DocumentCode
1440446
Title
Deinterlacing Using Hierarchical Motion Analysis
Author
Huang, Qian ; Zhao, Debin ; Ma, Siwei ; Gao, Wen ; Sun, Huifang
Author_Institution
Key Lab. of Intell. Inf. Process., Grad. Univ., Beijing, Beijing, China
Volume
20
Issue
5
fYear
2010
fDate
5/1/2010 12:00:00 AM
Firstpage
673
Lastpage
686
Abstract
A motion-compensated deinterlacing scheme based on hierarchical motion analysis is presented. According to deinterlacing steps, our contribution can be divided into four parts: motion estimation, motion state analysis, motion consistency analysis, and finer-grained interpolation. In motion estimation, we introduce a Gaussian noise model for choosing the best motion vector for each block, and make a tradeoff between utilizing previous de-interlaced frames and avoiding error propagation. A directional interpolation method is also introduced in this part for backward fields. In motion state analysis, we define two motion states for each pixel, thus achieve a compromise between traditional block-based strategies and the extreme pixel-based case. In motion consistency analysis, we propose to measure both the motion vector consistency and the motion state consistency in order to determine whether the previous two parts should be performed again with a different block size. In finer-grained interpolation, we utilize a combination of recursive median filters to generate the final results. Experimental results show that all of the proposed techniques are effective, either objectively or subjectively. As a result, we can achieve much higher image quality, with an average gain of about 1.83 dB in terms of peak signal-to-noise ratio. Moreover, the increased computation complexity is marginal.
Keywords
Gaussian noise; interpolation; motion compensation; motion estimation; Gaussian noise model; backward fields; block-based strategies; directional interpolation method; extreme pixel-based case; finer-grained interpolation; hierarchical motion analysis; higher image quality; motion consistency analysis; motion estimation; motion state analysis; motion-compensated deinterlacing scheme; peak signal-to-noise ratio; recursive median filters; Deinterlacing; hierarchical motion analysis; motion consistency; noise model;
fLanguage
English
Journal_Title
Circuits and Systems for Video Technology, IEEE Transactions on
Publisher
ieee
ISSN
1051-8215
Type
jour
DOI
10.1109/TCSVT.2010.2045807
Filename
5430945
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