A system for offset cancellation for driving a display panel includes: a plurality of source amplifiers driving the display panel; an image analyzer configured to receive a data input of an image frame and analyze the data input; and a chopping pattern controller connected with the image analyzer and configured to determine a chopping pattern that fits the data input based on analysis results of the image analyzer, and apply the determined chopping pattern to the source amplifiers. The source amplifiers are divided into N groups while the chopping pattern controller is configured to drive source amplifiers in each group by a single chopping control signal. The image analyzer is configured to generate an indicator that indicates whether image data being analyzed corresponds to a general image or one of pre-registered killer pattern images. A method for offset cancellation for driving a display panel is also provided.

The present disclosure relates to a multi-screen interactive network teaching method and apparatus, an electronic device and a storage medium. The method includes: receiving signals of a plurality of network teaching video sources; analyzing the plurality of network teaching video sources according to a preset analysis algorithm; determining action frequencies of the plurality of network teaching video sources according to analysis results; performing importance level ranking on the network teaching video sources according to the action frequencies of the plurality of network teaching video sources; acquiring entries of correspondence relationships between preset priorities of a plurality of associated terminal display devices and importance level ranks of the video sources, and according to the entries of correspondence relationships, respectively displaying each of the network teaching video sources via a terminal display device with a priority corresponding to the importance level rank of the network teaching video source.

The present disclosure relates to a multi-screen interactive network teaching method and apparatus, an electronic device and a storage medium. The method includes: receiving signals of a plurality of network teaching video sources; analyzing the plurality of network teaching video sources according to a preset analysis algorithm; determining action frequencies of the plurality of network teaching video sources according to analysis results; performing importance level ranking on the network teaching video sources according to the action frequencies of the plurality of network teaching video sources; acquiring entries of correspondence relationships between preset priorities of a plurality of associated terminal display devices and importance level ranks of the video sources, and according to the entries of correspondence relationships, respectively displaying each of the network teaching video sources via a terminal display device with a priority corresponding to the importance level rank of the network teaching video source.

Disclosed is an electronic device including a display, a display driving circuit which drives the display, and at least one processor operationally connected to the display or the display driving circuit, wherein the at least one processor gives an afterimage risk ranking to each of a plurality of applications, and, when an application given an afterimage risk ranking higher than a designated range among the plurality of applications is executed, generates afterimage data by accumulating images sampled from the execution screens of the application given the afterimage risk ranking higher than the designated range, and delivers the afterimage data to the display driving circuit. Various other embodiments that can be understood through the present specification are also possible.

There is provided a video processing apparatus, method, and program to enable electro optical transfer processing on video data to be suitably performed. The video processing apparatus includes an acquisition unit configured to acquire video data obtained by performing high dynamic range optical electro transfer on high dynamic range video data, a processing unit configured to perform processing including electro optical transfer on the acquired video data and obtains display video data, and a control unit. In the processing unit, the characteristic of the electro optical transfer is set to a characteristic corresponding to characteristic information of optical electro transfer associated with the acquired video data. The control unit is configured to switch the characteristic of the electro optical transfer in the processing unit in accordance with a selection operation of a user.

Disclosed are a display apparatus, a method of controlling the same, and a recording medium thereof, the display apparatus including: a display comprising a plurality of light source modules arrayed like tiles and mounted with a plurality of light emitting elements; an image processor configured to output a signal for displaying an image on a predetermined area of the display, the signal comprising image quality information and image data of the image; and a driver configured to drive the plurality of light source modules so that light emitting elements corresponding to the predetermined area emit light based on the image quality information and the image data.

Provided are an apparatus capable of dynamically controlling an image signal and an audio signal of content in units of content and an operating method of the apparatus. The apparatus includes a processor configured to detect characteristic information of an image signal of content based on analyzing the image signal in units of the content, detect characteristic information of an audio signal of the content based on analyzing the audio signal in the units of the content, and control the image signal in the units of the content based on the characteristic information of the image signal and the characteristic information of the audio signal to output the image signal, and control the audio signal in the units of the content based on the characteristic information of the image signal and the characteristic information of the audio signal to output the audio signal.

Controlling a display in an augmented reality head-up display for a vehicle. At least one safety-relevant parameter is determined in a first step. If two or more safety-relevant parameters are determined, one of the determined parameters can optionally be selected as a critical parameter. The intensity of the display element displayed on the augmented reality head-up display is subsequently adjusted on the basis of the at least one safety-relevant parameter. The display element is then output for display on the augmented reality head-up display.

There are provided methods for driving an electro-optic display having a plurality of display pixels, a such method includes applying a first waveform chosen from a first set of waveforms for black-to-white and white-to-white transitions if a pixel is determined to display color, and applying a second waveform chosen from a second set of waveforms for black-to-white and white-to-white transitions if a pixel is determined to display a grayscale image.

In one embodiment, a computing system may receive a target color and a propagated error for a pixel location. The system may determine an error-modified target color for the pixel location based on the received target color and the propagated error. The system may identify, based on a location of the error-modified target color in a three-dimensional color space, a subset of pre-determined colors in the three-dimensional color space. The error-modified target color may correspond to a weighted combination of the subset of pre-determined colors. The system may determine a pixel color for the pixel location based on the subset of pre-determined colors and respective weights associated with the subset of pre-determined colors. The system may determine, based on the pixel color, driving signals for light-emitting elements associated with the pixel location. The system may output the driving signals to control the light-emitting elements associated with the pixel location.