標題: OPTIMIZED RATELESS UEP CODES FOR SCALABLE VIDEO STREAMING
作者: Zao, John K.
Hornansky, Martin
Diao, Pei-Lun
Wang, Bo-Wei
Wang, Chung-Hsuan
Chang, Li-Jen
資訊工程學系
Department of Computer Science
關鍵字: short-length Luby Transforms (LT);optimal degree distributions;natural evolution strategies (NES);scalable video streaming;unequal erasure protection
公開日期: 2012
摘要: Wireless video streaming often suffers from heavy and varying amount of packet loss. Short-length Luby Transform (SLLT) codes are often employed to offer necessary rateless or universal erasure protection. Nevertheless, a proficient method for finding the optimal degree distributions of SLLT codes is still missing although the asymptotic behaviors of infinite-length LT codes have long been deduced. In this paper, we propose a practical approach to find the optimal degree distributions of LT codes with arbitrary input block lengths. Our approach starts with a new fitness model for the LT codes based on three performance measurements: their coding overhead e, decoding failure ratio r and failure probability p. We then employed the exponential natural evolution strategy (xNES) along with a suitable choice of initial degree distribution and a proper transformation between the genotypes and the phenotypes to search for the optimized degree distributions. The optimized SLLT codes designed using this approach far outperforms the ones obtained through asymptotic approximation. As an example application, we constructed a family of rateless convolutional UEP codes using these optimized SLLT codes as the rateless postcodes. These codes offer superb universal unequal erasure protection to wireless H.264/SVC broadcasting with only 16%-20% coding overhead. This design exercise, however, made clear the necessity of matching the rateless erasure correction capability of the SLLT postcode with the error-rate sensitive UEP capability of the convolutional precode. The effect of code matching was demonstrated clearly in the improvement of rate-distortion performance of video playback.
URI: http://hdl.handle.net/11536/21125
ISBN: 978-1-4673-4405-0
期刊: 2012 IEEE VISUAL COMMUNICATIONS AND IMAGE PROCESSING (VCIP)
Appears in Collections:Conferences Paper