An driving method for a display panel, the display panel having a first resolution. The driving method comprises: converting RGB signals of an input image having a second resolution into YUV signals corresponding to an output image, a resolution of the output image being not smaller than the second resolution; converting the YUV signals into RGB signals corresponding to the output image; converting the RGB signals corresponding to the output image into driving signals for driving the display panel; and outputting the driving signals to the display panel. Display panels having the resolution of 10240×4320 can be driven by using the driving method.

An electronic device is disclosed. The electronic device receiving content from an external device includes a memory configured to include a first HDMI version of Extended Display Identification Data (EDID) information, a second HDMI version of EDID information, the second HDMI version being an upgraded version of the first HDMI version and, at least one resolution information supportable in the electronic device other than the first HDMI version of EDID information, an external interface configured to communicate with the external device and a processor configured to cause the second HDMI version of EDID information to not be read by the external device, to cause the EDID information of the first HDMI version among the EDID information to be read by the external device, and to cause the at least one resolution information to be read by the external device.

The present invention relates to a display device and a method for image processing thereof, in which an input image is enlarged and a part of the enlarged image is selected as an image to be displayed on the screen of a display panel, and it is possible to thereby prevent screen burn-in and to prevent a phenomenon in which pixel data is not present and thus a pixel appears black when an image is moved on the screen.

Content is displayed during a collaboration session by causing an asset to be displayed on a first display at a first size and at a first aspect ratio, while the asset is displayed on a second display at a second size and at the first aspect ratio, receiving a first display input via the first display indicating a mode change for displaying the asset, and, in response to receiving the first display input, causing an image of at least a portion of the asset to be displayed on the first display at a third size that is larger than the first size, while the asset continues to be displayed on the second display at the second size and at the first aspect ratio.

A digital television includes: a display; a tuner; a wireless network interface to transmit data to a mobile terminal and receive audio information and screen; and a controller. The controller is configured to control a signal processor to decode the video signal and the screen information, control the display to display first image corresponding to the decoded video signal with second image corresponding to the decoded screen information, the second image corresponding to an image displayed on the mobile terminal, and receive a command from a remote controller. The controller is also configured to control the signal processor to process the audio signal and the audio information and to output the processed audio signal or the processed audio information to an audio output unit, and to control the signal processor to change the second image's size or position depending on the at least one command received from the remote controller.

A television receiver segments a part of an image depending on image information received from a communication device and pixel information representing the number of pixels in a longitudinal direction and a lateral direction of the image. The television receiver judges a size between the number of pixels in the longitudinal direction and that in the lateral direction in the pixel information, and when it is judged that the number of pixels in the longitudinal direction is larger than that in the lateral direction, displays two screens in which the segmented image and another image are juxtaposed on a display unit. Meanwhile, when it is judged that the number of pixels in the longitudinal direction is not larger than that in the lateral direction, the television receiver receives a signal designating the number of screens to be displayed on the display unit and displays the two screens in which the segmented image and another image are juxtaposed or one screen of the segmented image on the display unit depending on the received signal.

In a virtualized system, a number of Virtual Machines (VMs) have their own GUIs. A full screen desktop has active corners that roll up in response to user action, such as mouse move or touch screen action. An active corner of the desktop rolls up allowing a user to select another VM application or another display mode without taking any special actions for getting out of a full screen mode. The switch feature does not take up any space on the desktop.

A digital television includes: a display; a tuner; a wireless network interface to transmit data to a mobile terminal and receive audio information and screen; and a controller. The controller is configured to control a signal processor to decode the video signal and the screen information, control the display to display first image corresponding to the decoded video signal with second image corresponding to the decoded screen information, the second image corresponding to an image displayed on the mobile terminal, and receive a command from a remote controller. The controller is also configured to control the signal processor to process the audio signal and the audio information and to output the processed audio signal or the processed audio information to an audio output unit, and to control the signal processor to change the second image's size or position depending on the at least one command received from the remote controller.

An image display system includes: a display device; and an information terminal, the display device having: a display control unit that generates a first display image having size adjustment regions added thereto, based on a video signal outputted by the information terminal; and an image transmitter that outputs the first display image generated by the display control unit to the information terminal; the information terminal having: a video output unit that outputs the video signal to the display device; a screen adjustment information acquisition unit that acquires screen adjustment information used by the display control unit to generate a display screen to be displayed on the display device, based on the first display image transmitted by the image transmitter; and an information transmitter that transmits the screen adjustment information acquired by the screen adjustment information acquisition unit to the display device, wherein the display control unit generates a second display image, based on the screen adjustment information transmitted by the information transmitter.

A non-transitory computer-readable recording medium stores an information processing program that causes a computer that constitutes an information processing apparatus including a built-in first display device, to execute a process. The process includes detecting, from outside the information processing apparatus, a state where a second display device is connected, the second display device being different from the first display device; setting both the first display device and the second display device as display destinations, when switching the display destination from the first display device to the second display device; switching the display destination to the second display device after setting both the first display device and the second display device as display destinations; and controlling a display image according to a screen specification of the second display device.