Decentralized multichannel medium access control: viewing desynchronization as a convex optimization method

Proceedings of the 14th International Conference on Information Processing in Sensor Networks Pub Date : 2015-04-13 DOI:10.1145/2737095.2737108

N. Deligiannis, J. Mota, G. Smart, Y. Andreopoulos

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引用次数: 13

Abstract

Desynchronization algorithms are essential in the design of collision-free medium access control (MAC) mechanisms for wireless sensor networks. Desync is a well-known desynchronization algorithm that operates under limited listening. In this paper, we view Desync as a gradient descent method solving a convex optimization problem. This enables the design of a novel decentralized, collision-free, multichannel medium access control (MAC) algorithm. Moreover, by using Nesterov's fast gradient method, we obtain a new algorithm that converges to the steady network state much faster. Simulations and experimental results on an IEEE 802.15.4-based wireless sensor network deployment show that our algorithms achieve significantly faster convergence to steady network state and substantially higher throughput compared to the recently standardized IEEE 802.15.4e-2012 time synchronized channel hopping (TSCH) scheme. In addition, our mechanism has a comparable power dissipation with respect to TSCH and does not need a coordinator node or coordination channel.

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分散的多通道媒体访问控制:将去同步视为一种凸优化方法

非同步算法是无线传感器网络无碰撞介质访问控制(MAC)机制设计的关键。Desync是一种著名的去同步算法，它在有限的监听下运行。在本文中，我们将Desync视为解决凸优化问题的梯度下降方法。这使得设计一种新颖的分散、无冲突、多通道媒体访问控制(MAC)算法成为可能。此外，利用Nesterov快速梯度法，我们得到了一种更快收敛到稳定网络状态的新算法。在基于IEEE 802.15.4的无线传感器网络部署上的仿真和实验结果表明，与最近标准化的IEEE 802.15.4e-2012时间同步信道跳频(TSCH)方案相比，我们的算法收敛到稳定网络状态的速度显著加快，吞吐量显著提高。此外，我们的机制相对于TSCH具有相当的功耗，并且不需要协调器节点或协调通道。

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 14th International Conference on Information Processing in Sensor Networks

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