment may also include in response to determining the display content is not able to be displayed as a hologram, aligning the display content as text based on the optimal viewing angle. The embodiment may further include presenting the aligned display content as text to the user.

An information processing apparatus includes a controller configured to, when displaying an on-screen display image on a screen of a display device, invalidate a contrast value set by a user to a contrast setting value specifying a contrast of the screen, and draw the on-screen display image so as to be superimposed on a background image.

An exercise instruction apparatus for guiding a user to perform a fitness exercise includes a control unit and a display device. The control unit is configured to control a video imagery displayed by the display device. The video imagery shows an instructor image and a user image simultaneously. The instructor image demonstrates movements of the fitness exercise and the user image presented in a mirror image is a real-time image of the user standing in front of the display device. The control unit is configured to adjust at least one image parameters such as brightness, transparency or contrast of at least one of the instructor image and the user image. The image parameter that is adjusted for the instructor image may be a different parameter than the image parameter that is adjusted for the user image. The instructor image may be overlapped on the user image, and the user can adjust the transparency of at least one of the first image and the second image.

Eye-friendly display that can reduce eye strain on a user is achieved. A display system includes a display portion, an input portion, and a control portion. The display portion is configured to display an image. The input portion is configured to sense an input from a user and output a signal to the control portion. The control portion is configured to execute a first mode and a second mode. In the first mode executed by the control portion, an image is displayed on the display portion by an interlace method. In the second mode executed by the control portion, an image is displayed on the display portion by a progressive method. The control portion is configured to switch between the first mode and the second mode in accordance with the signal.

It is an object to provide a display device in which a problem of light leakage from a liquid crystal element in black display is reduced or overcome and the contrast is improved. It is another object to provide a pixel circuit having a function to control a lighting state of a backlight based on each pixel. These objects are achieved by turning off a light-emitting element in display of a black gray scale, and by providing a light-emitting element in each pixel and providing, in a pixel circuit, a function to individually control lighting and non-lighting of the light-emitting element depending on a gray scale to perform display. When a backlight is provided in each pixel, a light-emitting element that is a backlight is turned off when a black gray scale is displayed, whereby reduction in contrast due to light leakage from a liquid crystal element can be prevented.

Provided are display screens for electronic devices and methods for displaying content on electronic devices, that are particularly suitable for users who are suffering from or recovering from a concussion or mild traumatic brain injury (MTBI), migraine, or computer vision syndrome. Embodiments comprise a component that modifies at least one parameter of content that is displayed on the display screen, wherein the modified displayed content reduces, minimizes, or eliminates negative side effects of users. Embodiments may include computer executable programmed instructions stored on a non-transitory computer readable storage medium that direct a processor to modify at least one parameter of content that is displayed on a display screen of an electronic device, and/or to implement a simplified graphical user interface. One embodiment is implemented using an e-paper display screen.

A display control system includes a display and an electronic device. The display includes a display panel, a USB hub, and a display control circuit. The USB hub receives a control signal in a first format through a USB interface. The display control circuit receives a control signal in a second format from the USB hub and controls the display panel according to the control signal in the second format. The electronic device includes an input device, a USB driver circuit, and a processor circuit. The input device generates an input signal. The USB driver circuit is electrically coupled to the USB hub of the display through the USB interface. The processor circuit generates an original control signal according to the input signal and controls the USB driver circuit to transmit the control signal in the first format through the USB interface.

A method, of reducing display device energy consumption, including: (a) determining lighting conditions ambient to a display device; (b) determining content that a user chooses to view on the display device; (c) calculating the user's perception of display quality using an image appearance model; and (d) adjusting, when the perceived display quality is higher than a target display quality, display device conditions so that the perceived display quality matches the target display quality so as to reduce energy consumption. An apparatus utilizing the method so as to reduce energy consumption while providing an aesthetically pleasing viewing experience to a user.