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AUDIO Ten years ago, remote production was the stuff of dreams, a glimpse into a brave new world. The prospect of providing real-time audio control of live events thousands of miles away, without even leaving the studio, was as enticing as it was unlikely. Jim Green There are some major barriers to effective, reliable and manageable remote broadcasting: latency, control and infrastructure. 1. LATENCY The biggest single issue is latency. Broadcast audio workflows rely on quality monitor mixes with no latency, and over long distances total latency might be measured in seconds rather than milliseconds. But broadcasters are already reaping the benefits of remote production. San-Francisco based Pac-12, for example, provide live coverage of some 850 sporting events every year, across several states, and they mix these programmes on an audio console in a centralised production facility hundreds of miles away. 2. CONTROL This is the allure of remote production – it offers broadcasters the ability to capture a much broader range of live events with minimal cost increases. It promises the ability to produce a program centrally, in a studio-based control room, improving the quality of monitoring and allowing more efficient utilisation of equipment and highly skilled personnel. 3. INFRASTRUCTURE REMOTE PRODUCTION: OR, HOW TO MIX A LIVE SPORTS EVENT IN YOUR SLIPPERS This reduces the financial outlay of a full dedicated on-site team. And while there is no substitute for a skilled OB team, for niche programming such as local sports or local music events, remote broadcasting provides an incentive for broadcasters to increase their range of local programming. In these environments audio and video streams can be transported over backhaul technologies like IP or satellite uplink. And it is in this way that the audio operator can theoretically mix the programme mix in the comfort of their own studio, in their slippers. Why not? THAT SAID, IF IT WERE THAT SIMPLE, WE’D ALL BE DOING IT. AND WE’RE NOT ALL DOING IT, BECAUSE IT’S NOT THAT SIMPLE. Operators need real-time control over mic gains, fader levels and monitor mix levels, especially when they are geographically remote from all the action – it’s not always possible to physically check a connection or fix a mic position (especially in such luxuriously fluffy footwear). How are those bi-directional signals going to be transported and still be in sync with the video? And all in real time? And above all, how can all the control protocols required to mix a production remotely be managed as part of the network? These are challenges which are inherent in traditional broadcast audio infrastructures. But this isn’t traditional broadcasting; the rise of reliable IP infrastructures have enabled both broadcasters and manufacturers to develop solutions to these challenges. Launched at NAB, Calrec’s new RP1 core is a 2U rackmount box which addresses these problems. Primarily, RP1 provides local DSP to enable the generation of monitor mixes and IFBs with no latency. It gives an operator in a remote studio direct control over channel functions such as mic gains, aux send/monitor mix levels and fader levels. It also provides a mechanism to embed audio into existing backhaul technologies, such as SDI, as well as newer IPs like SMPTE 2022. The core contains Calrec’s FPGA-based Bluefin2 processing, and it is this DSP engine that manages all the IFB routing and remote monitor mix levels at the venue. Local DSP means there is no latency for commentary or talkback, and it also makes it possible for remote mix engineers to set up IFB mixes and bus configuration on-site so that all venue infrastructure, routing and monitor feeds can be checked prior to establishing the link with the remote console at base. With DSP processing for monitor mixes taken care of on-site, the transmission console at base can concentrate purely on the main programme mix. THIS COVERS BOTH LATENCY & CONTROL. 56 | KITPLUS - THE TV-BAY MAGAZINE: ISSUE 113 MAY 2016