Utilization of Radio Frequency for Monitoring the Temperature of Hydroponic Plants Based on the Internet of Things
Keywords:
Hydroponic Plants, Radio Frequency, Monitoring System Internet of ThingsAbstract
This research aims to develop a temperature monitoring system for hydroponic plants based on the Internet of Things
(IoT), using the nRF24L01 radio frequency module. The system is designed to monitor the temperature of hydroponic
plants, specifically spinach and chili, and to evaluate its range and efficiency compared to traditional methods such as
GSM and Wi-Fi. With this technology, users can monitor and control the hydroponic environment in real-time
through a smartphone, which can enhance the efficiency and effectiveness of plant cultivation. The research results
indicate that the radio frequency module has a better data transmission range and higher reliability compared to
traditional methods, making it an effective and practical solution for hydroponic monitoring. Additionally, this
system provides significant benefits in improving plant growth and productivity by ensuring optimal environmental
conditions. The use of IoT and radio frequency technology in this research demonstrates great potential for broader
applications in agriculture, particularly in promoting more sustainable and efficient farming practices. These findings
open up opportunities for further development in utilizing technology to support modern, connected, and smart
agriculture.
References
[1] Adek, R. T., Fikry, M., Naluri, H., & . R. (2022). Automatic Control System Using Arduino UNO and Web-Based Monitoring For Watering Chili Plants. Journal of Informatics and Telecommunication Engineering,5(2),510–519. https://doi.org/10.31289/jite.v5i2.5495.
[2] Apri Junaidi. (2015). Internet Of Things, Sejarah, Teknologi Dan Penerapannya. Jurnal Ilmiah Teknologi Informasi Terapan, Vol. 1,No 3, 2015, 62-66.
[3] Budi Raharjo, Imam Heryanto dan Enjang RK. (2012). Modul Pemograman Web (HTML,PHP & MySQL). Bandung : Modula.
[4] Caniago, D. P., & Masril, M. A. (2023). Transformasi Pertanian Dalam Ruangan: Hidroponik Cerdas Berbasis IoT. Indonesian Journal of Computer Science, 12(5), 129–138. https://doi.org/10.33022/ijcs.v12i5.3408.
[5] Febriana, C., Moonlight, L. S., & Suharto, T. I. (2022). Rancangan Monitoring Suhu, Kelembaban Dan Sumber Kelistrikan Utama Di Shelter Dvor Berbasis Arduino Uno Dengan Media Transmisi Radio Link. In Prosiding Snitp (Seminar Nasional Inovasi Teknologi Penerbangan), 6(1), 1-9.https://doi.org/10.46491/snitp.v6i1.1371
[6] Hanifah, S., Akbar, S. R., & Amron, K. (2019). Implementasi Quality of Service pada Protokol Message Queue Telemetry Transport – Sensor Network (MQTT-SN) Berbasis Arduino dan NRF24L01. Jurnal Pengembangan Teknologi Informasi Dan Ilmu Komputer (J-PTIIK) Universitas Brawijaya, 2(10), 4011–4019.
[7] Hergika, G., & Sutarti, S. (2021). Perancangan Internet Of Things (Iot) Sebagai Kontrol Infrastuktur Dan Peralatan Toll Pada Pt. Astra Infratoll Road. PROSISKO: Jurnal Pengembangan Riset dan Observasi Sistem Komputer, 8(2), 86-98.https://doi.org/10.30656/prosisko.v8i2.3862
[8] Indrawan, A. W., Agussalim, A., Riyadi, K., Syaiful, S., & Rizal, A. (2021). ANALISIS RADIO FREKUENSI PADA MULTI-NODE SENSOR BESARAN LISTRIK BERBASIS LORA. In Seminar Nasional Hasil Penelitian & Pengabdian Kepada Masyarakat (SNP2M) (Vol. 6, No. 1, pp. 30-36).
[9] Khair S, U. (2020). Alat Pendeteksi Ketinggian Air Dan Keran Otomatis Menggunakan Water Level Sensor. Wahana Inovasi, 9(1), 9–15.
