Intrinsic flexibility exploiting for scalable video streaming over multi-channel wireless networks

2014 IEEE Visual Communications and Image Processing Conference Pub Date : 2014-12-01 DOI:10.1109/VCIP.2014.7051503

Ruixiao Yao, Yanwei Liu, Jinxia Liu, Pinghua Zhao, S. Ci

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引用次数: 2

Abstract

Scalable video has natural advantages in adapting to the multi-channel wireless networks. And some existing works tried to further optimize the scalable video transmission by combining the crude layer-importance mapping with some extrinsic techniques, such as Forward Error Correction (FEC) and Adaptive Modulation and Coding (AMC). However, the intrinsic flexibility of scalable video streaming over the multichannel wireless networks was neglected. In this paper, we try to exploit the intrinsic flexibility by firstly analyzing the priorities of H.264/SVC video data at the network abstraction layer unit (NALU) level, and then designing the priority-validity delivery scheme for the scalable video streaming. With this strategy, the sub-stream extraction is intelligently adjusted according to the delivery history, and the more important data in a group of pictures (GOP) will be delivered through the more reliable channels. Experimental results also validate the strategy's effectiveness in improving the objective quality and perceptual experience of the received video.

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在多通道无线网络上开发可扩展视频流的内在灵活性

可扩展视频在适应多通道无线网络方面具有天然的优势。现有的一些研究尝试将粗糙的层重要性映射与前向纠错(FEC)、自适应调制编码(AMC)等外在技术相结合，进一步优化可扩展视频传输。然而，在多通道无线网络中，可扩展视频流的内在灵活性被忽视了。本文首先从网络抽象层单元(NALU)层面分析了H.264/SVC视频数据的优先级，并在此基础上设计了可扩展视频流的优先级有效性传输方案，以充分利用H.264/SVC视频数据固有的灵活性。通过该策略，可以根据交付历史智能调整子流提取，使一组图片(GOP)中更重要的数据通过更可靠的渠道交付。实验结果也验证了该策略在提高接收视频的客观质量和感知体验方面的有效性。

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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2014 IEEE Visual Communications and Image Processing Conference

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