The present invention provides a data processing method and an electronic terminal. The electronic terminal obtains target data that includes at least one data item, converts the target data into a data image by using a data visualization technology, and then sets the data image as wallpaper, where the data image includes at least one graphic element, and the graphic element is in a one-to-one correspondence with the data item. The target data is user data, and may include operation event information of operating the electronic terminal by a user, or information that is associated with a user account and that is based on at least one network platform, so as to automatically generate the wallpaper, show the user data to the user by using the wallpaper, and improve user experience.

An electronic device is provided. The electronic device includes a display, a camera module disposed under the display, and a processor configured to control the display and the camera module, and a memory operably connected to the processor. The memory may store instructions that, when executed, cause the processor to receive display metrics information that is changed according to the state of the display, produce an under-display camera area corresponding to a position of the camera module, based on the changed display metrics information, produce a logical cutout of the under-display camera area, and update the layout of an application to be executed, based on the cutout.

A digital image display device for displaying a sequence of digital media assets, the digital media assets including both individual digital still images and groups of related digital still images, comprising a display screen; a processor; and a processor-accessible program memory. The processor-accessible program memory stores executable instructions for causing the processor to execute the steps of: designating a sequence of digital media assets; and sequentially displaying each digital media asset in the sequence of digital media assets on the display screen, wherein if a displayed digital media asset is an individual digital still image it is displayed for a specified display time duration, and if a displayed digital media asset is a group of related digital still images the display time duration is subdivided and each of the digital still images in the group of related digital still images is displayed for a corresponding display time duration fraction.

A visual perception device has a look-up table stored in a laser driver chip. The look-up table includes relational gain data to compensate for brighter areas of a laser pattern wherein pixels are located more closely than areas where the pixels are further apart and to compensate for differences in intensity of individual pixels when the intensities of pixels are altered due to design characteristics of an eye piece.

An information processing device including a display unit, a detector, and a first control unit and a method of using same. The display unit may be a head-mounted display. The display unit is capable of providing the user with a field of view of a real space and a virtual object. The detector detects an azimuth of the display unit around at least one axis and display of the virtual object is controlled based in the detected azimuth.

Embodiments of this disclosure provide a method relating to video playing in mobile phone. The method includes: while displaying a first video in a first user interface of a first application, detecting an event for displaying a second user interface of a second application; if the second application has a higher display priority than the first application and playback of the first video is in active progress, replacing display of the first user interface of the first application with display of the second user interface of the second application on the display; generating a hover box to overlay a portion of the second user interface of the second application on the display; and continuing the playback of the first video in the hover box overlaid on the portion of the second user interface of the second application such that both the first application and the second application are performed simultaneously.

Videos are to be displayed in parallel, without missing information or a decrease in efficiency in the usable display region.

The aspect ratio of the large screen of an information processing apparatus 100 is 16:9, which is compatible with a Hi-Vision video. In a case where the large screen is used in a portrait layout, if the large screen is divided into three small screens in the vertical direction, the aspect ratio of the small screens after the dividing is 9:16/3=16:9.48. With respect to the original video content at 16:9, the ratio in inches is 9/16=56.25% (the area ratio is (9/16).sup.2=31.64%). Accordingly, the usable display region can be efficiently used.

Systems, methods, and computer-readable media are provided for generating computer-mediated reality display data based on user instantaneous motion data. A system includes at least one sensor, a mediated reality data source, and a mediated reality display generator that generates displayable mediated reality scene data based on (a) current reality data of the system from the at least one sensor; (b) mediated reality data from the mediated reality data source; and (c) instantaneous motion data of the system from the at least one sensor. In one example the mediated reality display generator generates the displayable mediated reality scene data by generating displayable mediated reality frame data based on the current reality data and the mediated reality data. The operations further include selecting a portion of the displayable mediated reality frame data as the displayable mediated reality scene data based on the instantaneous motion data. The portion that is selected is offset from a center of the displayable mediated reality frame data and is less than a frame size of the displayable mediated reality frame data and the offset is selected based on said instantaneous motion.

A video signal conversion method, a corresponding video signal conversion device and a display system including the video signal conversion device, by which low-resolution video signals can be converted and combined into a high-resolution video signal, such that a high-resolution image combined by low-resolution images can be displayed on an ultra-high definition display screen. The video signal conversion method includes: receiving in parallel a plurality of sub-frames divided from a low-resolution image of a video signal; performing image processing on each of the received sub-frames; and synthesizing the plurality of sub-frames after being subjected to the image processing into a high-resolution image frame and displaying the high-resolution image on a display device.

An apparatus and a method for providing information are provided. The apparatus includes an interfacing unit configured to receive biometric information, which is measured by an external measuring device, corresponding to a health condition of a body part of a user, from the external measuring device; and a processor configured to determine a visual metaphor representation for characterizing a degree of the health condition based on mapping information between components of the visual metaphor representation and types of the received biometric information, and transform the received biometric information into the determined visual metaphor representation, where the interfacing unit is configured to transmit the transformed visual metaphor representation to an external displaying device.