A multi-window user interface (UI) is presented in various configurations and operational uses to leverage the relatively large display canvas afforded by large screen display devices such as 4K or 8K displays. Along with the various “Multiview” aspects, content delivery techniques, content selection techniques, and level of service techniques also are presented.

Systems and methods for real-time transmission of data streams are disclosed. A controller receives data representing selected stream parameters from a browser residing on a computing device. The controller transmits the received data to a video transmitting device. A transcoder receives a first data stream generated according to the selected stream parameters from the video transmitting device. The transcoder generates a second data stream from the first data stream, the second data stream formatted for browser display; and then transmits the second data stream to the browser. A user may remotely control the video transmitting device using the browser. A user may view data streams from multiple video transmitting devices using the browser.

Video content is uploaded via the Internet to a video-on-demand (VOD) server identified by a title and a hierarchical address of categories and subcategories for categorizing the title. The VOD server converts and stores the video content at a storage address in a video content database linked to the title. The title is listed in a location of an electronic program guide (EPG) using the same categories and subcategories as in its hierarchical address. Any TV subscriber can access the EPG and navigate through its categories and subcategories to find a title for viewing on the TV. This can enable many new blogging or podcasting-like programs by popular “Hosts” to be self-published on the Internet and readily navigated for display on TV. The EPG can also store TV program addresses as bookmarks and allow them to be shared with other subscribers or with friends and contacts online by sending to their email addresses.

Embodiments described herein provide various techniques for communication, collaboration, and resource sharing between television receivers operating at separate locations. In some embodiments, a television receiver device may be configured to identify and transmit various receiver data to other associated television receivers at separate physical locations. In order to transmit data from one receiver to another, the transmitting receiver device may establish a connection to an Internet Protocol (IP) network, contact a television provider server to obtain network addresses for one or more related receiver devices, and then transmit the data over the IP network to the related receiver devices. Additional aspects relate to identifying and sharing resources between associated television receivers operating at separate locations. For example, associated television receivers operating at separate locations may use IP network communication to coordinate collaboration and sharing of tuners, storage space, and/or other hardware and software components of the receivers.

Systems and methods are provided for enabling communications between users of an instant messaging application and a virtual world environment. In accordance with one implementation, a method is provided that includes operations performed by one or more processors, including enabling a first user to navigate the virtual world environment by controlling an avatar representing the first user. The method also includes capturing a first paralinguistic indicator made by the first user, the first paralinguistic indicator configured for communications in the virtual world environment. In addition, the method includes translating the first paralinguistic indicator into a message configured for text-based communications in the instant messaging application, the message comprising at least one of a text description of the first paralinguistic indicator and a second paralinguistic indicator configured for communications in the instant messaging application. The method further includes providing the message to a second user.

Technology for multimedia adaptation based on video orientation is disclosed. In an example, a server can include computer circuitry configured to: receive a device capability from a client device, wherein the device capability includes video orientation capability; and perform video orientation-aware multimedia adaptation based on the device's video orientation capability.

Multimedia content segment identified by users may be shared among media devices and media device users. Media content segment metadata is generated based on one or more identified media content item segments identified in one or more media content items. The media content segment metadata may include, but is not limited to, information indicating segment start and stop times, information about the particular media content item (e.g., title, actors, original air date), and other user-provided descriptive information. A link for the media content segment metadata may be posted for display on a webpage and which enables other users to access the media content segment metadata.

A video aggregation system for providing a user personalized video content from videos available on the Internet generates a selective feed by combining a first feed and a second feed. The video aggregation system receives a search request from an Internet service and transmits a search reply containing a separately resolvable link to a video content object from the selective feed.

A method that comprises receiving at a network connected server from a first client terminal, a message comprising, an user application ID of a user selecting a media object using a user interface presented on a display of the first client terminal and the media object, generating a web document which presents a browser user interface and the media object when accessed by a browser, the web document having a network accessible storage address, sending the network accessible storage address from the network connected server to allow a browser installed in a second client terminal to use of the network accessible storage address to display the media object the browser user interface, identifying a usage of the browser user interface for inputting a reaction to the media object by a user of the second client terminal, and forwarding the reaction to the first client terminal using the sender user ID.

Systems and methods for interaction of satellite and Internet protocol features in content delivery systems are presented. Using such systems and methods, the delivery of some content to the same product by Satellite delivery, other content by IP delivery, and still other content by both Satellite and IP delivery can enhance the utility of both the content and the product for an end user and can further optimize the costs and quality of service associated with delivering the content. A method of providing content and data to a combined satellite and IP network receiver is presented, including broadcasting via satellite content and data to the receiver, and sending via an IP based communications network content and data to the receiver, where the content and data provided over the Satellite broadcast enables capabilities of the receiver needed to consume content received by IP delivery, and the content and data provided via IP delivery enables capabilities of the receiver needed to consume content received from the satellite broadcast.