Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm

Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm

Plant growth and development are negatively affected by a wide range of external stresses, including water deficits. Especially, plants generally reduce the stomatal aperture to decrease transpiration levels upon drought stress. Advanced technologies, such as wireless communications, the Internet of...

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Bibliographic Details
Main Authors: Healin Im, Sungho Lee, Muhammad Naqi, Chanhui Lee, Sunkook Kim
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Electronics
Subjects:
smart farm
flexible device
drought stress
sensor
real-time monitoring
Online Access:http://www.mdpi.com/2079-9292/7/7/114
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spelling doaj-6d0968868e804a5aa0b110cbec8f65402020-11-25T00:03:31ZengMDPI AGElectronics2079-92922018-07-017711410.3390/electronics7070114electronics7070114Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart FarmHealin Im0Sungho Lee1Muhammad Naqi2Chanhui Lee3Sunkook Kim4School of Advanced Materials Science & Engineering, Sungkyunkwan University, Suwon 440-745, KoreaKorea Electronics Technology Institute, Gyeonggi 13488, KoreaSchool of Advanced Materials Science & Engineering, Sungkyunkwan University, Suwon 440-745, KoreaCollege of Life Sciences, Kyunghee University, Youngin 446-701, KoreaKorea Electronics Technology Institute, Gyeonggi 13488, KoreaPlant growth and development are negatively affected by a wide range of external stresses, including water deficits. Especially, plants generally reduce the stomatal aperture to decrease transpiration levels upon drought stress. Advanced technologies, such as wireless communications, the Internet of things (IoT), and smart sensors have been applied to practical smart farming and indoor planting systems to monitor plants’ signals effectively. In this study, we develop a flexible polyimide (PI)-based sensor for real-time monitoring of water conditions in tobacco plants. The stoma response, by which a plant adjusts to drought stress to maintain homeostasis, can be confirmed through the examination of evaporated water. Using a flexible PI-based sensor, a plant’s response variation is translated into an electrical signal. The sensors are integrated with a Bluetooth (BLE) module and a processing module and show potential as smart real-time water sensors in smart farms.http://www.mdpi.com/2079-9292/7/7/114smart farmflexible devicedrought stresssensorreal-time monitoring
collection DOAJ
language English
format Article
sources DOAJ
author Healin Im
Sungho Lee
Muhammad Naqi
Chanhui Lee
Sunkook Kim
spellingShingle Healin Im
Sungho Lee
Muhammad Naqi
Chanhui Lee
Sunkook Kim
Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm
Electronics
smart farm
flexible device
drought stress
sensor
real-time monitoring
author_facet Healin Im
Sungho Lee
Muhammad Naqi
Chanhui Lee
Sunkook Kim
author_sort Healin Im
title Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm
title_short Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm
title_full Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm
title_fullStr Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm
title_full_unstemmed Flexible PI-Based Plant Drought Stress Sensor for Real-Time Monitoring System in Smart Farm
title_sort flexible pi-based plant drought stress sensor for real-time monitoring system in smart farm
publisher MDPI AG
series Electronics
issn 2079-9292
publishDate 2018-07-01
description Plant growth and development are negatively affected by a wide range of external stresses, including water deficits. Especially, plants generally reduce the stomatal aperture to decrease transpiration levels upon drought stress. Advanced technologies, such as wireless communications, the Internet of things (IoT), and smart sensors have been applied to practical smart farming and indoor planting systems to monitor plants’ signals effectively. In this study, we develop a flexible polyimide (PI)-based sensor for real-time monitoring of water conditions in tobacco plants. The stoma response, by which a plant adjusts to drought stress to maintain homeostasis, can be confirmed through the examination of evaporated water. Using a flexible PI-based sensor, a plant’s response variation is translated into an electrical signal. The sensors are integrated with a Bluetooth (BLE) module and a processing module and show potential as smart real-time water sensors in smart farms.
topic smart farm
flexible device
drought stress
sensor
real-time monitoring
url http://www.mdpi.com/2079-9292/7/7/114
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AT sungholee flexiblepibasedplantdroughtstresssensorforrealtimemonitoringsysteminsmartfarm
AT muhammadnaqi flexiblepibasedplantdroughtstresssensorforrealtimemonitoringsysteminsmartfarm
AT chanhuilee flexiblepibasedplantdroughtstresssensorforrealtimemonitoringsysteminsmartfarm
AT sunkookkim flexiblepibasedplantdroughtstresssensorforrealtimemonitoringsysteminsmartfarm
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