Wyner-Ziv video coding with hash-based motion compensation at the receiver (WP-L5)

Author(s) : Anne Aaron (Stanford University, USA) Shantanu Rane (Stanford University, USA) Bernd Girod (Stanford University, USA)

Abstract : In current interframe video compression systems, the encoder performs predictive coding to exploit the similarities of successive frames. The Wyner-Ziv Theorem on source coding with side information available only at the decoder suggests that an asymmetric video codec, where individual frames are encoded separately, but decoded conditionally (given temporally adjacent frames) could achieve similar efficiency. In previous work we propose a Wyner-Ziv coding scheme for motion video that uses intraframe encoding, but interframe decoding. In this paper we improve on our Wyner-Ziv video codec by sending hash codewords of the current frame to aid the decoder in accurately estimating the motion. This allows us to implement a low-delay system where only the previous reconstructed frame is used to generate the side information of a current frame. Simulation results show significant gains above conventional DCT-based intraframe coding. The Wyner-Ziv video codec with hash-based motion compensation at the receiver enables low-complexity encoding while achieving high compression efficiency.

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