A novel UEP resource allocation scheme for layered source transmission in COFDM systems

Zhao Kai, Cui Hui-juan, Tang Kun
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Abstract

This paper proposes a novel unequal error protection (UEP) resource allocation scheme for layered source transmission in coded OFDM systems. In the proposed scheme, firstly the resource allocation problem for two layered source is solved by UEP Fischer bit loading algorithm and golden search method. Secondly, according to the divide and conquer principle, the optimization of resource allocation for the multi-layered source can be decomposed hierarchically into sub-problems. And luckily, each sub-problem can be well solved by the above algorithm developed for the two layered source. Finally we design an efficient routine in which optimized resource allocation results for multi-layered source can be updated recursively through calculation and merging of solutions to the decomposed subproblems. Experimental results show that compared with traditional resource allocation schemes, the proposed scheme can effectively decrease the reconstructed distortion with moderate time complexity in a variety of channel conditions.
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COFDM系统分层源传输的一种新的UEP资源分配方案
针对编码OFDM系统中的分层源传输,提出了一种新的不等错保护(UEP)资源分配方案。该方案首先采用UEP Fischer位加载算法和黄金搜索方法解决两层源的资源分配问题;其次,根据分而治之的原则,将多层源的资源配置优化问题分层分解为子问题;幸运的是,上述针对两层源开发的算法可以很好地解决每个子问题。最后,我们设计了一个高效的程序,通过计算和合并分解子问题的解,递归地更新多层源的优化资源分配结果。实验结果表明,与传统的资源分配方案相比,该方案在各种信道条件下都能有效降低重构失真,且时间复杂度适中。
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