Fast Rate Estimation for RDO Mode Decision in HEVC

Fast Rate Estimation for RDO Mode Decision in HEVC

The latter-day H.265/HEVC video compression standard is able to provide two-times higher compression efficiency compared to the current industrial standard, H.264/AVC. However, coding complexity also increased. The main bottleneck of the compression process is the rate-distortion optimization (RDO)...

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Main Authors: Maxim P. Sharabayko, Oleg G. Ponomarev
Format: Article
Language:English
Published: MDPI AG 2014-12-01
Series:Entropy
Subjects:
H.265/HEVC
RDO
SBAC
arithmetic coding
entropy rate estimation
Online Access:http://www.mdpi.com/1099-4300/16/12/6667
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spelling doaj-18c815bbd07c45269d04851a4cf8308c2020-11-24T22:02:19ZengMDPI AGEntropy1099-43002014-12-0116126667668510.3390/e16126667e16126667Fast Rate Estimation for RDO Mode Decision in HEVCMaxim P. Sharabayko0Oleg G. Ponomarev1Tomsk Polytechnic University, 634050, Lenin Avenue, 30, Tomsk, RussiaTomsk State University, 634050, Lenin Avenue, 36, Tomsk, RussiaThe latter-day H.265/HEVC video compression standard is able to provide two-times higher compression efficiency compared to the current industrial standard, H.264/AVC. However, coding complexity also increased. The main bottleneck of the compression process is the rate-distortion optimization (RDO) stage, as it involves numerous sequential syntax-based binary arithmetic coding (SBAC) loops. In this paper, we present an entropy-based RDO estimation technique for H.265/HEVC compression, instead of the common approach based on the SBAC. Our RDO implementation reduces RDO complexity, providing an average bit rate overhead of 1.54%. At the same time, elimination of the SBAC from the RDO estimation reduces block interdependencies, thus providing an opportunity for the development of the compression system with parallel processing of multiple blocks of a video frame.http://www.mdpi.com/1099-4300/16/12/6667H.265/HEVCRDOSBACarithmetic codingentropy rate estimation
collection DOAJ
language English
format Article
sources DOAJ
author Maxim P. Sharabayko
Oleg G. Ponomarev
spellingShingle Maxim P. Sharabayko
Oleg G. Ponomarev
Fast Rate Estimation for RDO Mode Decision in HEVC
Entropy
H.265/HEVC
RDO
SBAC
arithmetic coding
entropy rate estimation
author_facet Maxim P. Sharabayko
Oleg G. Ponomarev
author_sort Maxim P. Sharabayko
title Fast Rate Estimation for RDO Mode Decision in HEVC
title_short Fast Rate Estimation for RDO Mode Decision in HEVC
title_full Fast Rate Estimation for RDO Mode Decision in HEVC
title_fullStr Fast Rate Estimation for RDO Mode Decision in HEVC
title_full_unstemmed Fast Rate Estimation for RDO Mode Decision in HEVC
title_sort fast rate estimation for rdo mode decision in hevc
publisher MDPI AG
series Entropy
issn 1099-4300
publishDate 2014-12-01
description The latter-day H.265/HEVC video compression standard is able to provide two-times higher compression efficiency compared to the current industrial standard, H.264/AVC. However, coding complexity also increased. The main bottleneck of the compression process is the rate-distortion optimization (RDO) stage, as it involves numerous sequential syntax-based binary arithmetic coding (SBAC) loops. In this paper, we present an entropy-based RDO estimation technique for H.265/HEVC compression, instead of the common approach based on the SBAC. Our RDO implementation reduces RDO complexity, providing an average bit rate overhead of 1.54%. At the same time, elimination of the SBAC from the RDO estimation reduces block interdependencies, thus providing an opportunity for the development of the compression system with parallel processing of multiple blocks of a video frame.
topic H.265/HEVC
RDO
SBAC
arithmetic coding
entropy rate estimation
url http://www.mdpi.com/1099-4300/16/12/6667
work_keys_str_mv AT maximpsharabayko fastrateestimationforrdomodedecisioninhevc
AT oleggponomarev fastrateestimationforrdomodedecisioninhevc
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