Rancang Bangun Sistem Monitoring Kebun Menggunakan Sensor PIR dan ESP32-Cam Berbasis IoT
Keywords:
Internet of Things (IoT); PIR sensor; ESP32-Cam; Telegram BOT; BuzzerAbstract
Abstract: This research focuses on the development of an Internet of Things (IoT)-based garden monitoring system designed to assist in the automatic supervision of plantation areas. The problem addressed is the difficulty in detecting the movement of pest animals in real time; therefore, this study aims to build a system capable of detecting, recording, and sending rapid movement notifications to users via a Telegram BOT. The method used is an experimental approach involving the design and testing of a system consisting of an ESP32 microcontroller as the control center, a Passive Infrared (PIR) sensor as a motion detector, an ESP32-Cam module as an image capture device, and a buzzer as an audio indicator. The research results show that the developed system works effectively in detecting the movement of animals or other objects, automatically capturing images, and transmitting monitoring results in real time through Telegram. The synthesis of these findings indicates that the integration of PIR sensors and ESP32-Cam provides an efficient solution for IoT-based garden security systems. It is concluded that this system not only improves the effectiveness of garden monitoring but also has potential for further development in terms of accuracy, detection intelligence, and integration with other monitoring systems.
References
[1] Adafruit. (n.d.). Ai Thinker ESP32‑CAM (CircuitPython). Retrieved October 13, 2025, from https://circuitpython.org/board/ai-thinker-esp32-cam/
[2] Bayu, R. B. S., & Astutik, R. P. (2021). Rancang bangun smarthome berbasis qr code dengan mikrokontroller module esp32. JASEE Journal of Application and Science on Electrical Engineering, 2(01), 47-60.
[3] Hakiki, M. I., Darusalam, U., & Nathasia, N. D. (2020). Konfigurasi Arduino IDE Untuk Monitoring Pendeteksi Suhu dan Kelembapan Pada Ruang Data Center Menggunakan Sensor DHT11. METODE, 7, 8.
[4] Juliansyah, A., & Nadiani, D. (2021). Sistem Pendeteksi Gerak Menggunakan Sensor PIR dan Raspberry Pi (Motion Detection System Using PIR Sensors and Raspberry Pi). 2(4), 199–205.
[5] Lutviansyah, A., Pratama, K. A., Raafi, S. H., Panyol, A. P. S., & Buana, P. A. (2025). Edukasi Infrastruktur Internet of Things (IoT) Untuk Meningkatkan Keamanan Rumah dan Lingkungan di Era Society 5.0. KOMTEKS, 4(1).
[6] Nasution, F. A., Muthmainnah, M., Nanda, S. A., Fadliani, F., Ridwan, T. M., & ZA, N. (2024). Peran Internet Of Thing (Iot) Dalam Perkembangan Teknologi Untuk Petani Garam Tambak Ujung Pusong Jaya. Jurnal Malikussaleh Mengabdi, 3(2), 410-420.
[7] Novianti, A. (2020). Rancang Bangun Sistem Pendeteksi Kebakaran Menggunakan Esp32-Cam Berbasis Iot (Software) (Doctoral dissertation, Politeknik Negeri Sriwijaya).
[8] Nurhapsari, N., Paembonan, S., & Suppa, R. (2025). RANCANG Bangun Sistem Pendeteksi Kebocoran Gas Berbasis IoT. Jurnal Informatika Dan Teknik Elektro Terapan, 13(1). https://doi.org/10.23960/jitet.v13i1.5594
[9] Pasaribu, B., & Susanti, W. (2021). Sistem Informasi Pengajuan Rancangan Usulan Penelitian Menggunakan PHP Native dan Bot Telegram. Jurnal Mahasiswa Aplikasi Teknologi Komputer dan Informasi (JMApTeKsi), 3(1), 29-38.
[10] Prastyo, E. A. (2022, November 1). Penjelasan tentang sensor PIR (Passive Infrared Receiver). Arduino Indonesia. Retrieved from https://www.arduinoindonesia.id/2022/11/penjelasan-tentang-sensor-pir.html
[11] Prastyo, E. A. (2025, May 1). Apa itu NodeMCU dan bagaimana bedanya dengan ESP32? Arduino Indonesia. Retrieved [your access date], from https://www.arduinoindonesia.id/2025/05/apa-itu-nodemcu-dan-bagaimana-bedanya-dengan-esp32.html
[12] Prastyo, E. A. (2025, April 23). Fungsi dan cara kerja buzzer dalam proyek elektronika. Arduino.Biz.ID. Retrieved [your access date], from https://www.arduino.biz.id/2025/04/fungsi-dan-cara-kerja-buzzer-dalam-proyek-elektronika.html
[13] Rudi, K. (2020). Perancangan Dan Implementasi Alat Pendeteksi Hewan Pengganggu Tanaman Kebun Pertanian Menggunakan Sensor Pir Dan Sms Gateway Berbasis Mikrokontroller (Doctoral Dissertation, Universitas Pasir Pengaraian).
[14] Salsabila, N. F. Y. (2024, August 6). 30 Bot Telegram terbaik untuk meningkatkan produktivitas sehari-hari Anda. Tekingame Indozone. Retrieved [your access date], from https://tekingame.indozone.id/tips/924945455/30-bot-telegram-terbaik-untuk-meningkatkan-produktivitas-sehari-hari-anda
[15] Selay, A., Andigha, G. D., Alfarizi, A., Bintang Wahyudi, M. I., Falah, M. N., Khaira, M., & Encep, M. (2022). Internet Of Things. Karimah Tauhid, 1(6), 860–868. https://doi.org/10.30997/karimahtauhid.v1i6.7633
[16] Setiadi, D., & Abdul Muhaemin, M. N. (2018). Penerapan Internet Of Things (Iot) Pada Sistem Monitoring Irigasi (Smart Irigasi). Infotronik : Jurnal Teknologi Informasi Dan Elektronika, 3(2), 95–102. https://doi.org/10.32897/infotronik.2018.3.2.108
[17] Visayas, V., Cakra, C., & Supit, Y. (2024). Sistem Kontrol Alat Elektronik Dalam Rumah Berbasis Internet Of Things (Iot). Simtek: jurnal sistem informasi dan teknik komputer, 9(2), 249-261.
[18] Prince. (n.d.). How to download Arduino software IDE using Arduino official website. Oku Electronics. Retrieved [date you accessed it], from https://www.okuelectronics.com/featured_item/how-to-download-arduino-software-ide-using-arduino-official-website
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 Jurnal Publikasi Ilmu Komputer dan Multimedia
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
