Optimizing Video Compression and Transmission for Real-Time Applications

2023 IEEE Region 10 Symposium (TENSYMP) Pub Date : 2023-09-06 DOI:10.1109/TENSYMP55890.2023.10223679

Sugandha Sharma, Harsh Jindal, Amit Jain, Shatvik Singh, Pritpal Singh Binner

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Abstract

Customers' expectations for content have significantly increased in recent times, leading to a perpetual sense of dissatisfaction. They now demand fast loading times and uninterrupted video playback when using on-demand video platforms like YouTube and Netflix. Despite various CNN-based methods proposed to improve compressed video quality, the existing VVC and transmission protocols are struggling to meet the demands of this expanding market of content consumers. To tackle this problem, we present the latest video coding standard, H.266/VVC, which has been developed by Team JVET. H.266 employs a quad-tree with a layered multitype tree structure, although this approach increases the computational requirements for future video coding advancements. However, it is essential for enhancing the acceptance and utilization of video coding technology. Furthermore, we introduce the “HESP” protocol for video coding-streaming, which enables the delivery of streaming services with extremely low latency and significantly reduced streaming bandwidth on a large scale.

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优化视频压缩和传输的实时应用

近年来，客户对内容的期望显著提高，导致了一种永久的不满足感。在使用YouTube和Netflix等点播视频平台时，他们现在要求快速加载时间和不间断的视频播放。尽管提出了各种基于cnn的方法来提高压缩视频的质量，但现有的VVC和传输协议难以满足不断扩大的内容消费者市场的需求。为了解决这个问题，我们提出了JVET团队开发的最新视频编码标准H.266/VVC。H.266采用了具有多层多类型树结构的四叉树，尽管这种方法增加了未来视频编码进步的计算需求。然而，提高视频编码技术的接受度和利用率是必不可少的。此外，我们还引入了用于视频编码流的“HESP”协议，该协议能够以极低的延迟提供流媒体服务，并显著减少大规模的流媒体带宽。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE Region 10 Symposium (TENSYMP)

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