Comparison Between Different Types of Sensor Architecture Using a Uniform Relay Protocol

2020 8th International Conference on Wireless Networks and Mobile Communications (WINCOM) Pub Date : 2020-10-28 DOI:10.1109/WINCOM50532.2020.9272428

O. Flauzac, J. Hérard, F. Nolot, Florian Desrumaux

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引用次数: 1

Abstract

Organizations want to collect data remotely to predict incidents or simply to store and analyze them. To do that, a sensor network is often deployed to collect these data. However, the dynamic nature of these networks and possible sensors out of range must be taken into account to ensure that information retrieval is carried out correctly. The main solution used by the operator is a star topology. An architecture that is simple to deploy but which does not always make it possible to reach all the sensors, such as those located in cellars or tunnels. In this paper, we propose a study of a relay protocol including a local synchronization solution on different platforms to evaluate the power consumption of many types of sensor architecture and communication technology. The platforms considered using the following microcontroller: STMicroelectronics STM32, LoPy, and Arm® Cortex®-M3 with Texas Instrument CC1350 with the 3 following modulation wireless communications: LoRa, WIFI, and raw 868MHz.

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使用统一中继协议的不同类型传感器结构的比较

组织希望远程收集数据来预测事件，或者只是存储和分析它们。为此，通常会部署传感器网络来收集这些数据。然而，必须考虑到这些网络的动态性和可能超出范围的传感器，以确保正确地进行信息检索。算子使用的主要解决方案是星型拓扑。这种架构易于部署，但并不总是能够到达所有传感器，例如位于地窖或隧道中的传感器。在本文中，我们提出了一项中继协议的研究，包括在不同平台上的本地同步解决方案，以评估多种类型的传感器架构和通信技术的功耗。考虑使用以下微控制器的平台:意法半导体STM32, LoPy, Arm®Cortex®-M3和德州仪器CC1350，具有以下3种调制无线通信:LoRa, WIFI和原始868MHz。

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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2020 8th International Conference on Wireless Networks and Mobile Communications (WINCOM)

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