Image processing method and device for a spliced panel and a spliced panel are provided. The image processing method includes calculating a horizontal stretch coefficient of the spliced panel according to a resolution of the plurality of display units, a sum of horizontal spliced-gap widths of the spliced panel and a horizontal pixel pitch of the plurality of display units; calculating a vertical stretch coefficient of the spliced panel according to the resolution of the plurality of display units, a sum of vertical spliced-gap widths of the spliced panel and a vertical pixel pitch of the plurality of display units; stretching an original image to be displayed by the spliced panel according to the horizontal stretch coefficient and the vertical stretch coefficient to acquire a target image; and controlling display of the plurality of display units of the spliced panel according to the target image.

In some examples an electronic device includes an image sensor and a processor. The processor is to determine an angle of an eye gaze of a user in relation to an optical axis of the image sensor and adjust, responsive to a determination that the angle exceeds a threshold angle, an active area of a display device.

A display device includes a main body configured to have a display module to which a user interface is output, a bending module located at a center of a back surface of the main body, and a controller. The controller controls the bending module to change a curvature of the display module to any one of a flat mode in which the display module is flat, a first bending mode in which the display module has a first curvature, and a second bending mode in which the display module has a second curvature, wherein the second curvature is a maximum curvature of the display module. Then, the controller changes at least one of a size and a position of a display region to which the user interface is output, according to whether a mode is the flat mode, the first bending mode, or the second bending mode.

This application relates to the field of terminal technologies, and provides an image display method and apparatus, a terminal device, a storage medium, and a program product. The method includes: obtaining, in response to a first instruction entered by a user, a first offset corresponding to a first display specification; and displaying a first target image on a display based on the first display specification, where the first target image is obtained by cropping a first original image based on the first display specification, an offset between a center of the first target image and a center of the first original image is the first offset, and the first original image is an image shot by using a front-facing camera as a center.

The disclosure relates to a method for controlling a display direction of an electronic device. A method operating the electronic device includes displaying content on a screen of the electronic device, determining a display direction of content on the basis of a user profile upon detecting a tilt change of the electronic device by using a sensor, and displaying the content on the screen depending on the determined display direction.

In some examples an electronic device includes an image sensor and a processor. The processor is to determine an angle of an eye gaze of a user in relation to an optical axis of the image sensor and adjust, responsive to a determination that the angle exceeds a threshold angle, an active area of a display device.

A system and method for control of user interfaces on electronic and/or computerized devices. The system and method display images, both still and video images, in an orientation-agnostic manner that is independent of a physical orientation of the display screen. This provides an interesting visual display effect whereby the image appears to remain in a fixed orientation (e.g., upright) relative to three-dimensional space, untethered to any position or orientation of the display screen and/or device, while the display screen and/or device is changed in position and/or orientation, such that the portion of the viewed image changes according to the dimensions and orientation of the screen relative to an apparent fixed orientation and/or position of the underlying image. Such a system and method for control of user interfaces provides for more efficient use of a display screen having a relatively limited size, as is common for smartphones and tablet computers.

The present disclosure provides a display system that includes an acquisition device, a detection device, a display processing device, and a correction processing device. The acquisition device acquires speed information indicating a speed of a moving body. The detection device detects a posture variation amount of the moving body. The display processing device controls a display position of an image based on a reference position and a correction amount. The correction processing device sets the correction amount based on the speed and the posture variation amount. The correction processing device estimates whether or not the correction amount becomes equal to or more than a predetermined amount based on the speed and the posture variation amount, and adjusts the correction amount based on the estimation result.

An information processing device includes: a foldable one display; a memory which stores at least a program; and a processor which executes the program stored in the memory. By executing the program stored in the memory, the processor performs: display mode switching processing to switch between a first display mode in which display of a screen area of the display is controlled as one display area, and a second display mode in which the screen area of the display is split into two display areas of a first display area and a second display area to control the display; information holding processing to hold window information about position and size, in the screen area, of a window of each application running in the first display mode; and display control processing to display the window of the running application in the screen area.

A display device includes: a visual sensor for generating visual sensing data by sensing an eye of a user; a display panel including a display area and pixels disposed on the display area; an image converter for generating a second image signal by converting a first image signal of the pixels based on the visual sensing data; and a data driver for providing the pixels with data signals corresponding to the second image signal. The image converter generates visual information based on the visual sensing data, determines a first area and a second area different from the first area of the display area based on the visual information, and generates the second image signal by converting grayscales of the second area in the first image signal.