An electronic display system includes a display controller configured to receive a first hinge angle between a first display and a second display pivotally coupled to the first display via a hinge. A first portion of the rendered visual content is displayed on the first display and a second portion of the rendered visual content is displayed on the second display, the first portion and the second portion having rendered sizes based at least in part on the first hinge angle.

A pixel compensation module according to one embodiment of the present disclosure detects a degraded region with reference to degradation data corresponding to each of pixels included in a display panel, determines a first compensation gain so as to decrease final compensation data of pixels included in the degraded region, and determines a second compensation gain so as to increase final compensation data of pixels included in an adjacent degraded region to correct compensation data of the pixels.

An information handling system includes a display, a gaze detector that determines a location on the display that corresponding with where a user is looking at the display, and a processor. The processor receives the location from the gaze detector, determines a non-power-reduced portion of the display that includes the location, determines a power-reduced portion of the display that is exclusive of the non-power-reduced portion, receives data associated with a pixel of an image included in the power-reduced portion, changes the data such that a first power level consumed by the display when displaying the pixel with the changed data is less than a second power level consumed by the display when displaying the pixel with the unchanged data, and sends the changed data to the display.

Systems and methods for providing content-based localized brightness control are disclosed. A system may include a display panel configured to support independently controllable brightness levels for a plurality of pixel groups within the display panel. The system may also include a processor in communication with the display panel. The processor may be configured to identify a specific pixel group of the display panel based on content being displayed in the specific pixel group, and the processor may be further configured to set a brightness level of the specific pixel group differently from another pixel group of the display panel.

A display apparatus may comprise: a panel driving unit comprising driving circuitry, a display panel, and a processor configured to control the panel driving unit, wherein the processor is configured to: control the panel driving unit to output gate signals to multiple gate lines sequentially one by one to process image data at a first driving frequency in a first mode, and control the panel driving unit to output gate signals to the multiple gate lines sequentially at least two gate lines at a time to process image data at a second driving frequency higher than the first driving frequency in a second mode.

An electronic device having a touch-screen display detects a first input on the display while displaying a first user interface on the display. In response to detecting the first input on the display, the device enters a flashlight mode. Entering the flashlight mode includes replacing the first user interface with a first flashlight user interface. The first flashlight user interface has a first total lumen output and a first luminance that is substantially uniform over the display. The device determines whether brightness change criteria are met, and in accordance with a determination that the brightness change criteria are met, displays a second flashlight user interface having a second total lumen output greater than the first total lumen output and a second luminance that is substantially uniform over the display.

The present disclosure relates to an image processing device, an image processing method, and a program capable of increasing the utility of processing for reducing discontinuity in display of image frames acquired through imaging at different imaging rates.

From image frames including normally imaged frames imaged at a normal imaging rate, and high-rate imaged frames imaged at a rate higher than the normal imaging rate, determination is made on image frames imaged at at least one of the imaging rates to be image frames for which a displaying rate is to be changed. The displaying rate of the image frames determined to be the image frames for which the displaying rate is to be changed is adjusted within a predetermined range from a timing when the imaging rate is switched. The present technology is applicable to an image processing device configured to perform image processing on image frames, for example.

A display apparatus including: a display panel configured to display an image based on input image data; a data driver configured to output a data voltage to the display panel; and a driving controller configured to determine a driving frequency of the display panel based on flicker values for grayscale values of the input image data and output a driving frequency signal representing the driving frequency of the display panel to a host.

Disclosed are a content display method and an electronic device. The content display method includes reducing display brightness of some of a plurality of pixels constituting content based on pixel information of the plurality of pixels. The content display method includes displaying the content based on the reduced display brightness.

A transmission method in the present disclosure includes; obtaining an image and image signal characteristics information indicating one of an opto-electrical transfer function (OETF) or an electro-optical transfer function (EOTF) as image signal characteristics of the image; and transmitting a signal including the image and the image signal characteristics information. According to the transmission method in the present disclosure, a receiving device that received a high dynamic range (HDR) image and a standard dynamic range (SDR) image transmitted through broadcasting or the like can display these images appropriately.