Abstract
This research started from plant observation, preparation, design of component and circuit specifications, assembly, work steps, and evaluation. The results of the study will prove the tool works or not, if the soil moisture sensor detects the soil moisture is reduced by 50%, then the sensor will respond and send a signal to the microcontroller to activate the relay so that the pump will turn on automatically. The monitoring system on the device can be accessed via a smartphone, the signal is sent by the smartphone and then captured by the microcontroller, then processed and the output can be an image of the monitored plant. This tool is also equipped with a water reservoir that can also be monitored from a smartphone. If the water in the reservoir reaches 30% of the capacity of the reservoir, the Water Level sensor will send a signal to the microcontroller and warn that the water level is very low, then send an order to the owner to immediately fill the reservoir. At night this tool is also equipped with an LDR sensor if the light intensity is less then the LED will light up.
References
M. B. Ulum and D. H. R. Saputra, “Otomatis Spray Disinfektan Kandang Ayam Dengan Android Berbasis Arduino Uno,” vol. 2, pp. 28–32, 2020.
B. F. Günthardt et al., “RANCANG BANGUN SMART GARDEN BERBASIS IoT MENGGUNAKAN APLIKASI BLYNK,” Director, vol. 15, no. 29, pp. 7577–7588, 2018, [Online]. Available: https://www.uam.es/gruposinv/meva/publicaciones jesus/capitulos_espanyol_jesus/2005_motivacion para elaprendizaje Perspectiva alumnos.pdf%0Ahttps://www.researchgate.net/profile/Juan_Aparicio7/publication/253571379_Los_estudios_s obre_el_cambio_conceptual_.
F. Fathurrahmani and A. Noor, “Smartpot untuk Efisiensi Monitoring Tanaman Hias Berbasis IoT,” Sisfotenika, vol. 9, no. 2, p. 203, 2019, doi: 10.30700/jst.v9i2.490.
T. Thamaraimanalan, S. P. Vivekk, G. Satheeshkumar, and P. Saravanan, “Smart Garden Monitoring System Using IOT,” Asian J. Appl. Sci. Technol. (Open Access Q. Int. J., vol. 2, no. 2, pp. 186–192, 2018, [Online]. Available: www.ajast.net.
R. K. Ghito and N. Nurdiana, “Rancang Bangun Smart Garden System Menggunakan Sensor Soil Moisture dan Arduino Berbasis Android (Studi Kasus : : Di Gerai Bibit Narnea Cikijing),” Univ. Majalengka, pp. 166–170, 2018.
M. Sambath, M. Prasant, N. Bhargav Raghava, and S. Jagadeesh, “Iot based garden monitoring system,” J. Phys.Conf. Ser., vol. 1362, no. 1, 2019, doi: 10.1088/1742-6596/1362/1/012069.
M. S. Titiek Widyastuti, “BUKU TANAMAN HIAS-upload.pdf.” 2018.
N. Hidayati et al., “Prototype smart home dengan modul nodemcu esp8266 berbasis internet of things (iot).”
EINSTRONIC, “Nodemcu,” Einstronic, 2017.
B. A. B. Ii and D. Teori, “Gambar 1.1 Board NodeMcu 3,” pp. 3–9, 2019.
M. T. Setiawan, “Skripsi pemanfaatan sensor rfid untuk mengakses database di pt. jasuindo arjowiggins security,” 2020.
U. I. Gorontalo and I. O. Things, “MONITORING KELEMBABAN TANAH PERTANIAN MENGGUNAKAN SOIL MOISTURE SENSOR FC- 28 DAN ARDUINO UNO,” vol. 10, pp. 237–243, 2018.
C. A. M. Wi-fi and B. T. S. Module, “ink er,” pp. 1–4.
V. A. Suoth, H. I. . Mosey, and R. C. Telleng, “Rancang bangun alat pendeteksi intensitas cahaya berbasis Sensor Light Dependent Resistance (LDR),” J. MIPA, 2018, doi: 10.35799/jm.7.1.2018.19609.
R. H. Sampieri, “2 Channel 5v 10A Relay Module,” p. 634, 2019.
P. Soni and K. Suchdeo, “EXPLORING THE SERIAL CAPABILITIES FOR 16x2 LCD INTERFACE,” Int. J.Emerg. Technol. Adv. Eng., vol. 2, no. 11, pp. 109–112, 2018.
M. M. Wurfel, “Temperature and Humidity Module,” Aosong Guangzhou Electron. Co., Ltd, 2018, [Online].Available: www.aosong.com.
D. Srivastava, A. Kesarwani, and S. Dubey, “Measurement of Temperature and Humidity by using Arduino Tool and DHT11,” Int. Res. J. Eng. Technol., vol. 05, no. 12, pp. 876–878, 2018.
Pleva GmbH, “Temperature sensor,” Melliand Textilberichte, vol. 76, no. 12, p. 1112, 1995, doi: 10.1007/978-3-319-19303-8_17.
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