Scalable Motion Vector Coding Based on CABAC for MC-EZBC

Author

Wu, Yongjun ; Woods, John W.

Author_Institution

Microsoft Corp., Redmond, WA

Volume

17

Issue

6

fYear

2007

fDate

6/1/2007 12:00:00 AM

Firstpage

790

Lastpage

795

Abstract

In the scalable video coder MC-EZBC, the motion-vector (MV) bitstream was not scalable in bitrate or resolution. In this short paper, we enhance MC-EZBC with a new scalable MV coder based on context adaptive binary arithmetic coding. Alphabet general partition of MV symbols is proposed to achieve accuracy or quality scalability of MVs. A selective layered structure is used to reduce the number of MVs transmitted when appropriate, mainly needed for resolution scalability. With these two additions, we have a layered temporal, SNR, and resolution scalability for the MV bitstream. Experimentally, we find that this gives significant visual and objective improvement for low bitrates and/or resolutions with only very slight PSNR loss and unnoticeable visual loss at high bitrates

Keywords

adaptive codes; arithmetic codes; binary codes; image motion analysis; video coding; video streaming; CABAC; MC-EZBC; context adaptive binary arithmetic coding; motion-vector bitstream; scalable motion vector coding; selective layered structure; Arithmetic; Bit rate; Degradation; Filtering; Motion analysis; PSNR; Proposals; Scalability; Video coding; Wavelet transforms; Alphabet general partition (AGP); layered structure coding.; motion compensated temporal filtering; scalable motion vector coding; scalable 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.2007.894043

Filename

4220738