Sistem Pendeteksi Bencana Kebakaran Menggunakan ESP32 Dan Arduino Berbasis WEB
Studi Kasus Di Toko Citra Berkah Karangawen Demak
DOI:
https://doi.org/10.61132/neptunus.v2i1.62Keywords:
Fire Disaster, ESP32, Arduino IDE, SensorAbstract
Fire is a threat to human safety, property and the environment. With the increasingly rapid development and progress of development, the risk of fires is increasing. Shophouses or shophouses are places that are prone to fires. The increasingly dense population and the construction of office buildings have created a vulnerability in the event of a fire. Preventive efforts must be carried out by each individual and work unit, so that casualties from fire incidents can be minimized. Fires can cause moral, material and even human life losses. Fires that hit public facilities, of course, cause losses to many people. Shophouse fires often occur suddenly due to short circuits, gas explosions or due to sparks from cigarettes/matches. The research carried out this time focuses on creating a fire detection system using ESP32 and Arduino. The system uses three sensors, namely a temperature sensor, a gas sensor and a fire sensor. Temperature sensors are useful for monitoring room temperature conditions, fire sensors are useful for detecting the presence of fire in a fire disaster and gas sensors are useful for detecting the presence of smoke that appears as a result of a fire disaster. This system uses an ESP32 microcontroller and uses the Arduino IDE application. The results of the fire detection system are expected to reduce the occurrence of fire accidents and also losses caused by fire accidents.
References
Ramayani,T. 2018. Penerapan IoT (Internet Of Things) Untuk Pencegahan Dini Terhadap Kejahatan Begal. Jurnal RESTI.
Hutapea, H. dan Setiawan, Y. R. 2021. Rancang Bangun Sistem Alarm Kebakaran Terintegrasi Berbasis Arduino. JKTE Jurnal Kajian Teknik Elektro, 6(1): 37–59.
Prasetyo, P.C., Setyowati, D. dan Suraya, I. 2020. Implementasi Internet of Things pada Sistem Peringatan Keamanan Toko dari Pencurian dan Kebakaran Menggunakan SMS Gateway Berbasis Arduino. Jurnal Teknologi, 13(2): 112–118.
Inggi, R. dan Pangala, J. 2021. Perancangan Alat Pendeteksi Kebocoran Gas LPG Menggunakan Sensor MQ-2 Berbasis Arduino. Simkom, 6(1): 12–22.
Mulyono, J., Djuniadi, dan Apriaskar, E. 2021. Simulasi Alarm Kebakaran Menggunakan Sensor MQ-2, Flame Sensor Berbasis Mikrokontroler Arduino. Elkom : Jurnal Elektronika Dan Komputer, 14(1): 16–25.
Aulia, R., Fauzan, R. A. dan Lubis, I. 2021. Pengendalian Suhu Ruangan Menggunakan Menggunakan FAN dan DHT11 Berbasis Arduino. CESS (Journal of Computer Engineering, System and Science), 6(1): 30.
Prafanto, A., Budiman, E., Widagdo, P. P., Putra, G. M., dan Wardhana, R. 2021. Pendeteksi Kehadiran menggunakan ESP32 untuk Sistem Pengunci Pintu Otomatis. JTT (Jurnal Teknologi Terapan), 7(1): 37.
Endra, R. Y., Cucus, A., Afandi, F. N., & Syahputra, M. B. (2019). Model Smart Room Dengan Menggunakan Mikrokontroler Arduino Untuk Efisiensi Sumber Daya. Explore: Jurnal Sistem Informasi Dan Telematika, 10(1).
Utomo, P., Sakuroh, L., & Yulinar, F. (2018). Perancangan Sistem Informasi Akademik Berbasis Web di SMP PGRI 174 Cikupa. Jurnal Sisfotek Global, 8(1), 63–68.
Raharjo, J. D., Tullah, R., & Setiana, H. (2019). Sistem Informasi Pemesanan Dan Pembelian Tiket Bus Online Berbasis Web Pada P.O. Budiman. Sisfotek Global, 9(2), 120–125.
