Design of Smart Garden Based On The Internet of Things (IoT)
DOI:
https://doi.org/10.36456/best.vol3.no2.4327Keywords:
Blynk, IoT, Chilli Cultivation, Smart Garden.Abstract
Currently, the control of cultivated plants is still manual, where farmers watering and checking soil moisture on the planting object. However, we cannot avoid technological progress in this life because technological progress will run following scientific advances. Therefore, every innovation is created to provide positive benefits for life. The ideal chili cultivation planning requires information about climatic conditions that play a significant role in chili cultivation is rainfall. Plant growth will be incredible if there is sufficient water supply; humidity for chili plants ranges from 60-80%. Therefore, chili cultivation planning must pay attention to rainfall because related to water availability. Smart Garden prototype design is a solution for taking appropriate actions during extreme weather and reducing human error. A prototype Smart Garden-based Internet of Things (IoT) using the Blynk app as User Interface (GUI) in the monitoring system and using the Soil Moisture sensor as input for soil moisture conditions, where the results of the process are sent via Wemos D1 mini-module to the Blynk server to display the state of soil moisture and automatic watering.
References
Abidin Z, Tijaniyah, Moh. Bachrudin, 2019. Rancang Bangun Pengoperasian Lampu Menggunakan Sinyal Analog Smartphone Berbasis Mikrokontroller. JEECOM, Vol. 1, No. 1
Deni Kurnia. 2016. Rancang Bangun Prototipe Gardening Smart System (GGS) Untuk Perawatan Tanaman Anggrek Berbasis Web. Jurnal SIMETRIS, Vol. No. 1
Efendi, Yoyon. 2018. Internet of Things (IoT) Sistem Pengendalian Lampu Menggunakan Raspberry PI Berbasis Mobile. Jurnal Ilmiah Ilmu Komputer, Vol.4, No.1
Imtiyaz, Prasetio, dan Hidayat. 2017. Sistem Pendukung Keputusan Budidaya Tanaman Cabai Berdasarkan Prediksi Curah Hujan. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer. Vol.1, No.9
Kusuma, Darlis, dan Novianti. 2019. “Implementasi Smart Garden Watering Pada Taman Asrama Universitas Telkom Menggunakan Modul Ethernet Pada Raspberry PI Berbasis IoT”. Vol.5, No.3.
Mukhtar, M. Nushron Ali, and Sagita Rochman. "Analisis Simulasi Proses Ironing Untuk Mengetahui Ketinggian Dinding Berdasarkan Variasi Reduksi Ketebalan Dinding." WAKTU: Jurnal Teknik UNIPA 15.2 (2017): 66-72.
Supriadi, Susila, Sulistyono. 2018. Penetapan Kebutuhan Air Tanaman Cabai Merah (Capsicum annuum L.) dan Cabai Rawit (Capsicum frutescens L.)
Sujiwa, Akbar, and Sagita Rochman. "Pengembangan Sistem Kontrol Serta Monitoring Suhu dan Volume Air Berbasis Web Pada Perangkat Desalinasi Air Laut." SNHRP (2019): 1-9.
Rochman, Sagita, and Bagus Ilham Yunianto. "PROTOTYPE AUTOMATIC LIGHTS CONTROL SYSTEM IN THE MOSQUE AREA BASED ON ARDUINO NANO." BEST: Journal of Applied Electrical, Science, & Technology 1.1 (2019): 32-35.
Rochman, Sagita, and M. Nushron Ali Mukhtar. "CLASSIFICATION OF THE QUALITY OF HONEY USING THE SPECTROFOTOMETER AND MACHINE LEARNING SYSTEM BASED ON SINGLE BOARD COMPUTER." Tibuana 2.01 (2019): 45-49.
Sujiwa, Akbar, Atmiasri Atmiasri, and Edi Purwanto. "SISTEM KONTROL EFISIENSI DAYA OTOMATIS PADA PERANGKAT PROTOTIPE DESALINASI DUAL OUTPUT BERTENAGA SEL SURYA." WAKTU: Jurnal Teknik UNIPA 17.1 (2019): 26-31.
Sujiwa, Akbar, and Endarko Endarko. "Wire-Mesh 16× 16 Capacitance Sensor for Analysis of Capacitance Distribution on Cylindrical Pipe." IPTEK Journal of Proceedings Series 1 (2018): 130-135.
