A NB-IoT based platform for smart irrigation in vineyard

2021 10th International Conference on Modern Circuits and Systems Technologies (MOCAST) Pub Date : 2021-07-05 DOI:10.1109/MOCAST52088.2021.9493381

A. Liopa-Tsakalidi, Vasileios Thomopoulos, P. Barouchas, A. Kavga, A. Boursianis, S. Goudos, G. Kalamaras, A. Gotsis, K. Maliatsos

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引用次数: 3

Abstract

A novel prototype NB-IoT-based quasi-smart water management platform for irrigation is proposed. The prototype has been deployed in a vineyard in Peta village, Greece, as part of the AREThOU5A project. An IoT framework for regularly and accurately tracking the status of soil hydration and reporting it to a centralized entity for further processing since water needs are directly related to soil moisture is proposed. The framework is based on specialized IoT hardware that includes low-cost microcontrollers with integrated sensor interfaces and telecommunication modems, open-source applications, open and standardized data transfer protocols, with low capital and operating costs. In the vineyard, an IoT end-node have been placed. Each node: i) collects soil moisture and temperature samples at a depth of 20 cm, ii) is battery-powered and has a battery life of several months on a single charge, and iii) connects to the system back-end via NB-IoT. The sensor measurements from the IoT nodes are forwarded to a cloud-based infrastructure using the Constrained Application Protocol (CoAP)/IPv6 protocol using a public mobile network. Data is maintained on a cloud backend and can be accessed in real-time via dashboards from any Internet-connected individual. In terms of hardware integration, operating solutions, networking and connectivity support, the proposed platform offers numerous novel features.

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基于NB-IoT的葡萄园智能灌溉平台

提出了一种新型的基于nb - iot的灌溉准智能水管理平台原型。作为AREThOU5A项目的一部分，原型机已经部署在希腊佩塔村的一个葡萄园中。提出了一个物联网框架，用于定期准确地跟踪土壤水化状态，并将其报告给集中实体进行进一步处理，因为水需求与土壤湿度直接相关。该框架基于专门的物联网硬件，包括集成传感器接口和电信调制解调器的低成本微控制器、开源应用程序、开放和标准化的数据传输协议，具有较低的资本和运营成本。在葡萄园中，放置了一个物联网终端节点。每个节点:i)收集20厘米深度的土壤湿度和温度样本，ii)电池供电，一次充电可使用数月，iii)通过NB-IoT与系统后端连接。来自物联网节点的传感器测量数据通过公共移动网络使用受限应用协议(CoAP)/IPv6协议转发到基于云的基础设施。数据保存在云后端，任何联网的个人都可以通过仪表板实时访问数据。在硬件集成、操作解决方案、网络和连接支持方面，提议的平台提供了许多新颖的功能。

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

2021 10th International Conference on Modern Circuits and Systems Technologies (MOCAST)

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