Andreas Hildebrand (AIMS)
This session explains the details of networked audio transport (as defined in AES67 and SMPTE ST 2110) and how connections among devices with dedicated channel mapping utilizing NMOS IS-08 can be established.
Andreas Hildebrand (AIMS)
This session explains the details of networked audio transport (as defined in AES67 and SMPTE ST 2110) and how connections among devices with dedicated channel mapping utilizing NMOS IS-08 can be established.
Martin Dyster (The Telos Alliance)
This presentation looks at the parallels between the emergence of audio-over-IP standards and the development of a product in the intercom market sector that has taken full advantage of IP technology.
Nestor Amaya (Ross Video)
Where would today’s cloud, smartphones and embedded IoT engines be without Linux? And could we have gotten here with a proprietary OS such as Windows? Similarly, this presentation argues that Pro Audio/Video applications need open technologies to serve the unique needs of their users. Our markets need a fully open stack, beyond just AES67/SMPTE ST 2110 transport, to reap the benefits of our investment in A/V networking technologies. Learn how NMOS, Ember+ and similar open technologies enable you to innovate and serve your users better when compared to proprietary control systems.
Rick Seegull (Riedel Communications)
Riedel Communications will provide an overview of their Bolero wireless intercom system, including the newest AES67 mode that facilitates the distribution of antennas over AES67 networks. Then, after a review of how to assemble and configure a Bolero standalone system, two people will be randomly selected from the audience to compete to see who can configure a system in the shortest amount of time.
Andy Rayner (Nevion)
The SMPTE ST 2110 and NMOS standards are now maturing and in serious use globally. In an all-IP production environment, there are key requirements for the manipulation of audio within a facility. Further to this, there are challenges of how essence-flow synchronization is automatically maintained. When sharing audio between facilities for remote/meshed/distributed production there are further challenges for integrity, timing, and control.
The presentation will look at all of these facility and wide-area challenges and use recent deployments as case studies to demonstrate how they have been overcome.
Aki Makivirta (Genelec)
SMPTE ST 2110 and AES67 have established audio-over-IP as the next generation standard for audio monitoring. This presentation discusses the benefits of using audio-over-IP over traditional audio monitoring methods, and why the change to audio-over-IP is happening with increasing speed. Practical case examples of using audio-over-IP in professional broadcasting as well as in AV install audio applications are presented.
Andreas Hildebrand (AIMS)
An update and report on current standardization activities, including AES67 and SMPTE ST 2110. Refresh and summary on commonalities and constraints between AES67 and SMPTE ST 2110. Brief overview on NMOS developments and activities.
Ethan Wetzell (OCA Alliance)
AES70, also known as OCA, is an architecture for system control and connection management of media networks and devices. AES70 is capable of working effectively with all kinds of devices from multiple manufacturers to provide fully interoperable multivendor networks. This session will provide an overview of the AES70 standard, including the current and future objectives of the standard.
Cassidy Lee Phillips (Imagine Communications)
Tony Pearson (North Carolina State University)
When NC State University (NCSU) was looking to upgrade the Pro-AV gear driving its Distance Education and Learning Technology Applications (DELTA) program, they decided to future-proof their infrastructure with a standards-based approach to IP, while continuing to leverage existing SDI gear. Using SMPTE ST 2110, NCSU significantly multiplied the capacity of their fiber infrastructure — where four single-mode fiber strands had supported four HD video channels, now just two fiber strands deliver 32 bidirectional HD channels.
This presentation will share the real-world experiences and lessons learned from adopting AES67 and SMPTE ST 2110 to successfully deploy a first-of-its-kind inter-campus Pro-AV system.