Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication

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Zeitschriftentitel:	International Journal of Online Engineering (iJOE)
Personen und Körperschaften:	Zhou, Y. H., Duan, J. G.
In:	International Journal of Online Engineering (iJOE), 12, 2016, 5, S. 48
Format:	E-Article
Sprache:	Unbestimmt
veröffentlicht:	International Association of Online Engineering (IAOE)
Schlagwörter:	General Engineering

author_facet	Zhou, Y. H. Duan, J. G. Zhou, Y. H. Duan, J. G.
author	Zhou, Y. H. Duan, J. G.
spellingShingle	Zhou, Y. H. Duan, J. G. International Journal of Online Engineering (iJOE) Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication General Engineering
author_sort	zhou, y. h.
spelling	Zhou, Y. H. Duan, J. G. 1861-2121 1868-1646 International Association of Online Engineering (IAOE) General Engineering http://dx.doi.org/10.3991/ijoe.v12i05.5736 <jats:p>A greenhouse provides a stable and suitable environment for the growth of plants. Temperature and humidity are closely related to plant growth. These factors directly affect the water content of plants and the quality of fruits. To solve the problems in the current monitoring system of greenhouse cultivation, such as complicated wiring, large node power consumption, and so on, this study proposes a wireless sensor network greenhouse-monitoring system based on third-generation network communication for the real-time monitoring of the temperature, humidity, light, and CO<sub>2</sub> concentration in a greenhouse. GS1011M is regarded as the core in developing wireless terminal nodes. PC software is used to build a real-time observation platform. Sensor data are received in real time through a wireless communication network to complete the monitoring of the target area. A simulation research is also conducted. Results show that the power dissipation of the greenhouse environmental monitoring system is low, its data accuracy is high, and its operation is stable.</jats:p> Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication International Journal of Online Engineering (iJOE)
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title	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_unstemmed	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_full	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_fullStr	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_full_unstemmed	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_short	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_sort	design and simulation of a wireless sensor network greenhouse-monitoring system based on 3g network communication
topic	General Engineering
url	http://dx.doi.org/10.3991/ijoe.v12i05.5736
publishDate	2016
physical	48
description	<jats:p>A greenhouse provides a stable and suitable environment for the growth of plants. Temperature and humidity are closely related to plant growth. These factors directly affect the water content of plants and the quality of fruits. To solve the problems in the current monitoring system of greenhouse cultivation, such as complicated wiring, large node power consumption, and so on, this study proposes a wireless sensor network greenhouse-monitoring system based on third-generation network communication for the real-time monitoring of the temperature, humidity, light, and CO<sub>2</sub> concentration in a greenhouse. GS1011M is regarded as the core in developing wireless terminal nodes. PC software is used to build a real-time observation platform. Sensor data are received in real time through a wireless communication network to complete the monitoring of the target area. A simulation research is also conducted. Results show that the power dissipation of the greenhouse environmental monitoring system is low, its data accuracy is high, and its operation is stable.</jats:p>
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author	Zhou, Y. H., Duan, J. G.
author_facet	Zhou, Y. H., Duan, J. G., Zhou, Y. H., Duan, J. G.
author_sort	zhou, y. h.
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description	<jats:p>A greenhouse provides a stable and suitable environment for the growth of plants. Temperature and humidity are closely related to plant growth. These factors directly affect the water content of plants and the quality of fruits. To solve the problems in the current monitoring system of greenhouse cultivation, such as complicated wiring, large node power consumption, and so on, this study proposes a wireless sensor network greenhouse-monitoring system based on third-generation network communication for the real-time monitoring of the temperature, humidity, light, and CO<sub>2</sub> concentration in a greenhouse. GS1011M is regarded as the core in developing wireless terminal nodes. PC software is used to build a real-time observation platform. Sensor data are received in real time through a wireless communication network to complete the monitoring of the target area. A simulation research is also conducted. Results show that the power dissipation of the greenhouse environmental monitoring system is low, its data accuracy is high, and its operation is stable.</jats:p>
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spelling	Zhou, Y. H. Duan, J. G. 1861-2121 1868-1646 International Association of Online Engineering (IAOE) General Engineering http://dx.doi.org/10.3991/ijoe.v12i05.5736 <jats:p>A greenhouse provides a stable and suitable environment for the growth of plants. Temperature and humidity are closely related to plant growth. These factors directly affect the water content of plants and the quality of fruits. To solve the problems in the current monitoring system of greenhouse cultivation, such as complicated wiring, large node power consumption, and so on, this study proposes a wireless sensor network greenhouse-monitoring system based on third-generation network communication for the real-time monitoring of the temperature, humidity, light, and CO<sub>2</sub> concentration in a greenhouse. GS1011M is regarded as the core in developing wireless terminal nodes. PC software is used to build a real-time observation platform. Sensor data are received in real time through a wireless communication network to complete the monitoring of the target area. A simulation research is also conducted. Results show that the power dissipation of the greenhouse environmental monitoring system is low, its data accuracy is high, and its operation is stable.</jats:p> Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication International Journal of Online Engineering (iJOE)
spellingShingle	Zhou, Y. H., Duan, J. G., International Journal of Online Engineering (iJOE), Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication, General Engineering
title	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_full	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_fullStr	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_full_unstemmed	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_short	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
title_sort	design and simulation of a wireless sensor network greenhouse-monitoring system based on 3g network communication
title_unstemmed	Design and Simulation of a Wireless Sensor Network Greenhouse-Monitoring System Based on 3G Network Communication
topic	General Engineering
url	http://dx.doi.org/10.3991/ijoe.v12i05.5736