Motor Vehicle Security System With ESP32 Using Android Control

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Fahreza Aditya Aryatama S. Samsugi

Abstract

Motor vehicle theft throughout 2023 was 38,438 cases. One of the causes of motor vehicle theft is because the motor vehicle security system is still ineffective and there is no dual security system. This research aims to develop a motorcycle security system utilizing smartphones, specifically those based on the Android operating system, considering that almost everyone owns a smartphone. The increase in the number of motor vehicles is proportional to the rise in criminal activities, such as motorcycle theft. This system is designed to maximize the functionality of smartphones in daily life to enhance motorcycle security. The developed system connects Android to the ESP32 microcontroller using Bluetooth communication. Android acts as the user control medium, sending commands to the ESP32 via Bluetooth. The ESP32 then forwards these commands to the motorcycle, which responds according to the received instructions. The research results show that Android can be effectively used for motorcycle security, including activating the alarm, functioning as the motorcycle key, helping to locate the motorcycle in parking areas, receiving voice and button commands, and providing additional security features. Furthermore, this system allows users to utilize the SmartGuard Motor feature, which offers a primary motorcycle security system function connected via WiFi and Hotspot with a range of 50 meters. This study also demonstrates that Internet of Things (IoT)-based technology can be implemented to enhance the efficiency and security of personal transportation. System testing was conducted under various conditions to ensure its reliability and responsiveness. By leveraging existing technology, this system offers a practical and efficient solution to reduce the risk of motorcycle theft and improve daily user security. The results contribute significantly to efforts to enhance vehicle security in society.

