SSIM-Based CTU-Level Joint Optimal Bit Allocation and Rate Distortion Optimization
Abstract
Structural similarity (SSIM)-based distortion is more consistent with human perception than the traditional mean squared error . To achieve better video quality, many studies on optimal bit allocation (OBA) and rate-distortion optimization (RDO) used as the distortion metric. However, many of them failed to optimize OBA and RDO jointly based on SSIM, thus causing a non-optimal R- performance. This problem is due to the lack of an accurate R- model that can be used uniformly in both OBA and RDO. To solve this problem, we propose a - model first. Based on this model, the complex R- cost in RDO can be calculated as simpler R- cost with a new SSIM-related Lagrange multiplier. This not only reduces the computation burden of SSIM-based RDO, but also enables the R- model to be uniformly used in OBA and RDO. Moreover, with the new SSIM-related Lagrange multiplier in hand, the joint relationship of R-- (the negative derivative of R-) can be built, based on which the R- model parameters can be calculated accurately. With accurate and unified R- model, SSIM-based OBA and SSIM-based RDO are unified together in our scheme, called SOSR. Compared with the HEVC reference encoder HM16.20, SOSR saves 4%, 10%, and 14% bitrate under the same SSIM in all-intra, hierarchical and non-hierarchical low-delay-B configurations, which is superior to other state-of-the-art schemes.
Keywords
Cite
@article{arxiv.2004.13369,
title = {SSIM-Based CTU-Level Joint Optimal Bit Allocation and Rate Distortion Optimization},
author = {Yang Li and Xuanqin Mou},
journal= {arXiv preprint arXiv:2004.13369},
year = {2021}
}
Comments
An improved version of this manuscript has been accepted by IEEE Transactions on Broadcasting DOI 10.1109/TBC.2021.3068871. The project page is located at http://gr.xjtu.edu.cn/web/xqmou/sosr