Scatternet Formation Protocol for Environmental Monitoring in a Smart Garden

Netw. Protoc. Algorithms Pub Date : 2019-01-06 DOI:10.5296/npa.v10i3.14122

L. Parra, J. Marin, P. V. Mauri, Jaime Lloret, Virginia Torices, Alberto Massager

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引用次数: 5

Abstract

The monitoring of different parameters in the smart garden environment requires thousands of nodes and actuators. They form a multi-hop communication network. The scatternets formed with Bluetooth protocol is a communication solution. However, there is no current algorithm that considers the different capabilities of the devices (sensors or actuators) and assigns a role according to these capabilities. In this paper, we present a network topology formation algorithm for role assignment and connection establishment which considers the capabilities of the devices and use slave-slave Bridge to communicate the piconets. We design the algorithms needed for this protocol and test it. We have simulated the algorithms in order to evaluate the time needed for role assignment and to establish the first connections of the piconet. The results include different scenarios composed by one or two masters and one to seven slaves. In addition, we evaluate the established connections in piconets and bridges in a real case of the smart garden sensor network. Finally, we present the changes in the piconet connections after the deployment of two nodes in an existing network.

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智能花园环境监测的散射网形成协议

智能花园环境中不同参数的监控需要成千上万的节点和执行器。它们形成了一个多跳通信网络。利用蓝牙协议形成的散射网是一种通信解决方案。然而，目前还没有一种算法可以考虑设备(传感器或执行器)的不同功能，并根据这些功能分配角色。在本文中，我们提出了一种考虑设备性能的角色分配和连接建立的网络拓扑形成算法，并使用从-从桥接器实现piconet之间的通信。我们设计了该协议所需的算法并对其进行了测试。为了评估角色分配和建立piconet的第一个连接所需的时间，我们对算法进行了模拟。结果包括由一到两个主人和一到七个奴隶组成的不同场景。此外，我们在智能花园传感器网络的真实案例中评估了piconet和桥中的已建立连接。最后，我们介绍了在现有网络中部署两个节点后piconet连接的变化。

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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Netw. Protoc. Algorithms

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