Environmental Monitoring Systems: Review and Future Development

无线工程与技术(英文) Pub Date : 2019-01-01 DOI:10.4236/wet.2019.101001

I. Šećerov, D. Dolinaj, D. Pavić, D. Milošević, S. Savić, Srdan Popov, Zarko Zivanov

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引用次数: 15

Abstract

Monitoring and recording large time series of data and making them available for studying—are the key roles of environmental monitoring systems. This study produce review of three different measurement monitoring systems (NSUNET, WAHASTRAT and MERIEXWA) with same design, which were placed during different time frame in the Northern Serbia (Vojvodina Province). Each of three monitoring systems has different demands and requirements which were addressed accordingly in their design. Power supply conditions for two systems are primary cells and solar panels, while NSUNET has constant power supply only during nighttime. Data is transmitted in MERIEXWA using binary protocol, WAHASTRAT using http, while NSUNET sends data over ftp. Same topology is used in all systems—each node sends data directly to the central location (in case of NSUNET two locations are provided for backup purposes). NSUNET system sends data using specific structure and stores them as plain text files. It also has different approach for time synchronization and monitoring issues. The main result of this study is to present how to create system that provides good quality and unchanged data from monitoring sensor to the end user while maintaining whole data structure transmission costs low. Furthermore, data collected from NSUNET were used in order to assess the influence of urbanization on regional climate modification, which leads to the creation of urban climate. Propositions for new system development combining best from all three systems are discussed.

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环境监察系统:回顾与未来发展

监测和记录大量的时间序列数据并使其可供研究是环境监测系统的关键作用。本研究对三种不同的测量监测系统(NSUNET、WAHASTRAT和MERIEXWA)进行了审查，这些系统具有相同的设计，在塞尔维亚北部(伏伊伏丁那省)的不同时间框架内放置。这三种监测系统都有不同的需求和要求，在设计中相应地加以解决。两个系统的供电条件为一次电池和太阳能电池板，而NSUNET仅在夜间持续供电。数据在MERIEXWA中使用二进制协议传输，WAHASTRAT使用http，而NSUNET通过ftp发送数据。所有系统都使用相同的拓扑结构——每个节点直接将数据发送到中心位置(在NSUNET的情况下，提供两个位置用于备份)。NSUNET系统使用特定的结构发送数据，并将其存储为纯文本文件。对于时间同步和监视问题，它也有不同的方法。本研究的主要结果是展示如何创建一个系统，在保持整个数据结构传输成本低的同时，从监测传感器到最终用户提供高质量和不变的数据。此外，利用NSUNET收集的数据，对城市化对区域气候变化的影响进行了评估。讨论了将这三个系统最好地结合起来开发新系统的建议。

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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来源期刊

无线工程与技术(英文)

自引率

0.00%

发文量

118