Abstract
After the development of the High-Efficiency Video Coding Standard (HEVC), ITU-T VCEG and ISO/IEC MPEG formed the Joint Video Exploration Team (JVET), which started exploring video coding technology with higher coding efficiency, including development of a Joint Exploration Model (JEM) algorithm and a corresponding software implementation. The technology explored in the last version of the JEM further increases the compression capabilities of the hybrid video coding approach by adding new tools, reaching up to 30% bit rate reduction compared to HEVC based on the Bjontegaard delta bit rate (BD-rate) metric, and further improvement beyond that in terms of subjective visual quality. This provided enough evidence to issue a joint Call for Proposals (CfP) for a new standardization activity now known as Versatile Video Coding (VVC). All technology proposed in the responses to the CfP was based on the classic block-based hybrid video coding design, extending it by new elements of partitioning, intra- and inter-picture prediction, prediction signal filtering, transforms, quantization/scaling, entropy coding, and in-loop filtering. This article provides an overview of technology that was proposed in the responses to the CfP, with a focus on techniques that were not already explored in the JEM context.
Highlights
E XPLORATION of video compression with capability beyond the High-Efficiency Video Coding Standard
The activities on future video coding were conducted within the Joint Video Exploration Team (JVET) of the ITU-T Video Coding Experts Group (VCEG) and the ISO/IEC Moving Pictures Expert Group (MPEG), which developed a Joint Exploration Model (JEM) and its software implementation
All responses follow the same block-based hybrid video coding approach that is used in previous video coding standards like H.262/MPEG-2-Video, Advanced Video Coding (AVC) [5], or High Efficiency Video Coding (HEVC) [6]
Summary
E XPLORATION of video compression with capability beyond the High-Efficiency Video Coding Standard The last version (JEM-7.0) achieved ∼30% bit rate reduction compared to the HEVC test model (HM) [1]. This was considered sufficient evidence by VCEG and MPEG to start a joint activity to develop a new video coding standard by issuing a Call for Proposals (CfP) in October 2017 [2]. All responses follow the same block-based hybrid video coding approach that is used in previous video coding standards like H.262/MPEG-2-Video, Advanced Video Coding (AVC) [5], or High Efficiency Video Coding (HEVC) [6]. Estimates of coding efficiency benefit described in this paper are primarily based on the peak-signal-to-noise-ratio Bjøntegaard-delta bit rate (BD-rate) metric [11] as configured.
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