Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking

Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking

In recent years, attention has been paid to wireless sensor networks (WSNs) applied to precision agriculture. However, few studies have compared the technologies of different communication standards in terms of topology and energy efficiency. This paper presents the design and implementation of the...

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Main Authors: Mayra Erazo-Rodas, Mary Sandoval-Moreno, Sergio Muñoz-Romero, Mónica Huerta, David Rivas-Lalaleo, César Naranjo, José Luis Rojo-Álvarez
Format: Article
Language:English
Published: MDPI AG 2018-08-01
Series:Sensors
Subjects:
wireless sensor networks
tomato
greenhouse
ZigBee
WiFi
DigiMesh
LibeliumTM
Online Access:http://www.mdpi.com/1424-8220/18/8/2555
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spelling doaj-062a160ddd524dfa8191b71e39fdc11f2020-11-24T22:00:41ZengMDPI AGSensors1424-82202018-08-01188255510.3390/s18082555s18082555Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network BenchmarkingMayra Erazo-Rodas0Mary Sandoval-Moreno1Sergio Muñoz-Romero2Mónica Huerta3David Rivas-Lalaleo4César Naranjo5José Luis Rojo-Álvarez6Departamento de Eléctrica y Electrónica, Universidad de las Fuerzas Armadas, Av. General Rumiñahui s/n, Sangolquí 171-5-231B, EcuadorDepartamento de Ciencias Exactas, Universidad de las Fuerzas Armadas ESPE, Av. General Rumiñahui s/n, Sangolquí 171-5-231B, EcuadorDepartamento de Teoría de la Señal y Comunicaciones, Sistemas Telemáticos y Computación, Universidad Rey Juan Carlos, 28943 Fuenlabrada, SpainCarrera de Telecomunicaciones, Universidad Politécnica Salesiana, Cuenca 010105, EcuadorDepartamento de Eléctrica y Electrónica, Universidad de las Fuerzas Armadas, Av. General Rumiñahui s/n, Sangolquí 171-5-231B, EcuadorDepartamento de Eléctrica y Electrónica, Universidad de las Fuerzas Armadas, Av. General Rumiñahui s/n, Sangolquí 171-5-231B, EcuadorDepartamento de Teoría de la Señal y Comunicaciones, Sistemas Telemáticos y Computación, Universidad Rey Juan Carlos, 28943 Fuenlabrada, SpainIn recent years, attention has been paid to wireless sensor networks (WSNs) applied to precision agriculture. However, few studies have compared the technologies of different communication standards in terms of topology and energy efficiency. This paper presents the design and implementation of the hardware and software of three WSNs with different technologies and topologies of wireless communication for tomato greenhouses in the Andean region of Ecuador, as well as the comparative study of the performance of each of them. Two companion papers describe the study of the dynamics of the energy consumption and of the monitored variables. Three WSNs were deployed, two of them with the IEEE 802.15.4 standard with star and mesh topologies (ZigBee and DigiMesh, respectively), and a third with the IEEE 802.11 standard with access point topology (WiFi). The measured variables were selected after investigation of the climatic conditions required for efficient tomato growth. The measurements for each variable could be displayed in real time using either a laboratory virtual instrument engineering workbench (LabVIEWTM) interface or an Android mobile application. The comparative study of the three networks made evident that the configuration of the DigiMesh network is the most complex for adding new nodes, due to its mesh topology. However, DigiMesh maintains the bit rate and prevents data loss by the location of the nodes as a function of crop height. It has been also shown that the WiFi network has better stability with larger precision in its measurements.http://www.mdpi.com/1424-8220/18/8/2555wireless sensor networkstomatogreenhouseZigBeeWiFiDigiMeshLibeliumTM
collection DOAJ
language English
format Article
sources DOAJ
author Mayra Erazo-Rodas
Mary Sandoval-Moreno
Sergio Muñoz-Romero
Mónica Huerta
David Rivas-Lalaleo
César Naranjo
José Luis Rojo-Álvarez
spellingShingle Mayra Erazo-Rodas
Mary Sandoval-Moreno
Sergio Muñoz-Romero
Mónica Huerta
David Rivas-Lalaleo
César Naranjo
José Luis Rojo-Álvarez
Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking
Sensors
wireless sensor networks
tomato
greenhouse
ZigBee
WiFi
DigiMesh
LibeliumTM
author_facet Mayra Erazo-Rodas
Mary Sandoval-Moreno
Sergio Muñoz-Romero
Mónica Huerta
David Rivas-Lalaleo
César Naranjo
José Luis Rojo-Álvarez
author_sort Mayra Erazo-Rodas
title Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking
title_short Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking
title_full Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking
title_fullStr Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking
title_full_unstemmed Multiparametric Monitoring in Equatorian Tomato Greenhouses (I): Wireless Sensor Network Benchmarking
title_sort multiparametric monitoring in equatorian tomato greenhouses (i): wireless sensor network benchmarking
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-08-01
description In recent years, attention has been paid to wireless sensor networks (WSNs) applied to precision agriculture. However, few studies have compared the technologies of different communication standards in terms of topology and energy efficiency. This paper presents the design and implementation of the hardware and software of three WSNs with different technologies and topologies of wireless communication for tomato greenhouses in the Andean region of Ecuador, as well as the comparative study of the performance of each of them. Two companion papers describe the study of the dynamics of the energy consumption and of the monitored variables. Three WSNs were deployed, two of them with the IEEE 802.15.4 standard with star and mesh topologies (ZigBee and DigiMesh, respectively), and a third with the IEEE 802.11 standard with access point topology (WiFi). The measured variables were selected after investigation of the climatic conditions required for efficient tomato growth. The measurements for each variable could be displayed in real time using either a laboratory virtual instrument engineering workbench (LabVIEWTM) interface or an Android mobile application. The comparative study of the three networks made evident that the configuration of the DigiMesh network is the most complex for adding new nodes, due to its mesh topology. However, DigiMesh maintains the bit rate and prevents data loss by the location of the nodes as a function of crop height. It has been also shown that the WiFi network has better stability with larger precision in its measurements.
topic wireless sensor networks
tomato
greenhouse
ZigBee
WiFi
DigiMesh
LibeliumTM
url http://www.mdpi.com/1424-8220/18/8/2555
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