In the previous article in this series, we looked at layer-2 switching and layer-3 routing. In this article, we look at Software Defined Networks and why they are so appealing to broadcasters.
Here we look at some practical results of transform theory that show up in a large number of audio and visual applications.
Machine learning is often compared to the human brain. But what do they really have in common?
As parts 1 and 2 of this article highlighted, there are very practical steps available today for Streamers to reach broadcast-grade latency. Low latency protocols from HLS and DASH that implement CMAF Low Latency Chunking are the main proponents of 5-8 seconds of latency from encoder input to player output. But the pull system of streaming creates an opportunity to reach a new 1-second standard, perhaps that we can call “streaming-grade”.
In the last article in this series, we looked at SDP files and the importance they play in identifying source and destination devices. In this article, we look at why we combine layer-2 switching and layer-3 routing, and why broadcasters are moving towards Software Defined Networking (SDN).
As broadcasters and content distribution services continue to look for the most cost-effective ways to create and distribute content in the cloud, equipment vendors have shown the flexibility of their respective technologies to be operated remotely, with precision and efficiency.
Will any new digital solutions on display at IBC 2022 not have an IP address?
Streaming dominates media supply chains far more than it did even at the time of the last IBC with a physical presence in 2019.
