Embodiments of the invention are directed to a computer-implemented method that includes using a reinforcement learning (RL) system to generate a first set of displayed region candidates based on inputs received from online users while watching video. A recommendation system is used to rank the first set of displayed region candidates based on inputs received from a local user watching video. The recommendation system is further used to select a first highest ranked one of the first set of displayed region candidates. Based on the first highest ranked one of the first set of displayed region candidates, a first section of a first raw video frame is fetched that matches the first highest ranked one of the first set of displayed candidate regions, wherein the first section of the first raw video frame includes a first predicted display region of the video frame.

The present application provides a video playing method and apparatus. The method includes: establishing a video message communication channel between a webpage main document including a webpage iframe and the webpage iframe; searching, by the webpage iframe, for a video marker included in the webpage iframe and acquiring video information according to the video marker; and receiving, by the webpage main document, the video information returned by the webpage iframe by using the communication channel, and performing video playing according to the video information. By means of the present application, a player built in a current browser can be called to perform playing during video playing, to improve user experience in playing of cross-domain video services.

A display apparatus and a control method thereof are provided. The display apparatus includes: a signal receiver configured to receive an image signal; a signal processor configured to process the received image signal; a display configured to display an image based on the processed image signal; a storage; a user input receiver configured to receive a user input; and a processor configured to display, on the display, at least one candidate profile from among a plurality of candidate profiles, each of which includes different setting information for a plurality of setting items, to select one from among the displayed at least one candidate profile according to the received user input, and to store in the storage in response to the selecting, the setting information for the plurality of setting items includes in the selected candidate profile. Accordingly, the display apparatus may simplify or automate an initial setting process.

Incremental replay of content in an electronic workspace canvas is provided. Content can be selected for replay. Replay of the content can be played forward or backward to hide or reveal content. Interaction with and adding or modifying content is enabled while it is being replayed. Annotations may be added to the replayed content and set for display at specific times or positions during the replay order.

Systems and methods are described herein for reducing jitter of touch screen inputs. In some embodiments, a media guidance application may receive touch screen inputs for controlling media playback, such as a swipe gesture. The media guidance application may compare the orientation of the swipe gesture with the orientation of a generated display and/or progress bar associated with the media asset playback. Based on the comparison, the media guidance application may distinguish between intended touch screen inputs and unintended jitter.

Systems and methods are described herein for controlling playback of a media asset using a touch screen. In some embodiments, a media guidance application may control media playback based on touch screen input positions that are stored before the user removes his finger from the touch screen. In some embodiments, the media guidance application may distinguish between intended touch screen inputs and jitter by analyzing the time it takes to perform a touch screen input, the speed/acceleration of an input, or the orientation of an input.

Systems and methods for transmitting a multimedia stream over a communication link on a network are disclosed. The systems and methods adaptively adjust encoding parameters based on monitoring changing conditions of the network. A transmitter includes an adaptive-rate encoder that adaptively adjusts a video encoding bit rate in response to changing conditions of the communication link. The encoder maintains tight rate control by utilizing slice processing and sub-frame rate adaptation, as well as maintaining a headroom between the channel bit rate and the video encoding bit rate. The adaptive-rate encoder also embeds intra-frame constraints in predictive frames traffic in order to reduce latency.

Certain aspects direct to a computing device, which include a processor, a microcontroller, a random access memory (RAM) having a frame buffer, a video controller configured to read video data from the frame buffer, and a non-volatile memory. The processor, the microcontroller, the RAM, the video controller, and the non-volatile memory are in communication with each other. The non-volatile memory stores an operating system, a media player, and first video data. The processor is configured to load the operating system to the RAM and execute the operating system. While the processor is loading the operating system, the microcontroller is configured to load and execute the media player into the RAM. The media player, when executed by the microcontroller, is configured to read the first video data from the non-volatile memory, and write second video data representing the first video data to the frame buffer.

Techniques described herein may be used to provide a media program (e.g., a television program, a sporting event, a movie, advertisement, etc.) to a user by obtaining portions of the media program from multiple, distinct media content sources. A client device, such as a set-top-box (STB), may receive present an ongoing media program to a user. The user may request for the client device to start the media program from the beginning, rewind the media program, or otherwise access a previous portion of the media program. Depending on the request, the client device may obtain different portions of the media program requested by the user from multiple, distinct media content sources. Examples of such sources may include a buffer of the client device, a digital-video-recording (DVR) component of the client device, a DVR server, a catch up server, and a video-on-demand (VoD) server.

A method and video device are disclosed for accessing information. In an embodiment of the present invention, part of data included in a title, being played, read from a storage medium or extracted from a broadcast signal is extracted and sent to a server over a network, and information corresponding to the part of the data (i.e., information related to the data and complete data of the data) is received from the server and played. Rather than the part of the data, information related to a position of the data, (e.g. a time point at which the playing of the data starts within the title or a radial position or a physical address at which the data is located in the storage medium) may be sent. The data may be data that forms audio, a frame-shaped video clip or a frame-shaped picture included in the title.