[10] Kurniawan, A., Wisjhnuadji, T. W., Narendro, A., & Firdaus, R. A. (2020). Sistem Deteksi Lokasi Gempa Menggunakan Arduino Mega 2560, Sensor SW-420, GPS Dan Notifikasi SMS. Bit (Fakultas Teknologi Informasi Universitas Budi Luhur), 17(1), 62-68.https://dx.doi.org/10.36080/bit.v17i1.1016
[11] Laaziri, M., Benmoussa, K., Khoulji, S., & Kerkeb, M. L. (2019). A Comparative study of PHP frameworks performance. Procedia Manufacturing, 32, 864–871. https://doi.org/10.1016/j.promfg.2019.02.295.
[12] Mahdi, Z. (2021). Sistem Monitoring Keamanan Perangkat Frekuensi Radio Lima Titik Dikomunikasi Dan Informatika (Kominfo) Tangerang Banten Berbasis Internet Of Things (Doctoral dissertation, Universitas Komputer Indonesia).
[13] Muchtar, H., & Hakiki, R. S. (2020). Monitoring Suhu Kelembaban dan Polusi Udara Berbasis Raspberry Pi 3 dengan Menggunakan Transmisi Radio Frekuensi. RESISTOR (Elektronika Kendali Telekomunikasi Tenaga Listrik Komputer), 3(2), 61-70.https://doi.org/10.24853/resistor.3.2.61-70
[14] Rahmatullah, R., Kadarina, T. M., Irawan, B. B., Septiawan, R., Rufiyanto, A., Sulistya, B., Santiko, A. B., Adi, P. D. P., Plamonia, N., Shabajee, Kumar, R., & Suhardi. (2023). Design and Implementation of IoT-Based Monitoring Battery and Solar Panel Temperature in Hydroponic System. Jurnal IlmiahTeknik Elektro (JITEKI), 9(3), 810–820. https://doi.org/10.26555/jiteki.v9i3.26729
[15] Rusadi, A., & Ardian, Z. (2024). Implementasi Radio Frekuensi Untuk Memonitoring Suhu Tumbuhan Hidroponik Berbasis IoT. Journal of Informatics and Computer Science, 10(1), 121-124. https://doi.org/10.33143/jics.v10i1.3919
[16] Safarudin, R., Setiawan, D., & Saripurna, D. (2023). Rancang Bangun Sistem Kendali Dan Monitoring Smartclassroom Menggunakan Radio Frequency Identification Berbasis Internet Of Things. Jurnal Sistem Komputer Triguna Dharma (JURSIK TGD), 2(6), 298-306.https://doi.org/10.53513/jursik.v2i6.9152
[17] Setiawan, Y., Tanudjaja, H., & Octaviani, S. (2019). Penggunaan Internet of Things (IoT) untuk Pemantauan dan Pengendalian Sistem Hidroponik. TESLA: Jurnal Teknik Elektro, 20(2), 175. https://doi.org/10.24912/tesla.v20i2.2994
[18] Siregar, S. A., Hamni, M., Simanulang, P. M., Rezeki, S., Jeriko, F., & Aqil, M. (2023). Pemanfaatan Radio Frequency Identification (RFID) Pada Sistem Multi Akses Mahasiswa. Jurnal Komputer Teknologi Informasi dan Sistem Informasi (JUKTISI), 2(1), 208-213.https://doi.org/10.62712/juktisi.v2i1.36
[19] Taufik, T., Nurdin, N., & Taufiq, T. (2023). Penerapan Smart Wastafel Berbasis Internet of Things dengan Menggunakan Aplikasi Blynk dan Cloud. Medika Teknika : Jurnal Teknik Elektromedik Indonesia, 5(1), 67–78. https://doi.org/10.18196/mt.v5i1.19576
[20] Thakur, P., Malhotra, M., & Bhagat, R. M. (2023). IoT-based Monitoring and Control System for Hydroponic Cultivation: A Comprehensive Study. https://doi.org/10.21203/rs.3.rs-2821030/v1
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