A display method includes the following operations. Multiple first image data are received by a processor through a graphics card. Multiple first image data are analyzed based on an artificial intelligence model by the processor. Multiple second image data are transmitted to the display by the processor. Multiple second image data include multiple first image data, at least one compensation image data between adjacent two of multiple first image data, or combinations thereof.

Embodiments of the present disclosure relate to a method, a device, and a computer program product for managing virtual visual content. A method for managing virtual visual content is provided, which includes: determining a plurality of content portions from virtual visual content that is to be interacted with a user, the plurality of content portions having different change frequencies in the interaction; and transmitting, based on the change frequencies, the plurality of content portions to a plurality of computing devices having different proximities to the user, respectively. Through the embodiments of the present disclosure, the delay of a user interacting with virtual visual content can be reduced.

A method performed by a processor of a electronic device, including rendering (402), on an electronic display, a line segment having a first direction and moving in a second direction. The method also includes a step of determining (404) whether the direction of the line segment (the first direction) is in the same direction that the line segment is moving (the second direction). If the processor determines that the line segment is not moving in the same direction of the direction of the line segment (the first direction), then the processor performs (408) a first action, such as adjusting the color intensity of the line segment. If the processor determines that the line segment is moving in the same direction of the direction of the line segment (e.g., the two directions are substantially parallel to each other), then the processor performs (406) a second action.

An electronic device and a method for displaying an image transmitted by a robot and remotely controlling a movement of the robot are provided. The electronic device includes a communicator, an inputter, a display, and a controller. The communicator receives, from the robot, an image photographed by the robot and time information. The inputter receives a command to control the robot. The display displays a screen corresponding to the image. The controller calculates a time delay between the electronic device and the robot based on the time information, control the display to display a graphical object to be overlaid on the screen, and control the communicator to transmit the command to the robot. The graphical object represents a field of view of the robot at a current time. The field of view of the robot at the current time may be estimated based on the time delay information.

In an embodiment of the present invention, a method for displaying an image of a display device includes moving the image displayed on an image display region along a movement path including a first position and a second position during a period of time, wherein, during the period of time, a total time for which the image is located at the first position is greater than a total time for which the image is located at the second position.

An electronic apparatus, FPS decision method, and non-transitory computer readable storage medium thereof are provided. The electronic apparatus comprises a circuit. The circuit calculates a movement value according to a plurality of first data corresponding to a first frame for display and a plurality of second data corresponding to a second frame for display. The circuit further calculates a target FPS for displaying a plurality of third frames according to the movement value and a number of frame time between the first frame and the second frame.

The present disclosure provides an OLED panel, a driving method thereof and a display device. The OLED panel has pixel units arranged in rows and columns, and each including an OLED device. The OLED panel includes regions arranged in column direction, and each including at least one row of pixel units and a cathode layer, the OLED devices in each region share the cathode layer therein, and the cathode layer of each region is disconnected from the cathode layer of any other region. The OLED panel includes a cathode voltage supply circuit configured to output a cathode voltage including an operating level to the cathode layer. The cathode voltage supply circuit is configured to start outputting the operating level to the cathode layer of at least one region at a time at least later than a time when all pixel units in the region receive a scan signal.

An information display system capable of reducing a trouble about display caused by display of content information corresponding to numerous markers and reducing process loads and a control method of the information display system are provided. In this system, a movement speed and a movement direction of a client apparatus operated by a user are detected, and a size and a position of a marker recognition area for recognizing a marker in an imaged image are determined according to the detected movement speed and the detected movement direction. Then, the content information corresponding to the marker recognized in the marker recognition area is superposed on the imaged image and output to a display screen.

A lighting system comprising multiple illumination sources is operable to vary a first and second light attribute over an array of locations. A user selects a first layer comprising an image having different values of the first attribute at different positions within the image, and at least one further layer representing motion. The first attribute at different locations in the array is mapped to the values of the first attribute at different positions in the first layer image, and the second attribute is varied based on the further layer so as to create an appearance of motion. The further layer comprises an algorithm selected by the user from amongst a plurality of predetermined algorithms, each configured so as to create the appearance of motion of a plurality of discrete, virtual lighting objects across the array, the motion of each of the virtual lighting objects being related but not coincident.

In one example, a head mounted display system includes at least one memory; and at least one processor to execute instructions to: detect a first position and a first view direction of a head of a user based on sensor data generated by at least one of an accelerometer, at least one camera, or a gyroscope at a first point in time; determine a latency associated with a time to cause an image to be presented on the display; determine a predicted position and a predicted view direction of the head of the user at a second point in time based on the latency; render, prior to the second point in time, the image for presentation on the display based on the predicted position and the predicted view direction of the head of the user; and cause the display to present the rendered image.