A method of providing video content to a production studio by selecting a video stream from multiple wireless video cameras each arranged for providing at least a High Quality, HQ, and a Low Quality, LQ, video output and comprising an internal storage, said method comprising selecting one of the cameras as a live camera thereby instructing said live camera to provide HQ video output and selecting the remaining cameras as replay cameras thereby instructing said replay cameras to provide LQ video output and internally store HQ video, such that content provided to said production studio is said HQ video from said live camera, receiving an instruction to provide stored HQ video from one of said replay cameras, and instructing said one of said replay cameras to provide said stored HQ video, such that content provided to said production studio is said stored HQ video from said replay camera.

A method of providing video content to a production studio by selecting a video stream from multiple wireless video cameras each arranged for providing at least a High Quality, HQ, and a Low Quality, LQ, video output and comprising an internal storage, said method comprising selecting one of the cameras as a live camera thereby instructing said live camera to provide HQ video output and selecting the remaining cameras as replay cameras thereby instructing said replay cameras to provide LQ video output and internally store HQ video, such that content provided to said production studio is said HQ video from said live camera, receiving an instruction to provide stored HQ video from one of said replay cameras, and instructing said one of said replay cameras to provide said stored HQ video, such that content provided to said production studio is said stored HQ video from said replay camera.

Techniques to provide a micro-broadcast of an event are described. Video data streams of a live event at a venue may be captured in one or more wireless camera devices. The data streams may be sent to one of a network of wireless access points where they are relayed to a control center. A computer system in the control center may select one of the video data streams to be broadcast as a micro-broadcast. The selected video data stream may then be formatted for the micro-broadcast before a micro-broadcast transmitter broadcasts the formatted selected video data stream.

Techniques to provide a micro-broadcast of an event are described. Video data streams of a live event at a venue may be captured in one or more wireless camera devices. The data streams may be sent to one of a network of wireless access points where they are relayed to a control center. A computer system in the control center may select one of the video data streams to be broadcast as a micro-broadcast. The selected video data stream may then be formatted for the micro-broadcast before a micro-broadcast transmitter broadcasts the formatted selected video data stream.

A reception apparatus includes a buffer and processing circuitry. The buffer is configured to store a media stream. The processing circuitry is configured to read data of the media stream from the buffer according to a first elapsed buffer time, perform a first decoding of the data read from the buffer according to the first elapsed buffer time, and output the decoded data of the first decoding via a first interface. The processing circuitry is further configured to read the data from the buffer according to a second elapsed buffer time, perform a second decoding of the data read from the buffer according to the second elapsed buffer time, and output the decoded data of the second decoding via a second interface.

A reception apparatus includes a buffer and processing circuitry. The buffer is configured to store a media stream. The processing circuitry is configured to read data of the media stream from the buffer according to a first elapsed buffer time, perform a first decoding of the data read from the buffer according to the first elapsed buffer time, and output the decoded data of the first decoding via a first interface. The processing circuitry is further configured to read the data from the buffer according to a second elapsed buffer time, perform a second decoding of the data read from the buffer according to the second elapsed buffer time, and output the decoded data of the second decoding via a second interface.

A system for processing video input having a media content switcher at one location, one or more video signal sources at a second location, and a control client at a third location. The control client is connected to the media content switcher via a public network and providing an interface to a user for controlling the selection of one or more video signals from the sources and the processing of the one or more signals with one or more media effects. A latency monitoring element may provide monitoring of latency of different network paths of the public network and direct video signals over one or more chosen paths to minimize latency of the source signals.

A system for processing video input having a media content switcher at one location, one or more video signal sources at a second location, and a control client at a third location. The control client is connected to the media content switcher via a public network and providing an interface to a user for controlling the selection of one or more video signals from the sources and the processing of the one or more signals with one or more media effects. A latency monitoring element may provide monitoring of latency of different network paths of the public network and direct video signals over one or more chosen paths to minimize latency of the source signals.

A computer-implemented data acquisition method includes obtaining motion data telemetrically from a wireless transmitter mounted on or inside a sporting device that is handled by athletes in an athletic event, and presenting the data to viewers of the sporting event. The data includes motion data that is captured while the sporting device is being used in the athletic event and represents motion of the sporting device captured by one or more motion sensors connected to the wireless transmitter.

A computer-implemented data acquisition method includes obtaining motion data telemetrically from a wireless transmitter mounted on or inside a sporting device that is handled by athletes in an athletic event, and presenting the data to viewers of the sporting event. The data includes motion data that is captured while the sporting device is being used in the athletic event and represents motion of the sporting device captured by one or more motion sensors connected to the wireless transmitter.