Unequal Loss Protection Using Layer-Based Recovery Rate (ULP-LRR) for Robust Scalable Video Streaming over Wireless Networks

J. Inform. and Commun. Convergence Engineering Pub Date : 2016-12-31 DOI:10.6109/jicce.2016.14.4.240

S. Quan, H. Ha, Rong Ran

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Abstract

Scalable video streaming over wireless networks has many challenges. The most significant challenge is related to packet loss. To overcome this problem, in this paper, we propose an unequal loss protection (ULP) method using a new forward error correction (FEC) mechanism for robust scalable video streaming over wireless networks. For an efficient FEC assignment considering video quality, we first introduce a simple and efficient performance metric, the layer-based recovery rate (LRR), for quantifying the unequal error propagation effects of the temporal and quality layers on the basis of packet losses. LRR is based on the unequal importance in both the temporal and the quality layers of a hierarchical scalable video coding structure. Then, the proposed ULP-LRR method assigns an appropriate number of FEC packets on the basis of the LRR to protect the video layers against packet lossy network environments. Compared with conventional ULP algorithms, the proposed ULP-LRR algorithm demonstrates a higher performance for various error-prone wireless channel statuses.

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基于层恢复速率(ULP-LRR)的无线网络鲁棒可扩展视频流不均等丢失保护

无线网络上可扩展的视频流有许多挑战。最重要的挑战与丢包有关。为了克服这个问题，在本文中，我们提出了一种使用新的前向纠错(FEC)机制的不等损失保护(ULP)方法，用于无线网络上的鲁棒可扩展视频流。为了在考虑视频质量的情况下进行有效的FEC分配，我们首先引入了一个简单而有效的性能度量，即基于层的恢复速率(LRR)，用于量化时间层和质量层在数据包丢失的基础上的不均匀错误传播效应。LRR是基于分层可扩展视频编码结构中时间层和质量层的重要性不相等。然后，本文提出的ULP-LRR方法在LRR的基础上分配适当数量的FEC数据包，以保护视频层免受丢包网络环境的影响。与传统的ULP算法相比，本文提出的ULP- lrr算法在各种容易出错的无线信道状态下表现出更高的性能。

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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J. Inform. and Commun. Convergence Engineering

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