05-16-2026, 06:19 PM
[center]![[Image: 9a63640616fae7a4da32b64f26b57d70.jpg]](https://i127.fastpic.org/big/2026/0516/70/9a63640616fae7a4da32b64f26b57d70.jpg)
Versatile Video Coding (h.266) Technology And Applications
Published 5/2026
Created by Benny Bing
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Intermediate | Genre: eLearning | Language: English | Duration: 12 Lectures ( 4h 47m ) | Size: 3 GB[/center]
An Intensive Course on State-of-the-Art Video Compression
What you'll learn
⚡ Understand the basics of video coding and VVC
⚡ Describe VVC block partitioning, intracoding, intercoding. and transform coding
⚡ Describe VVC quantization, entropy coding and in-loop filtering
⚡ Describe VVC screen content coding, omnidirectional video coding, and systems support
⚡ Review VVC performance metrics and reference software
⚡ Compare VVC with HEVC and AV1, including the decoder data flow
Requirements
❗ Some video coding background
Description
Television is the most engaging source of information and entertainment. Online services allow TV content and movies to be streamed instantly or downloaded on demand, and has opened up new ways for discovering, sharing, and consuming TV content anywhere, anytime, and on any device. Conversely, it takes nothing more than a smartphone and a YouTube channel to become a global broadcaster and producer of live events. Because improvements in video compression require additional tools and options, each generation of video codecs has a new syntax defining a bitstream so newer codecs are typically not backward compatible with older generation decoders. State-of-the-art standards such as Versatile Video Coding (VVC) will bring even greater efficiencies using highly complex tools. These tools are described in this course, which contains over 300 informative slides. Optimizing the efficiency of video coding requires a painstaking effort and a systematic approach in analyzing the coding performance using a wide variety of video content and coding parameters. Factors such as resolution, color/brightness volume, frame rate, and amount of information loss in video coding all impact the visual quality. This course is packed with many numeric examples to illustrate the impact and tradeoffs when combining coding parameters as well as effective tips in coding implementation. A short quiz completes the course.
Learning Outcomes
✨ Understand the basics of video coding and VVC
✨ Describe VVC block partitioning, intracoding, intercoding. and transform coding
✨ Describe VVC quantization, entropy coding and in-loop filtering
✨ Describe VVC screen content coding, omnidirectional video coding, and systems support
✨ Review VVC performance metrics and reference software
✨ Compare VVC with HEVC and AV1, including the decoder data flow
About the Instructor
The instructor has developed 6 U.S. video patents that were licensed to industry and received the National Association of Broadcasters Technology Innovation Award for demonstrations of advanced media technologies. He has conducted custom video courses for Comcast/NBC, Qualcomm, Motorola Solutions, universities, and the IEEE, and has served as an expert witness on cable TV and video streaming. More recently, two of his books on video coding were adopted by the AI company Anthropic as training material.
Who this course is for
⭐ Video coding enthusiast
Versatile Video Coding (h.266) Technology And Applications
Published 5/2026
Created by Benny Bing
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Intermediate | Genre: eLearning | Language: English | Duration: 12 Lectures ( 4h 47m ) | Size: 3 GB[/center]
An Intensive Course on State-of-the-Art Video Compression
What you'll learn
⚡ Understand the basics of video coding and VVC
⚡ Describe VVC block partitioning, intracoding, intercoding. and transform coding
⚡ Describe VVC quantization, entropy coding and in-loop filtering
⚡ Describe VVC screen content coding, omnidirectional video coding, and systems support
⚡ Review VVC performance metrics and reference software
⚡ Compare VVC with HEVC and AV1, including the decoder data flow
Requirements
❗ Some video coding background
Description
Television is the most engaging source of information and entertainment. Online services allow TV content and movies to be streamed instantly or downloaded on demand, and has opened up new ways for discovering, sharing, and consuming TV content anywhere, anytime, and on any device. Conversely, it takes nothing more than a smartphone and a YouTube channel to become a global broadcaster and producer of live events. Because improvements in video compression require additional tools and options, each generation of video codecs has a new syntax defining a bitstream so newer codecs are typically not backward compatible with older generation decoders. State-of-the-art standards such as Versatile Video Coding (VVC) will bring even greater efficiencies using highly complex tools. These tools are described in this course, which contains over 300 informative slides. Optimizing the efficiency of video coding requires a painstaking effort and a systematic approach in analyzing the coding performance using a wide variety of video content and coding parameters. Factors such as resolution, color/brightness volume, frame rate, and amount of information loss in video coding all impact the visual quality. This course is packed with many numeric examples to illustrate the impact and tradeoffs when combining coding parameters as well as effective tips in coding implementation. A short quiz completes the course.
Learning Outcomes
✨ Understand the basics of video coding and VVC
✨ Describe VVC block partitioning, intracoding, intercoding. and transform coding
✨ Describe VVC quantization, entropy coding and in-loop filtering
✨ Describe VVC screen content coding, omnidirectional video coding, and systems support
✨ Review VVC performance metrics and reference software
✨ Compare VVC with HEVC and AV1, including the decoder data flow
About the Instructor
The instructor has developed 6 U.S. video patents that were licensed to industry and received the National Association of Broadcasters Technology Innovation Award for demonstrations of advanced media technologies. He has conducted custom video courses for Comcast/NBC, Qualcomm, Motorola Solutions, universities, and the IEEE, and has served as an expert witness on cable TV and video streaming. More recently, two of his books on video coding were adopted by the AI company Anthropic as training material.
Who this course is for
⭐ Video coding enthusiast
Code:
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https://rapidgator.net/file/f916be53cbb321f15f3dab5883ed603b/Versatile_Video_Coding_(H.266)_Technology_and_Applications.part1.rar.html
https://nitroflare.com/view/27615287981D568/Versatile_Video_Coding_%28H.266%29_Technology_and_Applications.part4.rar
https://nitroflare.com/view/515931CBC1C172B/Versatile_Video_Coding_%28H.266%29_Technology_and_Applications.part3.rar
https://nitroflare.com/view/5AECDCFA12C5AD7/Versatile_Video_Coding_%28H.266%29_Technology_and_Applications.part2.rar
https://nitroflare.com/view/C53D37362252BBF/Versatile_Video_Coding_%28H.266%29_Technology_and_Applications.part1.rar