Abstract
Distributed video coding (DVC) is a video coding paradigm allowing low complexity encoding for emerging applications such as wireless video surveillance. Side information (SI) generation is a key function in the DVC decoder, and plays a key-role in determining the performance of the codec. This paper proposes an improved SI generation for DVC, which exploits both spatial and temporal correlations in the sequences. Partially decoded Wyner-Ziv (WZ) frames, based on initial SI bymotion compensated temporal interpolation, are exploited to improve the performance of the whole SI generation. More specifically, an enhanced temporal frame interpolation is proposed, including motion vector refinement and smoothing, optimal compensation mode selection, and a new matching criterion for motion estimation. The improved SI technique is also applied to a new hybrid spatial and temporal error concealment scheme to conceal errors in WZ frames. Simulation results show that the proposed scheme can achieve up to 1.0 dB improvement in rate distortion performance in WZ frames for video with high motion, when compared to state-of-the-art DVC. In addition, both the objective and perceptual qualities of the corrupted sequences are significantly improved by the proposed hybrid error concealment scheme, outperforming both spatial and temporal concealments alone.
Highlights
Nowadays, the most popular digital video coding solutions are represented by the ISO/IEC MPEG and ITUT H.26x standards [1], which rely on a highly complex encoder
In common Distributed video coding (DVC) codecs, the side information (SI) is obtained by motion compensated temporal interpolation (MCTI) from the previous and key frames and utilizes the block matching algorithm (BMA) for motion estimation
In [30], a forward error correcting coding scheme is proposed for traditional video coding, where an auxiliary redundant bitstream generated at the encoder using WynerZiv coding is sent to the decoder for error concealment
Summary
The most popular digital video coding solutions are represented by the ISO/IEC MPEG and ITUT H.26x standards [1], which rely on a highly complex encoder. A thorough analysis of EURASIP Journal on Image and Video Processing its performance in the presence of transmission errors has been presented in [5], showing its good error resilience properties This results from the fact that DVC is based on a statistical framework rather than the closed-loop prediction used in conventional video coding. Enhanced temporal frame interpolation is applied, including motion vector refinement and smoothing to re-estimate and filter the motion vectors, and optimal compensation mode selection to select the mode with minimum matching distortion Based on these techniques, we propose a new hybrid spatial and temporal error concealment (EC) scheme for WZ frames in DVC.
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