‘Real World IP’ Event Video Series: Part 5 - Phil Myers - Lawo
Part 5 in our series from ‘Real World IP’, a one-day seminar event from The Broadcast Bridge held at BAFTA in London, Phil Myers, Senior Director – IP Systems, Lawo, discusses real-life applications for IP infrastructures including green-field sites, hybrid installations, and remote broadcast.
With over 2,000 miles of distance between the NEP Perth and Sydney facilities, Myers discusses the challenges and solutions of connecting media over IP for such large distances, especially when considering the procurement of equipment in a rapidly developing marketplace.
Myers digs deep into practical infrastructure design for hybrid systems and describes the three types of SDI to IP gateways currently available when considering challenges such as audio and video alignment, and dealing with jitter using low memory devices.
Watch the video; HERE.
Please note you must be logged in to access this video.
You might also like...
Building Software Defined Infrastructure: Asynchronous & Synchronous Media Processing
One of the key challenges of building software defined infrastructure is moving to a fundamentally synchronous media like video to an asynchronous architecture.
Monitoring & Compliance In Broadcast: Monitoring Cloud Infrastructure
If we take cloud infrastructures to their extreme, that is, their physical locality is unknown to us, then monitoring them becomes a whole new ball game, especially as dispersed teams use them for production.
Phil Rhodes Image Capture NAB 2025 Show Floor Report
Our resident image capture expert Phil Rhodes offers up his own personal impressions of the technology he encountered walking the halls at the 2025 NAB Show.
Building Hybrid IP Systems
It is easy to assume that the industry is inevitably and rapidly making the move to all-IP infrastructures to leverage IP’s flexibility and scalability, but the reality is often a bit more complex.
Microphones: Part 9 - The Science Of Stereo Capture & Reproduction
Here we look at the science of using a matched pair of microphones positioned as a coincident pair to capture stereo sound images.