Probability Updati G for Decoder a D E Coder Rate Co Trol Turbo Based Wy Er-ziv Video Codi G
نویسندگان
چکیده
In Wyner-Ziv video coding (WZVC), powerful error correcting codes must be used to achieve high compression efficiency; turbo codes are the most commonly used error correcting codes in WZVC. To improve the turbo coding performance in the context of WZVC, this paper proposes a probability updating technique (PUT) acting as an outer loop of the common turbo decoding operation. Whenever a turbo decoded bitplane is not error-free, the proposed technique attempts to correct bitplane errors by updating the correlation noise probabilities for the most likely in error bits, followed by turbo redecoding. The new tool is evaluated both in the context of encoder rate control (ERC) and decoder rate control (DRC) turbo based WZVC scenarios with average overall PSNR gains up to about 0.5 dB in ERC and average WZ rate savings up to about 6% in DRC.
منابع مشابه
Transform-domain Wyner-Ziv Codec for Video
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 simi...
متن کاملA Robust Reversed-Complexity Wyner-Ziv Video Codec Introducing Sign-Modulated Codes
Wyner-Ziv coding, distributed coding, Viterbi algorithm, forward-backward algorithm, noisy channel A framework for incorporation of a Wyner-Ziv frame coding mode in existing video codecs is presented, to enable a mode of operation with low encoding complexity. The core Wyner-Ziv frame coder works on the Laplacian residual of a lower-resolution frame encoded by a regular codec at reduced resolut...
متن کاملTowards Rate-decoder Complexity Optimisation in Turbo-coder based Distributed Video Coding
Conventional hybrid video coding such as H.264 is compared to turbo-coder based Distributed Video Coding (DVC) from a complexity point of view. It is shown here that the overall workload in DVC can exceed that of H.264 by a substantial amount. Hence, DVC has the advantage of low-complexity encoding but at the price of high-complexity decoding, exceeding the encoder complexity of H.264. Given a ...
متن کاملWyner-Ziv Coding of Still Images with Rate Estimation at the Encoder
We develop a Wyner-Ziv still image codec with decoder feedback, based on a Rate Compatible Punctured Turbo (RCPT) code. Within this framework, two methods of pairing source data with side information are compared and found to be similar in performance. The architecture is modified into a Wyner-Ziv image codec with rate estimation at the encoder. The proposed rate estimator is the mean of the tu...
متن کاملOn the Importance of Source Classification in Wyner-Ziv Video Coding
Source classification has been widely studied in conventional coding of image and video signals. This paper explores the idea of exploiting so-called classification gain in Wyner-Ziv (WZ) video coding. We first provide theoretical analysis of how source classification can lead to improved Rate-Distortion tradeoff in WZ coding and quantify the classification gain by the ratio of weighted arithme...
متن کامل