2022
DOI: 10.1088/1755-1315/998/1/012048
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Indoor Hydroponic System Using IoT-Based LED

Abstract: The goal of this research is to design a hydroponic automation system for germination until generative growth based on ESP32 microcontroller, and BLYNK called LOTUS. ESP32 acts as main controller for all sensors and actuators. LOTUS able to control temperature, humidity, irrigation, and automatic lighting. LOTUS uses automatic irrigation with ebb-and-flow method. LOTUS included with LED Drivers that able to regulate the amount of light intensity on LED and provide more power efficient usage level. System succe… Show more

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Cited by 10 publications
(6 citation statements)
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“…[12] Proposes an energy efficient design for smart agriculture with cloud-edge-fog layer structure. For home grown indoor plants, [13] and [14][15] presents the IoT hydroponic set up with LED lights and vertical test beds. With a distinct approach of involving micro fluids, authors in [16] come up with a system using microfluidic based soil nutrition detection unit for measuring pH, EC and nitrate contents in soil using Arduino Atmega.…”
Section: Literature Reviewmentioning
confidence: 99%
“…[12] Proposes an energy efficient design for smart agriculture with cloud-edge-fog layer structure. For home grown indoor plants, [13] and [14][15] presents the IoT hydroponic set up with LED lights and vertical test beds. With a distinct approach of involving micro fluids, authors in [16] come up with a system using microfluidic based soil nutrition detection unit for measuring pH, EC and nitrate contents in soil using Arduino Atmega.…”
Section: Literature Reviewmentioning
confidence: 99%
“…[12] Proposes an energy efficient design for smart agriculture with cloud-edge-fog layer structure. For home grown indoor plants, [13] and [14][15] presents the IoT hydroponic set up with LED lights and vertical test beds. With a distinct approach of involving micro fluids, authors in [16] come up with a system using microfluidic based soil nutrition detection unit for measuring pH, EC and nitrate contents in soil using Arduino Atmega.…”
Section: Literature Reviewmentioning
confidence: 99%
“…Jumiyatun, dkk, dalam penelitiannya yang berjudul Rancang Bangun Sistem Kendali Penanaman Tumbuhan Hortikultura Di Dalam Ruangan Tertutup menjelaskan bahwa alat yang dirancang dapat digunakan untuk mempercepat pertumbuhan tanaman hortikultura di dalam ruangan tertutup tanpa pengaruh cahaya matahari [7]. Sebagai pengganti cahaya matahari dapat menggunakan lampu grow light yang memiliki ultraviolet [8] untuk membantu tanaman dalam melakukan proses fotosintesis. Sedangkan untuk mendeteksi suhu dan kelembapan ruangan menggunakan sensor.…”
Section: Kajian Literaturunclassified