A performance evaluation of broadcasting algorithms in Wireless Nanosensor Networks

2016 5th International Conference on Multimedia Computing and Systems (ICMCS) Pub Date : 2016-09-01 DOI:10.1109/ICMCS.2016.7905624

Ayoub Oukhatar, M. Bakhouya, D. E. Ouadghiri, K. Zine-dine

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引用次数: 5

Abstract

With rapid advances in nanotechnologies, Wireless Nanosensor Networks (WNSNs) have been emerged as a typical subclass of WSNs but at nano-scale. WNSN is a new communication fabric that allows nanonodes to connect to each other using new mechanisms such as molecular (or chemical) and electromagnetic. Unlike traditional WSNs, nanonodes are tiny with limited resources (e.g., computation, memory and energy) and therefore, are not able to communicate with the destination node using a single-hop scenario. The flooding mechanism, in which each node rebroadcasts the message once, was adopted for broadcasting in electromagnetic-based WNSNs. While the flooding mechanism is very simple, it is not efficient since most of the nanonodes are expected to rebroadcast a message at the same time, thus collisions are likely to occur. Furthermore, the excess number of rebroadcasts increases resources utilization that affects the network performance and increases energy consumption. In this paper, we investigate the flooding algorithm in the context of WNSNs and compare it with counter-based and probabilistic-based broadcasting mechanisms that are proposed for MANETs.

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无线纳米传感器网络中广播算法的性能评估

随着纳米技术的飞速发展，无线纳米传感器网络(Wireless Nanosensor network, WNSNs)已成为无线传感器网络的一个典型的亚类，只不过是在纳米尺度上。WNSN是一种新的通信结构，它允许纳米节点使用分子(或化学)和电磁等新机制相互连接。与传统的wsn不同，纳米节点很小，资源有限(例如，计算、内存和能量)，因此不能使用单跳场景与目标节点通信。在基于电磁的无线无线网络中，广播采用了每个节点重广播一次的泛洪机制。虽然泛洪机制非常简单，但效率并不高，因为大多数纳米节点都需要同时转播信息，因此很可能发生碰撞。此外，过多的重播次数会增加资源利用率，从而影响网络性能并增加能源消耗。在本文中，我们研究了wnsn背景下的泛洪算法，并将其与针对manet提出的基于计数器和基于概率的广播机制进行了比较。

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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2016 5th International Conference on Multimedia Computing and Systems (ICMCS)

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