The present application relates to a method for seamless splicing of a special-shaped display screen, including: dividing the special-shaped display screen into a number of regular quadrilateral modules and a number of special-shaped modules; calculating a number of LED light pieces on a first side of a regular quadrilateral module after division; determining the number of the LED light pieces arranged on the first side of the regular quadrilateral module; calculating a number of LED light pieces arranged on a second side of the regular quadrilateral module, and the second side is adjacent to the first side; and continuing for the number of special-shaped modules obtained above.

A display device includes a first display layer including display elements disposed on an object; a power supply that supplies a power signal to the display elements; and a signal controller having an encoder that encodes first image data into second image data and that supplies it to the display elements. Each display element includes a base member; a pixel a driving circuit unit having a decoder that decodes the second image data into the first image data and that provides a pixel driving signal to the pixel; a first antenna unit that receives the power signal and that provides the power signal to the driving circuit unit; a second antenna unit that receives the second image data and that provides the second image data to the decoder; and a third antenna unit that transmits and receives an addressing signal for detecting a relative position between the display elements.

A method includes receiving, at a master agent, announcements from candidate consumer agents indicating the presence of the candidate consumer agents. Each announcement includes display parameters for a display of the corresponding candidate consumer agent. The method further includes receiving at the master agent content parameters from a producer agent, the content parameters defining characteristics of content to be provided by the consumer agent. A mosaic screen is configured based on the received announcements and the content parameters. This configuring of the mosaic screen includes selecting ones of the consumer agents for which an announcement was received and generating content distribution parameters based on the content parameters and the display parameters of the selected ones of the consumer agents. The generated content distribution parameters are provided to the consumer agent.

A system is disclosed for processing and streaming real-time graphics by a video-server for synchronized output via secondary-network connected display adapters to multiple displays arranged as a video-wall. This system enables the video-server to leverage performance advantages afforded by advanced GPUs, combined with low-cost Smart displays or System-on-Chip devices to deliver advanced realtime video-wall capabilities over the network while offering flexibility in the selection of network display adapters and still achieving synchronized output of multiple sub-image streams to selected end-point displays. This has applications generally in the field of real-time multiple-display graphics distribution as well as specific applications in the field of network video-walls. A method and computer readable medium are also disclosed that operate in accordance with the system.

Image display device and method have a display arranged at a user's preferred position and displaying images with comfortable image quality and arrangement that match a user's viewing position and preference. The image display device includes an external input interface, a memory for storing image data, an arithmetic processing unit, a graphics processing unit, a display, and a setting mode suitable for the user.

An electronic device according to various embodiments of the present invention comprises: a first main body including a first surface and a second surface which faces the opposite direction to the first surface; a second main body including a third surface which faces the first surface of the first main body part when being folded in a first direction, and a fourth surface which faces the second surface of the first main body part when being folded in a second direction; a rotatable connection unit which connects at least a part of one side of the first main body part and at least a part of one side of the second main body part; a first display which is exposed to the first surface of the first main body part; a second display which is exposed to the third surface of the second main body part; a processor which is electrically connected to the first display and the second display; and a memory which is electrically connected to the processor. The memory, when being executed, may store instructions for instructing the processor to display the first screen and the second screen on the first display and the second display, respectively, when an angle between the first main body and the second main body is included in a first range, and to display at least one from among the third screen and the fourth screen on at least one from among the first display and the second display when an angle between the first main body and the second main body is out of the first range and is included in a second range due to the first main body and the second main body being folded in the second direction.

The present disclosure provides technologies that enable users to graphically merge content displayed on a first computing device with content displayed on a second computing device by the use of a simplified gesture. For example, a user can hold a portable computer displaying content up to a screen of another computer displaying other content. The user can position the portable computer to align the rendering of the content with a rendering of the other content. Measurements of the alignment are processed to determine a location that is used to graphically merge the content of the portable computer at a specific location within the other content. A scaling factor can be used to control the size of the content that is placed within the other content. The scaling factor can be based on a user gesture, preference data, or knowledge of a computing device.

A method and system of providing a wearable expanded display system for portable computing devices is disclosed. The method includes connecting a head-mounted display system to the portable computing device and anchoring a virtual projection of content from the portable computing device to a screen of the portable computing device to provide the user with an augmented reality viewing experience. The virtual projection can present the content in an enlarged view with richer content options than the smaller screen of the portable computing device. The position of the virtual projection will adapt to changes in pose of the screen to maintain the anchored relationship.

The invention relates to a method for managing a display interface formed of a plurality of display screens (3) of smartwatches (1) worn on parts of the body of users, which parts are capable of moving or are moving, said watches (1) being located in proximity of one another, the method comprising the following steps: estimating (10) at least one broadcasting property of each display screen (3) in said display interface which they form together, and managing the display (15) of a visual message on said display interface comprising a substep (18) of generating portions of said visual message as a function of measurement data relating to at least one broadcasting property, each portion being intended to be displayed on the screen (3) of each smartwatch (1); broadcasting (19) portions of said message on each screen (3) constituting this display interface.

A method is performed at a first computer system having a first display generation component in communication a second computer system having a second display generation component. The method includes, in response to an input, moving a representation of content across a first display region provided by the first display generation component to a second display region provided by the second display generation component when the display generation components are communication in a first mode or a second mode. The method includes moving an application window across the first display region to the second display region provided when the display generation components are communication in the first mode and preventing the moving across the first display region to the second display region when the display generation components are in communication in the second mode.