A Software-Defined Radio Analysis of the Impact of Dynamic Modulation Scaling within Low-Power Wireless Systems

Proceedings of the 21st ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems Pub Date : 2018-10-25 DOI:10.1145/3242102.3242131

A. Gumusalan, R. Simon, Hakan Aydin

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Abstract

Dynamic Modulation Scaling (DMS) is a well-known mechanism that can effectively exploit the tradeoff between communication time and energy consumption. In recent years a number of studies have suggested that DMS techniques can reduce energy consumption while maintaining performance objectives in low-power wireless transmission technologies such as those defined in IEEE 802.15.4. These studies tend to rely on theoretical or simulation DMS models to predict network performance metrics. However, there is little, if any, work that is based upon empirically verified network performance outcomes using DMS. This paper fills that gap. Our contribution is four-fold; first, using GNU~Radio and SDR hardware we show how to emulate DMS in low power wireless systems. Second, we measure the impact of varying Signal-to-Noise levels on throughput and delivery rates for different DMS control strategies. Third, using DMS we quantify the impact of distance and finally, we measure the impact of different elevations between sender and receiver on network performance. Our results provide an empirical basis for future work in this area.

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低功耗无线系统中动态调制缩放影响的软件无线电分析

动态调制缩放(DMS)是一种众所周知的机制，可以有效地利用通信时间和能量消耗之间的权衡。近年来，许多研究表明，DMS技术可以降低能耗，同时保持低功耗无线传输技术(如IEEE 802.15.4中定义的技术)的性能目标。这些研究往往依赖于理论或模拟DMS模型来预测网络性能指标。然而，使用DMS进行的基于经验验证的网络性能结果的工作很少(如果有的话)。本文填补了这一空白。我们的贡献是四倍的;首先，我们使用GNU~Radio和SDR硬件演示了如何在低功耗无线系统中模拟DMS。其次，我们测量了不同的信噪比对不同DMS控制策略的吞吐量和交付率的影响。第三，使用DMS，我们量化了距离的影响，最后，我们测量了发送方和接收方之间不同高度对网络性能的影响。我们的研究结果为今后在这方面的工作提供了实证基础。

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 of the 21st ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems

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