Cactus:一种数字模拟混合无线视频通信系统

Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems Pub Date : 2013-11-03 DOI:10.1145/2507924.2507987

H. Cui, Zhihai Song, Zhe Yang, Chong Luo, Ruiqin Xiong, Feng Wu

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引用次数: 43

摘要

本文挑战了传统的观点，即为了有效的通信，视频冗余应该尽可能地去除。我们发现，通过在发送端保持空间冗余，并在接收端适当地利用它，我们可以构建一个比现有的无线视频通信系统更健壮，甚至更高效的系统。在该框架中，视频帧间(时间)冗余在编码器处被去除，但帧内(空间)冗余被保留。这样，经过变换域缩放后的像素值通过调幅直接传输。在接收端，利用空间冗余进行图像去噪。请注意，我们解码器中的去噪不是后处理，而是必须立即在通道输出上执行。在SORA平台上实现了Cactus视频通信系统，并通过GPU实现了去噪处理的实时性。Cactus在802.11a/g WLAN环境下进行了评估。平均而言，Cactus在视频PSNR方面比SoftCast高出4.7 dB，并且对数据包丢失具有鲁棒性。

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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Cactus: a hybrid digital-analog wireless video communication system

This paper challenges the conventional wisdom that video redundancy should be removed as much as possible for efficient communications. We discover that, by keeping spatial redundancy at the sender and properly utilizing it at the receiver, we can build a more robust and even more efficient wireless video communication system than existing ones. In the proposed framework, inter-frame (temporal) redundancy in video is removed at the encoder, but intra-frame (spatial) redundancy is retained. In doing so, pixel values after a transform-domain scaling are directly transmitted with amplitude modulation. At the receiver, spatial redundancy is utilized by image denoising. Note that denoising in our decoder is not a post-processing, but have to be immediately performed on channel output. We implement the video communication system called Cactus on SORA platform, and make the denoising processing real-time through GPU implementation. Cactus is evaluated in 802.11a/g WLAN environment. On average, Cactus outperforms SoftCast by 4.7 dB in video PSNR and is robust to packet losses.

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Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems

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