Distortion Estimation Using Structural Similarity for Video Transmission over Wireless Networks

2015 IEEE International Symposium on Multimedia (ISM) Pub Date : 2015-12-01 DOI:10.1109/ISM.2015.88

Arun Sankisa, A. Katsaggelos, P. Pahalawatta

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引用次数: 2

Abstract

Efficient streaming of video over wireless networks requires real-time assessment of distortion due to packet loss, especially because predictive coding at the encoder can cause inter-frame propagation of errors and impact the overall quality of the transmitted video. This paper presents an algorithm to evaluate the expected receiver distortion on the source side by utilizing encoder information, transmission channel characteristics and error concealment. Specifically, distinct video transmission units, Group of Blocks (GOBs), are iteratively built at the source by taking into account macroblock coding modes and motion-compensated error concealment for three different combinations of packet loss. Distortion of these units is then calculated using the structural similarity (SSIM) metric and they are stochastically combined to derive the overall expected distortion. The proposed model provides a more accurate estimate of the distortion that closely models quality as perceived through the human visual system. When incorporated into a content-aware utility function, preliminary experimental results show improved packet ordering & scheduling efficiency and overall video signal at the receiver.

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基于结构相似度的无线视频传输失真估计

无线网络上高效的视频流需要实时评估由于丢包造成的失真，特别是因为编码器的预测编码会导致帧间传播错误并影响传输视频的整体质量。本文提出了一种利用编码器信息、传输信道特性和错误隐藏来评估信源侧预期接收失真的算法。具体来说，不同的视频传输单元，组块(gob)，通过考虑宏块编码模式和三种不同的包丢失组合的运动补偿错误隐藏，在源处迭代构建。然后使用结构相似性(SSIM)度量来计算这些单元的失真，并将它们随机组合以得出总体预期失真。提出的模型提供了一个更准确的失真估计，接近模型质量，通过人类视觉系统感知。当与内容感知实用函数结合时，初步实验结果表明，在接收端，数据包排序和调度效率以及整体视频信号都有所提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE International Symposium on Multimedia (ISM)

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