Channel-optimized video coding for low-power wireless applications

Proceedings 30th Applied Imagery Pattern Recognition Workshop (AIPR 2001). Analysis and Understanding of Time Varying Imagery Pub Date : 2001-10-10 DOI:10.1109/AIPR.2001.991220

G. Abousleman

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Abstract

This paper presents an error-robust channel-optimized coding algorithm for the transmission of low-rate video over wireless channels. The proposed coder uses a robust channel-optimized trellis-coded quantization (COTCQ) stage that is designed to optimize the image coding based on the channel characteristics. The resilience to channel errors is obtained without the use of channel coding or error concealment techniques. Additionally, a novel adaptive classification scheme is employed, which eliminates the need for motion compensation. The robust nature of the coder eliminates the appearance of impulsive channel-error-induced artifacts in the decoded video, while increasing the security level of the encoded bit stream. Consequently, the proposed channel-optimized video coder is especially suitable for low-power wireless applications due to its reduced complexity, its robustness to nonstationary signals and channels, and its increased security level. Simulation results show that our coder provides outstanding quantitative and subjective coding performance for a wide variety of channel conditions.

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低功耗无线应用的信道优化视频编码

本文提出了一种用于无线信道低速率视频传输的抗错误信道优化编码算法。该编码器采用鲁棒信道优化栅格编码量化(COTCQ)阶段，该阶段设计用于基于信道特征优化图像编码。在不使用信道编码或错误隐藏技术的情况下，获得了对信道错误的弹性。此外，采用了一种新的自适应分类方案，消除了对运动补偿的需要。编码器的鲁棒性消除了在解码视频中出现的脉冲信道错误，同时提高了编码比特流的安全级别。因此，所提出的信道优化视频编码器由于其降低了复杂性，对非平稳信号和信道具有鲁棒性，并且提高了安全级别，特别适合于低功耗无线应用。仿真结果表明，该编码器在各种信道条件下都能提供出色的定量和主观编码性能。

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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Proceedings 30th Applied Imagery Pattern Recognition Workshop (AIPR 2001). Analysis and Understanding of Time Varying Imagery

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