A Smart Home Design Based On Arduino
##plugins.themes.academic_pro.article.main##
Abstract
An Arduino-based smart home is the implementation of a smart system that controls various devices in the house such as lights, fans, doors, and others to increase comfort, security, and energy efficiency. Arduino acts as the brain of this system, receiving input from sensors and providing output to the controlled devices. The system can be accessed and controlled remotely via the internet with the Blynk app, allowing users to control their home even when they are not at home. In this design, sensors such as gas sensors, temperature sensors and humidity sensors are used to detect environmental conditions and occupant activities. Arduino uses information from these sensors to make automatic decisions, such as turning on the lights when it detects movement at night or sounding an alarm when there is an LPG gas leak, adjusting the room temperature as needed. Security is also a main focus in this design. Door and window sensors are installed to detect intrusions, and notifications can be sent to users via the Blynk app if there is suspicious activity. By using Arduino as the main platform, this smart home design can be easily customized and developed further according to user needs. From the research results it can be seen that the system has functioned as it should, in accordance with the initial design
##plugins.themes.academic_pro.article.details##
References
[2] Aryza, S., Lubis, Z., Indrawan, MI, Efendi, S., & Sihombing, P. (2021). Menganalisis Pemodelan Berbasis Data Desain Baru Sistem Pembangkit Listrik Piezoelektrik. Institut Penelitian dan Kritikus Internasional Budapest-Jurnal (BIRCI-Journal), 4(3), 5537-5547.
[3] Aryza, S., Wibowo, P., & Saputra, D. (2022, Juli). Rancang Bangun Alat Pengontrolan Proses Pemanasan Produksi Biodisel Dari Minyak Jelantah Berbasis Arduino Mega. Di dalamProsiding Seminar Nasional Sosial, Humaniora, dan Teknologi(hlm. 121-127).
[4] Clifford MJ dan Eastwood D., “Desain pelacak surya pasif baru,” Sol.Energi, vol. 77, tidak. 3 Tahun 2004, hlm. 269–280.
[5] Dedi Setiawan, Joni Eka Candra, Cosmas Eko Suharyanto, "Designing a Home Security Control System with Smart CCTV Using Arduino Based on Telegram", INFOTEKJAR: National Journal of Informatics and Network Technology- Vol. 4 no. 1 (2019) September Edition, pp. 185 – 190.
[6] Central Bureau of Statistics, "Crime Statistics 2018," Central Bureau of Statistics, Jakarta, 2018.
[7] J. Waworundeng, LD Irawan, and CA Pangalila, "Implementation of PIR Sensors as Motion Detectors for Home Security Systems using IoT Platforms," Cogito Smart Journal, vol. 3, no. 2, pp. 152–163, 2017.
[8] Mubarok, I. Sofyan, AA Rismayadi, and I. Najiyah, "Home Security System Using RFID, PIR Sensor and Microcontroller Based GSM Module," Journal of Informatics, vol. 5, no. 1, pp. 137–144, 2018.
[9]. FP Juniawan, DY Sylfania, and EA Dika, "Archive Room Security System Prototype Using SMS Gateway Based Microcontroller," in National Conference on Information Systems, 2018, pp. 1042–1047.
[10] .M. Bimo, B. Setiyono, and A. Sofwan, "Designing a Door Lock System in a Smart Home Using an Atmega16 Microcontroller on the Android Platform," Transient, vol. 6, no. 4, pp. 575–581, 2017.
[11] .MR Asad, OD Nurhayati, and ED Widianto, "Automatic Home Door Security System Via SMS Based on ATMega328P Microcontroller," Journal of Computer Technology and Systems, vol. 3, no. 1, pp. 1–7, 2015.
[12] .D. Widcaksono and M. Masyhadi, "Design of a Secured Door Automatic System for Home Security Using Arduino-Based SMS," Journal of Electrical Engineering Studies, vol. 3, no. 1, pp. 52–66, 2018.
[13] .S. Ramadhan and LB Handoko, "Design of a Home Security System Based on Arduino Mega 2560," Techo.COM, vol. 15, no. 2, pp. 117–124, 2016.