An embedded system for video processing comprises hardware means for realising the following functions: a server function by: receiving of at least one image-, at least one audio-data stream; compression of at least one of the image- and audio-data streams yielding in each case a combined data stream respectively; output of at least one of the combined data streams via a protocol based network; a client function by: receiving of at least one combined data stream from the protocol based network; decompression of the at least one combined data stream; output of the combined decompressed image- and audio-data stream; wherein the hardware means are designed in such a way that they compress and decompress a continuous combined data stream and the hardware means for realising the server function and the client function are arranged on a joint circuit board.

A system for presentation timing based audio video (AV) stream processing may include a switch device, a first processor, and a second processor. The switch device may be configured to route AV traffic to the first processor for processing and non-AV traffic to the second processor for processing. The first processor may receive transport stream packets that include an audio stream and/or a video stream. The first processor may receive a request to modify presentation timing of the audio stream and/or video stream. The first processor may modify the transport stream packets and/or presentation timing parameters of the transport stream packets based at least in part on the received request. The first processor may provide the transport stream packets to an electronic device. In some implementations, the second processor may be unable to access the content of the transport stream packets in the clear, e.g. due to security considerations.

A media distribution system and method with sample variants for normalized encryption involves encrypting a main track of a media content asset using a first encryption scheme and encrypting a sample variant track of the media content asset using a second encryption scheme, and performing at least one of: storing the encrypted main track and encrypted sample variant track of the media content asset packaged in a storage format, and transmitting the encrypted main track and the encrypted sample variant track in a distribution container format to an edge media router (EMR) device configured to repackage the media content asset into a delivery container format without reencrypting the media content asset.

A system and method for facilitating content delivery with end-to-end encryption in a network architecture using a common intermediary mezzanine distribution format (CMZF). An edge media router (EMR) device is provided in one embodiment that is configured to receive a media content asset packaged in a CMZF container structure, wherein the media content asset is provided as CMZF-formatted media content in a CMZF stream scheme. The CMZF container structure, configured to facilitate carriage of ISOBMFF track and track metadata data objects as well as sample variants in PES payload in additional elementary streams, is operative to carry each bitrate representation of the media content asset encrypted in one or more encryption schemes at a headend. Upon receipt, the EMR device is configured to repackage the media content asset to generate one or more output formats without reencrypting the media content asset for storage at a storage node and/or for downstream delivery.

A system and method for distributing content in a network architecture using a common intermediary mezzanine distribution format (CMZF). A media content asset may be processed for packaging in a CMZF container structure configured to carry each bitrate representation of the media content in a valid CMZF stream scheme, the media content encrypted in one or more encryption schemes. The CMZF formatted media content may be provided to an origin server for file-based distribution over a network which is of one of the following types; unmanaged network, managed network, or a combination thereof, and/or to a streaming network node for stream-based distribution over a over a network which is of one of the following types; unmanaged network, managed network, or a combination thereof. In one embodiment, the CMZF container structure may be based on an MPEG-TS format extended to facilitate carriage of ISOBMFF track and track metadata data objects in PES payload in additional elementary streams. In another embodiment the CMZF container structure may be based on an MPEG-TS format to facilitate carriage of sample variants in PES payload.

A system and method for facilitating fast channel change in a streaming media network comprises receiving media content assets packaged in a common mezzanine distribution format (CMZF) container structure, wherein the media content asset is provided as CMZF-formatted media content in a CMZF stream scheme. Upon receipt, the CMZF-packaged media content assets are transformatted into corresponding CMZF segments stored in a local cache corresponding to a plurality of media channels. Responsive to a channel change request from a user equipment (UE) device, a unicast or multicast burst is sent comprising Reliable User Datagram Protocol (R-UDP) packets or Real-time Transport Protocol (RTP)-encapsulated partial or full virtual segments (R-SEG) generated from the CMZF segments corresponding to the requested channel.

A novel method and apparatus for protection of streamed media content is disclosed. In one aspect, the apparatus includes control means for governance of content streams or content objects, decryption means for decrypting content streams or content objects under control of the control means, and feedback means for tracking actual use of content streams or content objects. The control means may operate in accordance with rules received as part of the streamed content, or through a side-band channel. The rules may specify allowed uses of the content, including whether or not the content can be copied or transferred, and whether and under what circumstances received content may be checked out of one device and used in a second device. The rules may also include or specify budgets, and a requirement that audit information be collected and/or transmitted to an external server. In a different aspect, the apparatus may include a media player designed to call plugins to assist in rendering content. A trust plugin is disclosed, along with a method of using the trust plugin so that a media player designed for use with unprotected content may render protected content without the necessity of requiring any changes to the media player. In one aspect, the streamed content may be in a number of different formats, including MPEG-4, MP3, and the RMFF format.

Systems and methods for implementing a Transport I/O system are described. Network encrypted content may be received by a device. The device may provide the network encrypted content to a secure processor, such as, for example, a smart card. The secure processor obtains a network control word that may be used to decrypt the network encrypted content. The secure processor may decrypt the network encrypted content to produce clear content. In embodiments, the secure processor may then use a local control word to generate locally encrypted content specific to the device. The device may then receive the locally encrypted content from the secure processor and proceed to decrypt the locally encrypted content using a shared local encryption key. The secure processor may connect to the device via a standard connection, such as via a USB 3.0 connector.

Encrypted content from a content provider is received at a central location of a multichannel video programming distributor (MVPD). The content provider is distinct from the MVPD. The content is decrypted and processed in a virtual set-top application associated with a set-top of a customer of the MVPD. The set-top of the customer is located in a customer premises remote from the central location. The processed content is provided over a secure data link to a conditional-access encoder at the central location. The conditional-access encoder encrypts the processed content, which is then transmitted to the set-top of the customer.

An embedded system for video processing comprises hardware means for realizing the following functions: i) a server function, wherein for realizing the server function the following functions are realized: i1) receiving of at least one image-, at least one audio-data stream; i2) compression of at least one of the image- and audio-data streams yielding in each case a combined data stream respectively; i3) output of at least one of the combined data streams via a protocol based network; ii) a client function, wherein for realizing the client function the following functions are realized: ii1) receiving of at least one combined data stream from the protocol based network; ii2) decompression of the at least one combined data stream; ii3) output of the combined decompressed image- and audio-data stream; iii) wherein the hardware means are designed in such a way that they compress and decompress a continuous combined data stream and iv) the hardware means for realizing the server function and the client function are arranged on a joint circuit board.