Internet of Things based Smart Irrigation Control System for Paddy Field
This study aimed to establish a water-saving irrigation technique-based Smart Field Cultivation Server (SFCS) for paddy field irrigation by employing information and communication technologies. The development of SFCS considered the requirement on rice growth, pest development, and fieldwork managem...
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Universitas Brawijaya
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doaj-ce39b76130d4411aa2debfcff67d60442021-07-14T07:58:16ZengUniversitas BrawijayaAGRIVITA Journal of Agricultural Science0126-05372477-85162021-03-0143237838910.17503/agrivita.v43i2.2936592Internet of Things based Smart Irrigation Control System for Paddy FieldLi-Wei Liu0Mohd Hasmadi Ismail1Yu-Min Wang2Wen-Shin Lin3Department of Civil and Environmental Engineering, Texas A&M University, USA.Faculty of Forestry & Environment, Universiti Putra Malaysia, 43400 UPM, Serdang Selangor, MalaysiaNational Pingtung University of Science and Technology, TaiwanDepartment of Plant Industry, National Pingtung University of Science and Technology, TaiwanThis study aimed to establish a water-saving irrigation technique-based Smart Field Cultivation Server (SFCS) for paddy field irrigation by employing information and communication technologies. The development of SFCS considered the requirement on rice growth, pest development, and fieldwork management. The proposed SFCS is equipped with a solar power supply system and consisted of sensors including illumination, air temperature, air humidity, water level, soil moisture content, soil electronic conductivity, and soil temperature. Narrowband Internet of Things (NB-IoT) is used for data transmission due to the data size and transmitting frequency. A smartphone-based application (APP) has been developed for users to monitor field environment by tabular, dashboard panel, and whisker chart box, provides multiple data display ways for different purposes. Moreover, a proposal for a water-saving irrigation technique named system of probiotics rice intensification (SPRI) has been integrated into the APP. With the developed APP, farmers will receive fieldwork reminders by calendar day that water-saving irrigation may be possibly implemented. The SFCS is not only shown ability on the field monitoring but also links the gap between the fieldwork application and modern technology.https://agrivita.ub.ac.id/index.php/agrivita/article/view/2936irrigation managementsmart agriculturesmart cultivation serversmartphone applicationsri |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Li-Wei Liu Mohd Hasmadi Ismail Yu-Min Wang Wen-Shin Lin |
spellingShingle |
Li-Wei Liu Mohd Hasmadi Ismail Yu-Min Wang Wen-Shin Lin Internet of Things based Smart Irrigation Control System for Paddy Field AGRIVITA Journal of Agricultural Science irrigation management smart agriculture smart cultivation server smartphone application sri |
author_facet |
Li-Wei Liu Mohd Hasmadi Ismail Yu-Min Wang Wen-Shin Lin |
author_sort |
Li-Wei Liu |
title |
Internet of Things based Smart Irrigation Control System for Paddy Field |
title_short |
Internet of Things based Smart Irrigation Control System for Paddy Field |
title_full |
Internet of Things based Smart Irrigation Control System for Paddy Field |
title_fullStr |
Internet of Things based Smart Irrigation Control System for Paddy Field |
title_full_unstemmed |
Internet of Things based Smart Irrigation Control System for Paddy Field |
title_sort |
internet of things based smart irrigation control system for paddy field |
publisher |
Universitas Brawijaya |
series |
AGRIVITA Journal of Agricultural Science |
issn |
0126-0537 2477-8516 |
publishDate |
2021-03-01 |
description |
This study aimed to establish a water-saving irrigation technique-based Smart Field Cultivation Server (SFCS) for paddy field irrigation by employing information and communication technologies. The development of SFCS considered the requirement on rice growth, pest development, and fieldwork management. The proposed SFCS is equipped with a solar power supply system and consisted of sensors including illumination, air temperature, air humidity, water level, soil moisture content, soil electronic conductivity, and soil temperature. Narrowband Internet of Things (NB-IoT) is used for data transmission due to the data size and transmitting frequency. A smartphone-based application (APP) has been developed for users to monitor field environment by tabular, dashboard panel, and whisker chart box, provides multiple data display ways for different purposes. Moreover, a proposal for a water-saving irrigation technique named system of probiotics rice intensification (SPRI) has been integrated into the APP. With the developed APP, farmers will receive fieldwork reminders by calendar day that water-saving irrigation may be possibly implemented. The SFCS is not only shown ability on the field monitoring but also links the gap between the fieldwork application and modern technology. |
topic |
irrigation management smart agriculture smart cultivation server smartphone application sri |
url |
https://agrivita.ub.ac.id/index.php/agrivita/article/view/2936 |
work_keys_str_mv |
AT liweiliu internetofthingsbasedsmartirrigationcontrolsystemforpaddyfield AT mohdhasmadiismail internetofthingsbasedsmartirrigationcontrolsystemforpaddyfield AT yuminwang internetofthingsbasedsmartirrigationcontrolsystemforpaddyfield AT wenshinlin internetofthingsbasedsmartirrigationcontrolsystemforpaddyfield |
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1721303402026106880 |