A method for executing a user application is disclosed. The method is implemented within a communications terminal of the type having a trusted environment. The trusted environment has a secured storage space and a secured applications execution module. The method has: a step of reception, within the trusted environment, of an instruction for launching a user application; a step of transmission, to a server, of a request for executing said user application; a step of reception, from the server, by a video-rendering application that is executed within the trusted environment, of a video stream resulting from the execution, on the server, of said user application; and a step for displaying said video stream on a screen of said communications terminal accessible from said trusted environment.

A user interface allows for blending of television program choices from which a viewer may select, the blending representing options for linear and non-linear programming presented together within a single hierarchy of a designated category. The blending may further include managed content relevant to the designated category, where desired. Such designated categories may include television programming categories and/or content categories. The options for linear and non-linear programming may be presented together within a single screen of the user interface.

The server system transmits, from a virtualized third-party application to a client device, an instruction to open a media resource from a content distribution network, the media resource comprising a plurality of video segments, each video segment of the plurality of video segments having video segment data and metadata. The server system receives, from the client device, first metadata for a first video segment of the plurality of video segments, without receiving first video segment data for the first video segment. The server system generates a recreated representation of the first video segment using the first metadata. The virtualized third-party application generates a transformed version of the recreated representation of the first video segment. The server system transmits, to the client device, an instruction to play the first video segment, wherein the instruction is based on the transformed version of the recreated representation of the first video segment.

A server computing device hosts one or more virtual machines. A first virtual machine corresponding to a first client device receives a first media stream that includes first content corresponding to a plurality of frames of video data and generates a first digest segment that corresponds to the first media stream. The first digest segment includes a representation of the plurality of frames but does not include the video data. The first virtual machine stores the first digest segment in a cache at the server system. A second virtual machine corresponding to a second client device receives a playback position of the first media stream playing at the second client device and uses the playback position from the second client device and the first digest segment stored in the cache to perform processing to recreate a representation of the playback of the first media stream on the second client device.

Systems and methods are described for embodiments of a mobile virtualization platform (MVP) that may be embedded in an end user mobile device or comprise part of the firmware loaded on the device. The MVP may implement a thin layer of software embedded on the device to decouple applications and data from the underlying hardware, thus enabling the device to concurrently run multiple operating systems. Furthermore, the MVP may enable applications to run concurrently per each base band.

Methods and apparatus to validate and restore machine configurations are disclosed herein. An example apparatus includes a context identifier to obtain first context information for a first set of configuration update events occurring on a computing device, a guest agent interface to transmit the first set of configuration update events to a security manager for generation of a policy, the policy including allowable configuration update events and responses to unallowable configuration update events, an event comparator to compare second context information of a subsequent configuration update event obtained by the context identifier to the policy received from the security manager, and an event handler to determine, when the subsequent configuration update event is not included in the policy, that the subsequent configuration update event is to be transmitted to the security manager for generation of an updated policy.

Systems and methods are described for embodiments of a mobile virtualization platform (MVP) that may be embedded in an end user mobile device or comprise part of the firmware loaded on the device. The MVP may implement a thin layer of software embedded on the device to decouple applications and data from the underlying hardware, thus enabling the device to concurrently run multiple operating systems. Furthermore, the MVP may enable applications to run concurrently per each base band.

A server computing device hosts one or more virtual machines. A first virtual machine corresponding to a first client device receives a first media stream that includes first content corresponding to a plurality of frames of video data and generates a first digest segment that corresponds to the first media stream. The first digest segment includes a representation of the plurality of frames but does not include the video data. The first virtual machine stores the first digest segment in a cache at the server system. A second virtual machine corresponding to a second client device receives a playback position of the first media stream playing at the second client device and uses the playback position from the second client device and the first digest segment stored in the cache to perform processing to recreate a representation of the playback of the first media stream on the second client device.

Systems and methods are described for embodiments of a mobile virtualization platform (MVP) that may be embedded in an end user mobile device or comprise part of the firmware loaded on the device. The MVP may implement a thin layer of software embedded on the device to decouple applications and data from the underlying hardware, thus enabling the device to concurrently run multiple operating systems. Furthermore, the MVP may enable applications to run concurrently per each base band.

Disclosed herein are system, method, and computer-readable storage-medium embodiments for implementing passive data collection from third-party channel applications. An embodiment includes running a channel application of a first layer of an operating system, and receiving an application programming interface (API) call, from the channel application, for a module of a second layer of the operating system. The module may be a non-video playback module that includes graphic rendering logic, for example. Some embodiments may further include intercepting metadata sent to the module, determining identifying information of a content instance based on the intercepted metadata, and storing the determined identifying information of the content instance.