Dependent R/D Modeling Techniques and Joint T-Q Layer Bit Allocation for H.264/SVC

Author

Yongjin Cho ; Do-Kyoung Kwon ; Jiaying Liu ; Kuo, C.-C Jay

Author_Institution

Samsung Electron., Seoul, South Korea

Volume

23

Issue

6

fYear

2013

fDate

Jun-13

Firstpage

1003

Lastpage

1015

Abstract

We investigate dependent rate/distortion (R/D) modeling techniques for H.264/SVC videos. We introduce a self-domain (S-domain) analysis method for characterizing the dependent R/D behaviors, where the R/D characteristics of a base layer are employed as the observation domain for those of dependent layers. Based on S-domain observations, we propose empirical dependent R/D models and analyze physical implications of the proposed models. As an application of the proposed R/D models, we examine a joint temporal-quality layer bit allocation algorithm formulated as a Lagrange optimization problem. The proposed R/D models enable us to derive an analytical solution to the joint optimization problem. Finally, it is demonstrated by experimental results that our bit allocation algorithm outperforms JSVM benchmark by a significant margin (10%-20%) at various bit rates.

Keywords

data compression; video codecs; video coding; H.264/SVC videos; Lagrange optimization problem; S-domain observation; dependent rate/distortion modeling; joint T-Q layer bit allocation; joint optimization problem; self domain analysis; temporal quality layer bit allocation algorithm; Analytical models; Bit rate; Joints; Quantization; Rate distortion theory; Scalability; Static VAr compensators; Dependent R/D model; H.264/SVC; joint bit allocation; rate-distortion optimization; video coding;

fLanguage

English

Journal_Title

Circuits and Systems for Video Technology, IEEE Transactions on

Publisher

ieee

ISSN

1051-8215

Type

jour

DOI

10.1109/TCSVT.2013.2248215

Filename

6468082