A method causes a display device to display (1) a video scene including first and second items undergoing motion, (2) first and second tags in respective first and second positions, and (3) respective first and second visually perceptible indicators extending between the items in the respective tag positions. Each visually perceptible indicator adjusts as one or both of the item and the tag position changes during the video scene so as to maintain proximity to each of the item and the tag position. The tags include text information describing the items in the video scene.

Various embodiments provide for dynamic streaming interface adjustments based on real-time synchronized interaction signals.

Scenes in video images are identified based on image content of the video images. Regional cross sections of the video images are determined based on the scenes in the video images. Image portions of the video images in the regional cross sections are encoded into multiple video sub-streams at multiple different spatiotemporal resolutions. An overall video stream that includes the multiple video sub-streams is transmitted to a streaming client device.

An electronic device, including a display; and a controller capable of displaying, via the display, an image being reproduced, a letterbox and subtitles positioned at the letterbox; receiving a control signal for enlarging a display size of the image; controlling the display to enlarge the image in response to the control signal, further the subtitles is positioned at the enlarged image.

Systems, methods, and non-transitory computer-readable media can determine a landscape video to be presented in a vertical orientation through a display screen of a computing device. Frames of the landscape video can be cropped to allow for full screen presentation of the landscape video in the vertical orientation. The cropped frames of the landscape video can be provided for presentation through the display screen of the computing device in the vertical orientation.

Provided are an artificial intelligence (AI) system that mimics cognitive functions, such as cognition and judgment, of the human brain using a machine learning algorithm such as deep learning and applications thereof. More particularly, provided is a device including a memory storing least one program and a first video, a display, and at least one processor configured to display the first video on at least one portion of the display by executing the at least one program, wherein the at least one program includes instructions for: comparing an aspect ratio of the first video with an aspect ratio of an area in which the first video is to be displayed, generating a second video corresponding to the aspect ratio of the area by using the first video when the aspect ratio of the first video is different from the aspect ratio of the area, and displaying the second video in the area, wherein the generating of the second video is performed by inputting at least one frame of the first video to an AI neural network.

A method causes a display device to display a video depicting an item in a scene and a tag in a first position on a first frame of the video. The tag is associated with the item depicted in the video, and the tag includes text information associated with the item depicted in the video. The method causes the video display to display the tag in a second position on a second frame of the video and causes the video display to display the tag in intermediate positions between the first and second positions during frames between the first and second frames of the video.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for generating a user interface that includes a viewport space of a digital content item; generating, based on user input, breakpoints of the viewport space based on a height, a width, or an aspect ratio of the viewport space; based on the breakpoints, generating formatting rules that each create a different version of the digital content item when the formatting rule is applied; and distributing, to a client device, the digital content item for display within an electronic document, including providing i) text or image content of the digital content item and ii) the formatting rules, wherein the formatting rules cause a client-side application to dynamically render and display an appropriate version of the digital content item based on the formatting rules and a size of a display area in which the digital content item is presented.

A wireless device supporting Wi-Fi Direct service includes: a display; a communication unit; and a controller configured to cause: transmitting resolution information including a plurality of resolutions that are supported by the wireless device to a second wireless device; receiving an entire image including a first image and a second image from the second wireless device if a resolution of the first image is not one of the plurality of resolutions; displaying the first image by removing the second image from the received entire image when the entire image is received; and receiving the first image from the second wireless device without the second image if the resolution of the first image is included in the resolution information, the second image being an image that is added to the first image such that a resolution of the received entire image corresponds to one of the plurality of resolutions.

One embodiment of the present invention sets forth a technique for dynamically cropping image data transmitted to an endpoint device. The technique includes computing a first visual interest score for a first visual interest region within a digital image based on content included in the first visual interest region, computing a second visual interest score for a second visual interest region within the digital image based on content included in the second visual interest region, and determining that the first visual interest region is preferred over the second visual interest region based on the first visual interest score and the second visual interest score. The technique further includes setting a location within the first visual interest region as a point of visual interest and transmitting the digital image and the location of the point of visual interest to a computing device for displaying a portion of the digital image that includes the point of visual interest.