Design and Construction of Automatic Lighting System Using Microcontroller Based on Wireless Sensor Network
DOI:
https://doi.org/10.33795/jartel.v15i3.8827Keywords:
Android, Automatic Lighting, Energy Efficiency, Wireless Sensor NetworkAbstract
A manual system that can be improved with an automatic system, one of which is the lighting system. The use of lights in the community today is considered not in accordance with their use, often the lights are still on even though they are not used, this is a waste. The type of research used is manufacturing or development research, this research aims to design and build an automatic lighting system using a Wireless Sensor Network (WSN)-based microcontroller that has a problem of wasting electricity in the use of lights. Based on this problem, an implementation of a wireless sensor network using a microcontroller was made to reduce waste in using electricity. The way the system works is that the node device system will send the sensor reading data to the gateway every time there is a change in the data. After the data is received, the gateway is then uploaded to the firebase database first and then accessed on the user's application on the smartphone. The test results show that the system made by both hardware and software is running according to plan with the detection latency of camera one is per 0.233 milliseconds, the detection latency of camera two is per 0.213 milliseconds, the detection latency of camera three is per 0.219 milliseconds, but this latency is highly dependent on the strength of the Wi-Fi signal used. This system is able to reduce the use of electricity by 5 watts, and 7.5 rupiah per hour.
References
Teknologi Lingkungan, P., Gedung, B., Puspiptek Serpong, K., & Selatan, T. (2019). Penghematan Listrik Rumah Tangga dalam Menunjang Kestabilan Energi Nasional dan Kelestarian Lingkungan Household Electricity Savings to Support National Energy Stability and Environmental Sustainability Arif Dwi Santoso, Muhammad Agus Salim. In Jurnal Teknologi Lingkungan (Vol. 20, Issue 2).
Gustian, E., Triyanto, D., Rismawan, T., Sistem Komputer, J., & MIPA Universitas Tanjungpura Jl Hadari Nawawi, F. H. (2016). Sistem Penerangan Rumah Otomatis Berdasarkan Intensitas Cahaya dan Keberadaan Manusia dalam Ruangan Berbasis Mikrokontroler. In Jurnal Coding, Sistem Komputer Untan (Vol. 04, Issue 2).
Gusti, I., Mastawan, P., Putra, E., Ayu, I., & Giriantari, D. (n.d.). Monitoring Menggunaan Daya Listrik Sebagai Implementasi Internet of Things Berbasis Wireless Sensor Network. Teknologi Elektro, 16(03).
Roma Doni, F. (2020). Akses Kamera CCTV Dari Jarak Jauh Untuk Monitoring Keamanan Dengan Penerapan PSS. Jurnal Sains Dan Manajemen, 8(1).
Hozanna, G., & Nur, D. (2021). Prosiding Seminar Nasional Teknik Elektro dan Informatika (SNTEI) 2021 Makassar.
Yusup, M., Abas Sunarya, P., & Aprilyanto, K. (n.d.). [15]Rancang Bangun Sistem Monitoring Pengukuran Volume Air Berbasis IoT Menggunakan Arduino Wemos. CERITA, 6.
Gulati, K., Kumar Boddu, R. S., Kapila, D., Bangare, S. L., Chandnani, N., & Saravanan, G. (2022). [8]A review paper on wireless sensor network techniques in Internet of Things (IoT). Materials Today: Proceedings, 51, 161–165. https://doi.org/10.1016/j.matpr.2021.05.067
Novi V. (n.d.). Pengertian Penelitian Pengembangan, Fungsi & Cirinya. Retrieved July 2, 2024, from https://www.gramedia.com/literasi/penelitian-pengembangan/
Putri Lukman, M., & Friendly Yorendy Rieuwpassa, Y. (n.d.). Sistem Lampu Otomatis dengan Sensor Gerak, Sensor Suhu dan Sensor Suara Berbasis Mikrokontroler. In Jurnal RESISTOR (Vol. 100, Issue 2). Online. http://jurnal.stiki-indonesia.ac.id/index.php/jurnalresistor
Wijayanti, M. (n.d.). Prototype Smart Home dengan NodeMCU ESP8266 Berbasis IOT. JUIT, 1(2).
Rahmat Irsyada, Muhdlor Auhal Haq, Naila Afina Rohmah, Prima Angga Hadi Saputra, & Roikhatul Jannah. (2022). Implementasi NodeMCU ESP8266 dan Sensor Cahaya Pada Lampu Berbasis Internet Of Things. Jurnal Ilmiah Sistem Informasi Dan Ilmu Komputer, 2(1), 22–32. https://doi.org/10.55606/juisik.v2i1.514
Hartiwi, Y., Rasywir, E., Pratama, Y., & Jusia, P. A. (2020). Jurnal Media Informatika Budidarma Sistem Manajemen Absensi dengan Fitur Pengenalan Wajah dan GPS Menggunakan YOLO pada Platform Android. 4, 1235–1242. https://doi.org/10.30865/mib.v4i4.2522
Jupiyandi, S., Saniputra, F. R., Pratama, Y., Dharmawan, M. R., & Cholissodin, I. (2019).
Pengembangan Deteksi Citra Mobil untuk Mengetahui Jumlah Tempat Parkir Menggunakan CUDA dan Modified YOLO. Jurnal Teknologi Informasi Dan Ilmu Komputer, 6(4), 413. https://doi.org/10.25126/jtiik.2019641275
Guntara, R. G. (2022). Firebase Realtime Database Untuk Aplikasi Point of Sales UMKM Berbasis Cloud Computing Pada Smartphone Android. In Impression JTI (Vol. 1, Issue 2).
Maarif, V., Hidayat, Nur, M., Rahayu, W., Informasi, S., Nusa, S., & Jakarta, M. (n.d.). Aplikasi Pembelajaran Ilmu Tajwid Berbasis Android. In Jurnal Evolusi (Vol. 6).
