A method provides for tracking client playback events when playing an asset specified in a manifest for streaming adaptive bit rate (ABR) content. The method includes generating, with a manifest manipulator, a manifest that includes an asset URL inserted at a marker denoting a placement opportunity in a content manifest requested by a client. The manifest also includes callback URLs for tracking playback events to be returned by the client. The manifest manipulator sends the manifest to the client. At least one of the callback URLs is received by a tracking proxy associated with the manifest manipulator, indicating that the event has been performed by the client. In response, a tracking URL is obtained by the tracking proxy. The tracking URL is sent to at least one asset decision system participating in an asset decision process that resulted in providing the asset URL to the manifest manipulator.

Devices, systems, method, and program products are provided, which support temporally-seamless change functionalities during multichannel streaming sessions established between a streaming media server and a client media receiver. In embodiments, the method includes outputting, to a display device, a first streaming channel contained in a streaming channel bundle and assigned a high priority level. When receiving a channel change request to view a second streaming channel, the client media receiver monitors for additional channel change requests over a predetermined wait period. If an additional channel change request is received within the wait period, the client media receiver repeats the step of monitoring. Conversely, if an additional channel change request is not received with the wait period, the client media receiver sends a channel reprioritization command to the streaming media server to prioritize the second streaming channel over the first streaming channel in continued transmission of the streaming channel bundle.

Devices, systems, method, and program products are provided, which support temporally-seamless change functionalities during multichannel streaming sessions established between a streaming media server and a client media receiver. In embodiments, the method includes outputting, to a display device, a first streaming channel contained in a streaming channel bundle and assigned a high priority level. When receiving a channel change request to view a second streaming channel, the client media receiver monitors for additional channel change requests over a predetermined wait period. If an additional channel change request is received within the wait period, the client media receiver repeats the step of monitoring. Conversely, if an additional channel change request is not received with the wait period, the client media receiver sends a channel reprioritization command to the streaming media server to prioritize the second streaming channel over the first streaming channel in continued transmission of the streaming channel bundle.

An imaging system includes a camera unit and a control unit. A control signal transmission circuit of the control unit is configured to set a bias potential of a signal line to one of two or more different potentials at a timing that is set on the basis of a first video synchronization signal so as to output a control signal indicating an imaging condition of an image sensor to the signal line. A signal-processing circuit of the camera unit is configured to receive the control signal and determine the imaging condition from the control signal by determining the bias potential at a timing that is set on the basis of a second video synchronization signal.

Techniques for providing multimedia content in a virtual set top system are described. In some embodiments, a stream switchover method for UI rendering is performed at a device (e.g., a server) with one or more processors and a non-transitory memory. The server distributes a first stream that includes a plurality of frames. The server receives a request for a user interface (UI) from a client. In response to receiving the request, the server generates a second stream by locating an encoder to encode the plurality of frames into the second stream based on the first stream, instructing the encoder to accelerate encoding of the plurality of frames and facilitating blending of the UI into the second stream with the plurality of frames. The server then switches the client from the first stream to the second stream.

A computer-implemented method for transmitting a panoramic video from a source to a plurality of video receivers is provided. The method comprises receiving panoramic video from a camera corresponding to a scene being imaged; transmitting the panoramic video as a plurality of video streams, each to one of the plurality of video receivers; receiving feedback information from the plurality of video receivers; performing an optimization operation to optimize the panoramic video being transmitted based on the feedback information received from each of the plurality of video receivers.

A computer-implemented method for transmitting a panoramic video from a source to a plurality of video receivers is provided. The method comprises receiving panoramic video from a camera corresponding to a scene being imaged; transmitting the panoramic video as a plurality of video streams, each to one of the plurality of video receivers; receiving feedback information from the plurality of video receivers; performing an optimization operation to optimize the panoramic video being transmitted based on the feedback information received from each of the plurality of video receivers.

Systems and methods are disclosed for delivering video content over a network, such as the Internet. Videos are identified and pre-processed by a web service and then separated into a plurality of segments. Based on user interest, video segments may be pre-fetched and stored by a client associated with a user. Upon receiving a selection from a user to play a video, the first video segment may begin playing instantaneously from a local cache. While the first video segment plays, subsequent video segments are transmitted from the web service to the client, so that the subsequent video segments will be ready for viewing at the client when playback of the first video segment has finished.

Systems and methods are disclosed for delivering video content over a network, such as the Internet. Videos are identified and pre-processed by a web service and then separated into a plurality of segments. Based on user interest, video segments may be pre-fetched and stored by a client associated with a user. Upon receiving a selection from a user to play a video, the first video segment may begin playing instantaneously from a local cache. While the first video segment plays, subsequent video segments are transmitted from the web service to the client, so that the subsequent video segments will be ready for viewing at the client when playback of the first video segment has finished.

Systems and methods for accessing a media stream are presented. In response to a request for a media stream, an individual can be authorized to manipulate the media stream. Once an individual has gained authorization with respect to a media stream's manipulation rights, they are allowed to manipulate the stream. In some embodiments, a provider controls a secure environment to play the stream and enforce the rights.