Disclosed in embodiments of the present application are a screen color gamut control method and apparatus, an electronic device, and a storage medium. The method comprises: displaying a control, the control being configured to control the screen to switch between different color gamut spaces; acquiring the state of the control, the state being used for representing the color gamut space to which the screen is controlled to switch; and adjusting the color gamut space of the screen to make same be switched to the color gamut space corresponding to the state of the control. By means of the present method, when the control is displayed, the color gamut space of the screen is adjusted by the control to switch the color gamut space to that corresponding to the state of the control, so that users can enjoy different color experiences, thereby improving user experience.

An electronic paper display and a driving method thereof are provided. The electronic paper display includes an electronic paper display panel, a touch panel and a processing circuit. The electronic paper display panel is configured to display a display screen with a background in a first color. The touch panel is integrated with the electronic paper display panel and configured to output a first touch coordinate of a current touch. The processing circuit is configured to drive the electronic paper display panel to display a first touch track having a second color and corresponding to the first touch coordinate and a previous touch coordinate. The processing circuit further drives, according to the first touch track and a previous touch track, the electronic paper display panel to display a predicted track having a third color.

A video input interface receives video data. An OSD circuit draws an intermediate layer in a target region in which an OSD character is to be overlaid on the video data, and overlays the OSD character on the intermediate layer.

Disclosed in embodiments of the present application are a screen color gamut control method and apparatus, an electronic device, and a storage medium. The method comprises: displaying a control, the control being configured to control the screen to switch between different color gamut spaces; acquiring the state of the control, the state being used for representing the color gamut space to which the screen is controlled to switch; and adjusting the color gamut space of the screen to make same be switched to the color gamut space corresponding to the state of the control. By means of the present method, when the control is displayed, the color gamut space of the screen is adjusted by the control to switch the color gamut space to that corresponding to the state of the control, so that users can enjoy different color experiences, thereby improving user experience.

A display method and a display device using the same is disclosed. In the display method, an image is received. The image has an indicative object and a display background that surrounds the indicative object. Then, the original color of the indicative object is changed into a first color and the image that has the indicative object with the first color is displayed based on the average hue of a part of the display background. The part of the display background surrounds the indicative object. The average hue corresponds to a second color. The first color and the second color are complementary colors.

A display device according to an embodiment of the disclosure comprises: a linear gamut mapping unit for deriving a linear gamut mapping result for matching a gamut of an input image signal to a target display gamut; a non-linear gamut mapping unit for deriving a non-linear gamut mapping result for matching the gamut of the input image signal to the target display gamut; and a mixing unit for generating an output image signal by mixing the linear gamut mapping result and the non-linear gamut mapping result. The disclosure may provide an optimal gamut mapping result that is intended by a user and an originator.

A display method and a display device using the same is disclosed. In the display method, an image is received. The image has an indicative object and a display background that surrounds the indicative object. Then, the original color of the indicative object is changed into a first color and the image that has the indicative object with the first color is displayed based on the average hue of a part of the display background. The part of the display background surrounds the indicative object. The average hue corresponds to a second color. The first color and the second color are complementary colors.

Provided are a display apparatus, a display method, an image processing apparatus, and a computer program product for image processing. The display apparatus includes: a first display portion, an indication signal receiver an enhanced region determination portion and an image processing portion. The first display portion is configured to display a first image. The indication signal receiver is configured to acquire a position of an indication point in a region of the first image, and to send a position signal according to the position of the indication point. The enhanced region determination portion is configured to determine an enhanced region according to the position signal. The image processing portion is configured to carry out enhanced display processing on the enhanced region based on a signal of the first image so as to form a signal of a second image, and to output the signal of the second image.

This disclosure describes efficient communication of surface texture data between system on a chip (SOC) integrated circuits. An example system includes a first integrated circuit and a second integrated circuit communicatively coupled to the first integrated circuit by a video communication interface. The first integrated generates a superframe in a video frame of the video communication interface for transmission to the second integrated circuit. The superframe includes multiple subframe payloads that carry surface texture data to be updated in the frame and corresponding subframe headers that include parameters of the subframe payloads. The second integrated circuit includes a direct access memory (DMA) controller. The DMA upon receipt of the superframe, writes the surface texture data within each of the subframe payloads directly to an allocated location in memory based on the parameters included in the corresponding one of the subframe headers.

A display panel test circuit and a display panel. The display panel test circuit includes a first signal line, a first control line and a plurality of switching units, the first signal line comprises a first sub-signal line, a second sub-signal line and a plurality of third sub-signal lines, two ends of each of the third sub-signal lines are connected to the first sub-signal line and the second sub-signal line respectively. Each switching unit includes a first switching device, a control end thereof is connected to the first control line, an input end thereof is connected to the first sub-signal line, the output end of the first switching device is a test signal output end of the switching unit to which the first switching device belongs, and a portion of the first sub-signal line between any two adjacent switching units is connected to at least one third sub-signal line.