Remote Agriculture Automation Using Wireless Link and IoT Gateway Infrastructure

2015 26th International Workshop on Database and Expert Systems Applications (DEXA) Pub Date : 2015-09-01 DOI:10.1109/DEXA.2015.37

Ž. Nakutis, V. Deksnys, I. Jaruevicius, E. Marcinkevicius, A. Ronkainen, P. Soumi, J. Nikander, T. Blaszczyk, Birger Andersen

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引用次数: 35

Abstract

The publication presents a system architecture for remote agriculture process automation, involving sensors and actuators connected to IoT gateway running OPC UA server. Sensors and actuators are very general and do not need any intelligence related to the process under control. Acquired data processing and control algorithms that produce control stimulus are executed in the gateway. This approach features the advantage of convenient possibilities to change control rules from Cloud services (installing or configuring process controller) without updating firmware of remote sensors/actuators. Throughput of data collection channel (long range radio) and IoT gateway performance are limiting factors for real time control or observation of agriculture processes. Therefore, achievable channel "sensors-OPC UA server" throughput is investigated experimentally. Potential agriculture applications that may benefit from the proposed architecture are identified.

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使用无线链路和物联网网关基础设施的远程农业自动化

该出版物提出了远程农业过程自动化的系统架构，包括连接到运行OPC UA服务器的物联网网关的传感器和执行器。传感器和执行器是非常通用的，不需要任何与控制过程相关的智能。产生控制刺激的采集数据处理和控制算法在网关中执行。这种方法的优点是可以方便地从云服务(安装或配置过程控制器)更改控制规则，而无需更新远程传感器/执行器的固件。数据收集通道(远程无线电)的吞吐量和物联网网关性能是实时控制或观察农业过程的限制因素。因此，对可实现的信道“传感器- opc UA服务器”吞吐量进行了实验研究。确定了可能从拟议的体系结构中受益的潜在农业应用程序。

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

2015 26th International Workshop on Database and Expert Systems Applications (DEXA)

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