Jünger Audio Promotes Smart Audio at NAB 2016
At NAB 2016 (Booth C2333), Jünger Audio will focus attention on Smart Audio - an entirely new concept aimed at helping broadcasters embrace automated audio production, particularly in live environments.
With today’s broadcasters facing ever-increasing consumer demand for more content on more devices, the need for faster and more cost effective workflows has never been greater. In a world where resources are tight, many broadcasters face a daily battle between delivering interesting content while still maintaining the high quality that consumers rightly expect.
This is where the concept of Smart Audio comes into play. If you don’t have the resources to employ an entire team of audio engineers to manage sound quality at every position, then you must invest in simple, reliable and predictable equipment that can do the job for you, automatically.
“The importance of consistent, stable and coherent audio should never be underestimated because it is so vital when it comes to attracting and retaining viewers,” says Jünger Audio’s CEO Peter Poers. “People don’t often complain about captions, graphics or subtitles, but give them poor quality sound - in particular, poor quality speech - and they will immediately reach for the remote.”
In today’s file based environment where content is often recorded and stored for broadcast at a later date, creating high quality audio is straightforward. Many techniques are involved, but with appropriate microphone choice and placement, post-production modifications and the application of myriads of software tools that can analyze and enhance faster than real time, there is a real chance to deliver audio in good condition.
“Auto-Level, Auto-Upmix, Auto-EQ, Auto-MIX, Auto-Loudness, Codec System Metadata Management – the intelligent combination of all these Jünger Audio adaptive algorithms will create the solution that delivers Smart Audio,” Poers says, “and program loudness will also automatically match – as expected.”
Jünger Audio’s D*AP product range can deliver a Smart Audio experience because every device already incorporates a collection of these adaptive processing algorithms. Also, they are using the industry standard Ember+ remote protocol that allows seamless integration of this high quality audio processing equipment with both playout automation systems and logging and monitoring processes. This has enabled broadcasters such as Input Media in London and the ARD Tagesschau television prime time news service in Germany to reach a higher grade of efficiency and automation in production by integrating Jünger Audio’s high quality audio processing tools.
“Almost all of our D*AP processors offer automated leveling of individual sources to pre-condition the audio before final loudness based management,” Peter Poers adds. “This is combined with auto up-mix to maintain a constant surround experience and the use of auto EQ to ensure consistency of spectral balance and that all important speech intelligibility. They also incorporate Jünger Audio’s fully adaptive Level Magic™ loudness control that can adjust audio from any source, at any time, to the right level with no breathing, pumping, or distortion. Only a minimal number of initial parameters need to be set to make these processes work, which means we are already in a position to deliver the Smart Audio solutions that the industry now needs.”
Jünger Audio’s DAP range includes natural sounding products for loudness control, audio monitoring, metadata management and Dolby® decoding, encoding and transcoding. Among them are the DAP8 MAP EDITION surround monitoring audio processor; the DAP8 CODEC EDITION processor that provides a viable replacement for any discontinued legacy Dolby® hardware processors; the DAP4 VAP EDITION two channel voice audio processor and the flagship D*AP8 TAP EDITION television audio processor, which ensures consistency of loudness and sonic “character” across multiple programme sources.
For more information about Jünger Audio’s Smart Audio solutions please visit us at NAB 2016, Booth C2333.