Robust transmission of live video over ad hoc wireless networks presents new challenges: high bandwidth requirements are coupled with delay constraints; nodes are constrained in processing power and storage capacity; ad hoc wireless networks suffer from bursty packet losses that drastically degrade the viewing experience. Accordingly, we propose a simple, but practical unbalanced multiple description (UMD) codec that uses single path transport only. At the UMD decoder, the lost Low-Resolution (LR) frames can be recoded from the corresponding ones of the correctly received High-Resolution (HR) stream. This makes LR more robust to packet losses and ensures continuous video playback. The simulation results show that the proposed UMD codec has higher decoded quality, smaller quality fluctuation and lower probability of pause than other error resilience techniques, especially when channel burstiness becomes large. We also propose a novel sequence-based error concealment (EC) algorithm for our UMD decoder. It recursively uses multi-frame recovery principle to frame-by-frame reduce error drift in the HR description with respect to the LR description. In fact, the algorithm can be applied to most UMD schemes. It has the advantage of working on integer-, half- or quarter- pixel precision and looking backward without buffering future frames. Experimental results show that error decreases the fastest if the UMD decoder uses our EC algorithm. It can provide satisfactory performance on both objective and subjective evaluation.
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机译:临时无线网络的实时视频的强大传输呈现出新的挑战:高带宽要求与延迟约束相结合;节点受到处理电力和存储容量的约束; ad hoc无线网络遭受突发的包损失,可以急剧降低观看体验。因此,我们提出了一种简单但实用的不平衡多个描述(UMD)编解码器,其仅使用单路径传输。在UMD解码器处,可以从正确接收的高分辨率(HR)流中的相应的丢失的低分辨率(LR)帧中重新编码。这使LR更强大地对数据包丢失并确保连续视频播放。仿真结果表明,所提出的UMD编解码器具有较高的解码质量,更小的质量波动和比其他误差弹性技术的暂停较低的概率,特别是当信道突起变大时。我们还提出了一种新的基于序列的错误隐藏(EC)算法,用于我们的UMD解码器。它递归地使用多帧恢复原理对逐帧逐帧缩小误差漂移,在HR描述中的LR描述中的描述。实际上,该算法可以应用于大多数UMD方案。它具有在整数,半或四分之一像素精度上工作的优点,并在不缓冲未来帧的情况下向后看。实验结果表明,如果UMD解码器使用我们的EC算法,则错误会降低最快。它可以为目标和主观评估提供令人满意的性能。
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