Design and Implementation of a Wireless Sensor Network for Precision Agriculture Operating in API Mode

机译：API模式下的精准农业无线传感器网络的设计与实现

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This paper presents a Wireless Sensor Network (WSN) solution applied to Precision Agriculture (PA) capable of collecting real time data on different parameters related to agriculture. The technological advances related to this activity are of great importance since agriculture is considered an economic and social pillar essential for the wellbeing of society. In addition, the growing demand for real-time information in the agriculture field has driven the development of efficient wireless communications via sensor networks. WSN provides low cost, low energy consumption, easy to implement solution in places of difficult access for the implementation of wired networks. Precision agriculture is a way to optimize resources and improve cultivation through the collection of relevant information through the deployment of sensor networks, providing government authorities with statistical information to make appropriate decisions based on reliable data. The present research describes the design, implementation and validation process of a WSN technological solution which can collect information related to humidity, environment and soil temperature, atmospheric pressure, level of luminosity and UV radiation; this information is relevant to determine optimal parameters for cultivation and farming methods using IoT technologies for Big Data analysis at the government level.

机译：本文提出了一种应用于精确农业（PA）的无线传感器网络（WSN）解决方案，该解决方案能够收集有关农业的不同参数的实时数据。由于农业被认为是社会福祉必不可少的经济和社会支柱，因此与这项活动有关的技术进步非常重要。此外，农业领域对实时信息的需求不断增长，推动了通过传感器网络的高效无线通信的发展。 WSN在难以访问的地方为有线网络的实现提供了低成本，低能耗，易于实现的解决方案。精确农业是通过部署传感器网络收集相关信息来优化资源并改善耕种的一种方法，可为政府当局提供统计信息，以便根据可靠数据做出适当的决策。本研究描述了一种WSN技术解决方案的设计，实施和验证过程，该解决方案可以收集与湿度，环境和土壤温度，大气压力，光度和紫外线辐射有关的信息。此信息与在政府层面使用物联网技术进行大数据分析时确定最佳的栽培和耕作方法参数有关。

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《International Conference on eDemocracy eGovernment》|2018年|144-149|共6页
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作者
Jorge Granda-Cantuña; Carlos Molina-Colcha; Sergio-Enrique Hidalgo-Lupera; Christian-David Valarezo-Varela;
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Wireless sensor networks; Agriculture; Temperature measurement; Temperature sensors; Databases; Humidity; Graphical user interfaces;

机译：无线传感器网络;农业;温度测量;温度传感器;数据库;湿度;图形用户界面;

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专利

1. Design and Implementation of a Wireless Sensor Network on Precision Agriculture [J] . Qingyun Pan, Kim-Kwang Raymond Choo Advances in computational sciences and technology . 2019,第2期

机译：精密农业无线传感器网络的设计与实现
2. A Solar Energy Forecast Model Using Neural Networks: Application for Prediction of Power for Wireless Sensor Networks in Precision Agriculture [J] . Wireless personal communications: An Internaional Journal . 2020,第4期

机译：使用神经网络的太阳能预测模型：精密农业中无线传感器网络电力预测的应用
3. Design optimization of wireless sensor networks in precision agriculture using improved BQIGSA [J] . Mina Mirhosseini, Fatemeh Barani, Hossein Nezamabadi-pour Sustainable Computing . 2017,第deca期

机译：改进型BQIGSA在精准农业中无线传感器网络的设计优化
4. Design and Implementation of a Wireless Sensor Network for Precision Agriculture Operating in API Mode [C] . Jorge Granda-Cantu?a, Carlos Molina-Colcha, Sergio-Enrique Hidalgo-Lupera, International Conference on eDemocracy eGovernment . 2018

机译：用于API模式的精密农业无线传感器网络的设计与实现
5. Wireless sensor network for precision agriculture: Design, Performance Modeling and Evaluation, and Node Localization. [D] . Sahota, Herman Singh. 2013

机译：精准农业无线传感器网络：设计，性能建模和评估以及节点本地化。
6. UAV Path Optimization for Precision Agriculture Wireless Sensor Networks [O] . Gilson E. Just Jr., Marcelo E. Pellenz, Luiz A. de Paula Lima Jr., 2020

机译：精密农业无线传感器网络的UAV路径优化
7. Wireless sensor network for precision agriculture: Design, Performance Modeling and Evaluation, and Node Localization [O] . Sahota, Herman Singh 2013

机译：精准农业无线传感器网络：设计，性能建模和评估以及节点定位

Design and Implementation of a Wireless Sensor Network for Precision Agriculture Operating in API Mode

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