Spread-spectrum techniques for distributed space-time communication in sensor networks

Conference Record of the Thirty-Eighth Asilomar Conference on Signals, Systems and Computers, 2004. Pub Date : 2004-11-07 DOI:10.1109/ACSSC.2004.1399270

R. Mudumbai, G. Barriac, Upamanyu Madhow

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引用次数: 34

Abstract

Communication is widely acknowledged as a fundamental bottleneck in sensor networks with large numbers of low-cost, low-power nodes. We consider cooperative transmission of a common message signal from a cluster of sensor nodes to a remote receiver, under realistic transmission models accounting for timing and frequency synchronization offsets across the nodes. The purpose is to obtain range extension by combining the powers of the nodes in a cluster and to obtain robustness against channel impairments by exploiting the diversity naturally arising from the spatial distribution of the sensor nodes. For a simple scheme in which all nodes asynchronously transmit the same signal, we analyze the available diversity gains using an information theoretic analysis of outage capacity for wideband systems. We show that standard modulation formats can be adapted to realize diversity gains in the presence of synchronization errors. We propose simple receiver architectures that realize diversity gains and have desirable scaling properties as the number of sensors increases.

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传感器网络中分布式时空通信的扩频技术

在具有大量低成本、低功耗节点的传感器网络中，通信被广泛认为是一个基本瓶颈。我们考虑在考虑节点间时间和频率同步偏移的实际传输模型下，从一组传感器节点到远程接收器的公共消息信号的协作传输。其目的是通过结合集群中节点的功率来获得距离扩展，并通过利用传感器节点空间分布自然产生的多样性来获得对信道损伤的鲁棒性。对于所有节点异步传输相同信号的简单方案，我们利用宽带系统中断容量的信息理论分析了可用分集增益。我们证明了标准调制格式可以在存在同步误差的情况下实现分集增益。我们提出了简单的接收器架构，可以实现分集增益，并随着传感器数量的增加而具有理想的缩放特性。

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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Conference Record of the Thirty-Eighth Asilomar Conference on Signals, Systems and Computers, 2004.

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