On-demand systems and methods are provided to manage locally-stored on-demand content. A user's equipment controls the deletion of and/or access to on-demand content from a local storage device based on constraining criteria that may include rental conditions, dynamic factors, and keys.

Systems and methods of a media device are operable to perform a channel change operation. An exemplary embodiment receives a first data table from a data table server, wherein the first data table comprises first control information used to perform a channel change operation such that the media device reconfigures itself to change to a new channel from a currently presenting channel or to a new media content event from a currently presenting media content event. The exemplary embodiment later receives a second data table after initiation of the channel change operation, wherein the second data table is broadcast to the media device in one of a plurality of received broadcasting media content streams that has the new media content event, and wherein the second data table comprises second control information that corresponds to at least some of the first control information used to perform the channel change operation.

Systems and methods of a media device are operable to perform a channel change operation. An exemplary embodiment receives a first data table from a data table server, wherein the first data table comprises first control information used to perform a channel change operation such that the media device reconfigures itself to change to a new channel from a currently presenting channel or to a new media content event from a currently presenting media content event. The exemplary embodiment later receives a second data table after initiation of the channel change operation, wherein the second data table is broadcast to the media device in one of a plurality of received broadcasting media content streams that has the new media content event, and wherein the second data table comprises second control information that corresponds to at least some of the first control information used to perform the channel change operation.

An electronic system that executes video streaming includes a video sender. The video sender converts video data into plural layers of bitstream packets with varied priorities for transmission. A bitstream packet with a lower layer of the plural layers of bitstream packets has a higher priority when being transmitted to a video receiver.

The disclosure is related to adaptive encoding of video streams from a camera. A camera system includes a camera and a base station connected to each other in a first communication network, which can be a wireless network. When a user requests to view a video from the camera, the base station obtains an encoded video stream from the camera and transmits the encoded video stream to a user device. The base station monitors multiple environmental parameters, such as network parameters, camera parameters, and system parameters of the base station, and instructs the camera to adjust the encoding of the video stream, in an event one or more environmental parameters change.

Embodiments of the present disclosure provide systems, methods, and computer storage media for optimizing computing resources generally associated with cloud-based media services. Instead of decoding digital assets on-premises to stream to a remote client device, an encoded asset can be streamed to the remote client device. A codebook employable for decoding the encoded asset can be embedded into the stream transmitted to the remote client device, so that the remote client device can extract the embedded codebook, and employ the extracted codebook to decode the encoded asset locally. In this way, not only are processing resources associated with on-premises decoding eliminated, but on-premises storage of codebooks can be significantly reduced, while expensive bandwidth is freed up by virtue of transmitting a smaller quantity of data from the cloud to the remote client device.

Embodiments of the present disclosure provide systems, methods, and computer storage media for optimizing computing resources generally associated with cloud-based media services. Instead of decoding digital assets on-premises to stream to a remote client device, an encoded asset can be streamed to the remote client device. A codebook employable for decoding the encoded asset can be embedded into the stream transmitted to the remote client device, so that the remote client device can extract the embedded codebook, and employ the extracted codebook to decode the encoded asset locally. In this way, not only are processing resources associated with on-premises decoding eliminated, but on-premises storage of codebooks can be significantly reduced, while expensive bandwidth is freed up by virtue of transmitting a smaller quantity of data from the cloud to the remote client device.

Systems and methods of a media device are operable to perform a channel change operation. An exemplary embodiment receives a first data table from a data table server, wherein the first data table comprises first control information used to perform a channel change operation such that the media device reconfigures itself to change to a new channel from a currently presenting channel or to a new media content event from a currently presenting media content event. The exemplary embodiment later receives a second data table after initiation of the channel change operation, wherein the second data table is broadcast to the media device in one of a plurality of received broadcasting media content streams that has the new media content event, and wherein the second data table comprises second control information that corresponds to at least some of the first control information used to perform the channel change operation.

Systems and methods of a media device are operable to perform a channel change operation. An exemplary embodiment receives a first data table from a data table server, wherein the first data table comprises first control information used to perform a channel change operation such that the media device reconfigures itself to change to a new channel from a currently presenting channel or to a new media content event from a currently presenting media content event. The exemplary embodiment later receives a second data table after initiation of the channel change operation, wherein the second data table is broadcast to the media device in one of a plurality of received broadcasting media content streams that has the new media content event, and wherein the second data table comprises second control information that corresponds to at least some of the first control information used to perform the channel change operation.

A method for transmitting a broadcast signal includes generating a packet carrying a broadcast service and service signaling information, and a packet carrying fast information for supporting rapid service scans and service acquisition, the fast information including identification information for identifying the broadcast service, service category information representing a category of the broadcast service and hidden information representing whether or not the broadcast service is related to a test service; generating a robust header compression (RoHC) packet by compressing a header of each packet, and signaling information including context information generated from the compressing the header of each packet; and transmitting a signal frame including the RoHC packet and the signaling information.