A method, apparatus, and software are provided for using an optically-readable code such as a quick-response (QR) code. The optically-readable code may represent a uniform resource identifier (URI) including parameters that represent a query, such as a query for content and/or other data. The query results may be used to command a content consumption device to record or otherwise obtain an item of content. The optically-readable code may additionally or alternatively be determined based upon a status of the device, such as what content, or portion thereof, is currently being displayed, and/or what error condition is being experienced.

A method, apparatus, and software are provided for using an optically-readable code such as a quick-response (QR) code. The optically-readable code may represent a uniform resource identifier (URI) including parameters that represent a query, such as a query for content and/or other data. The query results may be used to command a content consumption device to record or otherwise obtain an item of content. The optically-readable code may additionally or alternatively be determined based upon a status of the device, such as what content, or portion thereof, is currently being displayed, and/or what error condition is being experienced.

A method, apparatus, and software are provided for using an optically-readable code such as a quick-response (QR) code. The optically-readable code may represent a uniform resource identifier (URI) including parameters that represent a query, such as a query for content and/or other data. The query results may be used to command a content consumption device to record or otherwise obtain an item of content. The optically-readable code may additionally or alternatively be determined based upon a status of the device, such as what content, or portion thereof, is currently being displayed, and/or what error condition is being experienced.

A method, apparatus, and software are provided for using an optically-readable code such as a quick-response (QR) code. The optically-readable code may represent a uniform resource identifier (URI) including parameters that represent a query, such as a query for content and/or other data. The query results may be used to command a content consumption device to record or otherwise obtain an item of content. The optically-readable code may additionally or alternatively be determined based upon a status of the device, such as what content, or portion thereof, is currently being displayed, and/or what error condition is being experienced.

Residual vectors are compressed in a lossless compression scheme suitable for cloud DVR video content applications. Thus, a cloud DVR service provider can take many copies of the same file stored in the cloud and save storage space by compressing those copies while still maintaining their status as distinct copies, one per user. Vector quantization is used for compressing already-compressed video streams (e.g., MPEG streams). As vector quantization is a lossy compression scheme, the residual vector has to be stored to regenerate the original video stream at the decoding (playback) node. Entropy coding schemes like Arithmetic or Huffman coding can be used to compress the residual vectors. Additional strategies can be implemented to further optimize this residual compression. In some embodiments, the techniques operate to provide a 25-50% improvement in compression. Storage space is thus more efficiently used and video transmission may be faster in some cases.

Residual vectors are compressed in a lossless compression scheme suitable for cloud DVR video content applications. Thus, a cloud DVR service provider can take many copies of the same file stored in the cloud and save storage space by compressing those copies while still maintaining their status as distinct copies, one per user. Vector quantization is used for compressing already-compressed video streams (e.g., MPEG streams). As vector quantization is a lossy compression scheme, the residual vector has to be stored to regenerate the original video stream at the decoding (playback) node. Entropy coding schemes like Arithmetic or Huffman coding can be used to compress the residual vectors. Additional strategies can be implemented to further optimize this residual compression. In some embodiments, the techniques operate to provide a 25-50% improvement in compression. Storage space is thus more efficiently used and video transmission may be faster in some cases.

Provided is a content utilization platform system including an image production device configured to produce and output an image output by applying augmented reality (AR) content to a captured subject; a server configured to extract AR content based on at least one of the number of users, ticket information, viewing information, reservation information, and a subject image, to provide the extracted AR content to the image production device, to receive an image produced by the image production device from the image production device, and to provide a virtual space using the produced image; and a user terminal configured to connect to the virtual space provided from the server.

A storage controller of a network controlled content recording system that uses a combination of network and local storage determines to record content for a user. The storage controller performs an evaluation to determine whether to store the content in network or local storage. The evaluation may include evaluating a set of rules and/or characteristics of the user, characteristics of the content, characteristics of a request to record the content, and so on. The storage controller then arranges for the content to be recorded accordingly. Subsequently, the storage controller may reevaluate storage locations and direct transfer accordingly. This reevaluation may include determining that various characteristics related to the user, the content, and so on have changed and that transfer is appropriate due to that change.

A storage controller of a network controlled content recording system that uses a combination of network and local storage determines to record content for a user. The storage controller performs an evaluation to determine whether to store the content in network or local storage. The evaluation may include evaluating a set of rules and/or characteristics of the user, characteristics of the content, characteristics of a request to record the content, and so on. The storage controller then arranges for the content to be recorded accordingly. Subsequently, the storage controller may reevaluate storage locations and direct transfer accordingly. This reevaluation may include determining that various characteristics related to the user, the content, and so on have changed and that transfer is appropriate due to that change.

Various arrangements of a local cloud system for providing television services are presented. A facility cloud host system may have a content service provider interface that is used to receive live television channel streams from a television content service provider. The local cloud system may have a transcoder that transcodes the live television channels into a format to be transmitted locally to client devices. The local cloud system may provide access to recorded content from a remote master cloud host.