Essential Guide: High Dynamic Range Broadcasting
November 20th 2019 - 01:00 PM
Once logged in you can set content preferences to let us know what you are interested in and whether you want to receive email from us.
Already Registered? Login
HDR offers unbelievable new opportunities for broadcast television. Not only do we have massively improved dynamic range with the potential of eye-watering contrast ratios, but we also have the opportunity to work with a significantly increased color gamut to deliver vivid and highly saturated colors.
The electronics and technology available during the early design of standard dynamic range television resulted in a highly compromised system. The pictures lacked sparkle in specular reflections due to the limited luminance range, and the color often looked washed out because of the limited color gamut.
Although HDR fixes these limitations, there is much more to achieving stunning video images and an outstanding user experience than just replacing the cameras. Whole workflows must be re-designed, working practices must be re-thought, and attitudes to making video moves to the aesthetic.
This Essential Guide, supported by AJA Video Systems, not only provides a comprehensive view of how HDR works, but through practical application demonstrates how to get the best out of HDR systems.
Download this Essential Guide today if you are an engineer, technician or manager, looking to improve your practical knowledge of HDR. What are the relevant standards? What’s the difference between OETF and EOTF? And what do 1,000 NIT monitors deliver? All these questions, and more, are answered in this Essential Guide.
Creatives and program makers looking to get ahead need to understand the technology to fully stretch HDR and deliver an outstanding and uncompromised viewing experience. HDR workflows now allow us to pull detail out of the shadow and see specular highlights like never before in the history of broadcast television.
Download this Essential Guide today to help you deliver on your creativity.
Supported by
You might also like...
Next-Gen 5G Contribution: Part 2 - MEC & The Disruptive Potential Of 5G
The migration of the core network functionality of 5G to virtualized or cloud-native infrastructure opens up new capabilities like MEC which have the potential to disrupt current approaches to remote production contribution networks.
Designing IP Broadcast Systems: Addressing & Packet Delivery
How layer-3 and layer-2 addresses work together to deliver data link layer packets and frames across networks to improve efficiency and reduce congestion.
Next-Gen 5G Contribution: Part 1 - The Technology Of 5G
5G is a collection of standards that encompass a wide array of different use cases, across the entire spectrum of consumer and commercial users. Here we discuss the aspects of it that apply to live video contribution in broadcast production.
Virtual Production At America’s Premier Film And TV Production School
The School of Cinematic Arts at the University of Southern California (USC) is renowned for its wide range of courses and degrees focused on TV and movie production and all of the sub-categories that relate to both disciplines. Following real-world…
Why AI Won’t Roll Out In Broadcasting As Quickly As You’d Think
We’ve all witnessed its phenomenal growth recently. The question is: how do we manage the process of adopting and adjusting to AI in the broadcasting industry? This article is more about our approach than specific examples of AI integration;…