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References
[1] A. Surahman, A. T. Prastowo, and L. A. Aziz, “Rancang Alat Keamanan Sepeda Motor Honda Beat Berbasis Sim Gsm Menggunakan Metode Rancang Bangun,” J. Teknol. dan Sist. Tertanam, vol. 3, no. 1, 2022, doi: 10.33365/jtst.v3i1.1918.
[2] Y. P. Putra and E. Edidas, “Pengembangan Sistem Keamanan Sepeda Motor Mengggunakan Arduino Uno Berbasis Smartphone Android,” Voteteknika (Vocational Tek. Elektron. dan Inform., vol. 8, no. 1, p. 106, 2020, doi: 10.24036/voteteknika.v8i1.107779.
[3] D. Rimanto, “Perancangan Sistem Keamanan Kendaraan Sepeda Motor Menggunakan Mikrokontroller Arduino Bebrbasis Android,” Dr. Disertation Univ. Technol. Yogyakarta, 2019, [Online]. Available: http://eprints.uty.ac.id/4366/
[4] I. Agustine Cahyaningtyas, A. Stefanie, and I. Ibrahim, “Implementasi Esp32 Cam Dan Kodular Berbasis Android Untuk Monitoring Smart Garden,” JATI (Jurnal Mhs. Tek. Inform., vol. 7, no. 4, pp. 2512–2518, 2024, doi: 10.36040/jati.v7i4.7121.
[5] C. Ade Putra Kirana, M. Yusro, and W. Djatmiko, “Sistem Keamanan Sepeda Motor Menggunakan Aplikasi Smartphone Android Berbasis IoT Menggunakan Modul ESP32 CAM dan Modul ESP32,” Risenologi, vol. 8, no. 2, pp. 59–67, 2023, doi: 10.47028/risenologi.v8i2.514.
[6] K. Z. Yonatan, H. S. Utama, and Y. Calvinus, “Aplikasi Kendali ESP32 Menggunakan Sensor Sidik Jari pada Ponsel sebagai Lapisan Keamanan,” Avitec, vol. 6, no. 1, p. 61, 2024, doi: 10.28989/avitec.v6i1.2049.
[7] M. N. Ikhsan, I. Ibrahim, and R. Rahmadewi, “Sistem Keamanan Sepeda Motor dengan Teknologi Biometrik Sidik Jari Menggunakan Sensor Fingerprint R305,” STRING (Satuan Tulisan Ris. dan Inov. Teknol., vol. 7, no. 2, p. 144, 2022, doi: 10.30998/string.v7i2.13797.
[8] F. O. Dayera, Musa Bundaris Palungan, “G-Tech : Jurnal Teknologi Terapan,” G-Tech J. Teknol. Terap., vol. 8, no. 1, pp. 186–195, 2024, [Online]. Available: https://ejournal.uniramalang.ac.id/index.php/g-tech/article/view/1823/1229
[9] C. Z. Zidane and R. Rahmadewi, “523103-Implementasi-Esp-32-Cam-Pada-Alat-Sistem-B7436F44,” pp. 262–265.
[10] R. A. Aristyo, B. Arifin, and M. Ismail, “Rancang Banngun Sistem Keamanan Kendaraan Bermotor Berbasis IoT Dengan Menggunakan Modul NodeMCU dan Aplikasi Android Blynk,” J. DISPROTEK, vol. 12, no. 1, pp. 14–24, 2021.
[11] A. W. Kangnata, A. Noertjahyana, and J. Andjarwirawan, “Sistem Keamanan pada Kendaraan Bermotor Roda Dua dengan Arduino dan Android berbasis Suara,” 2020.
[12] M. F. Dengo, R. H. Dai, L. N. Amali, T. Abdillah, S. Olii, and M. S. Tuloli, “Pengembangan Sistem Informasi Pariwisata Berbasis Android,” Jambura J. Informatics, vol. 4, no. 2, pp. 94–103, 2022, doi: 10.37905/jji.v4i2.15351.
[13] Nadiah, Hasrul Bakri, and Sanatang, “Pengembangan Aplikasi E-Library Berbasis Android di Jurusan Teknik Informatika dan Komputer Universitas Neger Makassar,” Inf. Technol. Educ. J., vol. 1, no. 1, pp. 85–92, 2022, doi: 10.59562/intec.v1i1.219.
[14] F. Asfaroni and R. Amalia, “Aplikasi Pemesanan Menu Makanan dan Minuman pada K&Y Coffee berbasis Android,” Smatika J., vol. 13, no. 01, pp. 32–42, 2023, doi: 10.32664/smatika.v13i01.716.
[15] M. S. Romadlon Ardliyansyah and A. Bachri, “Rancang Bangun Sistem Keamanan Dan Pengendali Jarak Jauh Sepeda Motor Menggunakan Android Berbasis Nodemcu ESP32 dan GPS,” J. FORTECH, vol. 3, no. 1, pp. 27–33, 2022, doi: 10.56795/fortech.v3i1.104.
[16] R. Nandika and E. Amrina, “SISTEM HIDROPONIK BERBASIS INTERNET of THINGS (IoT),” Sigma Tek., vol. 4, no. 1, pp. 1–8, 2021, doi: 10.33373/sigmateknika.v4i1.3253.
[17] W. Yuniarto, I. I, S. S, R. Man, M. Diponegoro, and E. E, “Rancang Bangun Sistem Monitoring Dan Kontrol Energi Listrik Pada Beban 3 Fasa Menggunakan Esp32 Berbasis Internet of Think (Iot),” J. Poli-Teknologi, vol. 22, no. 1, pp. 30–38, 2023, doi: 10.32722/pt.v22i1.5102.
[18] Y. Ridho, S. Samsugi, and D. A. Megawati, “Sistem Keamanan Lingkungan Kampus Berbasis IOT dengan Mikrokontroler Esp32 Dan Aplikasi Berbasis Web,” J. Ris. Sist. Inf. Dan Tek. Inform. (JURASIK, vol. 9, no. 1, pp. 374–382, 2024, [Online]. Available: https://tunasbangsa.ac.id/ejurnal/index.php/jurasik
[19] A. S. Savitri and A. T. Hanuranto, “Desain Dan Implementasi Keamanan Sistem GPS Dengan History Perjalanan Pada Sepeda Motor Berbasis Internet of Things,” e-proceeding Eng., vol. 8, no. 5, pp. 4874–4882, 2021.
[20] S. Atin, D. Abdullah, Y. Darmi, and M. H. Rifqo, “Sistem Keamanan Kendaraan Roda Dua Berbasis Internet Of Things (IOT),” J. Media Infotama, vol. 19, no. 2, pp. 272–277, 2023, doi: 10.37676/jmi.v19i2.3948.
[21] A. R. M. Maldini, “Rancang Bangun Sistem Keamanan Kendaraan Bermotor Roda Dua Berbasis Internet of Things dengan Modul NodeMCU ESP8266 V3 dan ESP32-CAM,” Electrician, vol. 16, no. 2, pp. 215–222, 2022, doi: 10.23960/elc.v16n2.2291.
[22] A. P. Putra, “Sistem Keamanan Sepeda Motor Berbasis Iot (Internet of Things) Dengan Smartphone Menggunakan Nodemcu,” JTT (Jurnal Teknol. Terpadu), vol. 9, no. 1, pp. 77–87, 2021, doi: 10.32487/jtt.v9i1.1112.
[23] L. Fitriani Ishak, “Sistem Keamanan Sepeda Motor Berbasis Fingerprint (Motorcycle Security System Fingerprint Based),” vol. XX, no. Xx, pp. 170–180, 2023, [Online]. Available: http://jurnal.umt.ac.id/index.php/jt/index
[24] M. Faiz Mubny, R. A. Fasri, R. A. Fasri, D. Ade, and H. Capah, “Seminar Nasional Pengaplikasian Telematika (SINAPTIKA) Aplikasi Keamanan Kendaraan Bermotor dengan Arduino berbasis Android Kunci Kualitas Aman (KUKUA),” Univ. Mercu Buana, vol. 1, no. 1, p. 11650, 2021.