Cara Mengutip
Abstrak
The development of drone technology has had a significant impact on various sectors, including agriculture, security, and environmental monitoring. The Flysurveil drone was developed under the P2MW program as an innovative solution in IoT-based surveillance systems. This study aims to analyze the Flysurveil drone production process and identify technical challenges encountered in its development. The research methods used include literature review, observation, and technical analysis of the components and systems used in drone production. The results show that the Flysurveil drone production process includes several main stages, namely design, component selection, assembly, and testing. The main components used include Arduino and ESP32 microcontrollers, GPS modules, cameras, and brushless motors controlled by ESCs. However, several technical challenges were encountered, such as optimizing battery life, control system stability, and limitations in real-time data communication. This research is expected to provide insights for drone developers in improving production efficiency and the quality of drone-based surveillance systems. In addition, this research also contributes to the development of more adaptive and competitive drone technology in both domestic and global markets.
Referensi
Abdullah, A. A., Ramadhan, N. F., & Widhiantoro, D. (2020). Sistem kendali drone menggunakan SP Android dan router OpenWRT. In Seminar Nasional Teknik Elektro (Vol. 5, No. 2, pp. 199-203).
Agung, P., Iftikhor, A. Z., Damayanti, D., Bakri, M., & Alfarizi, M. (2020). Sistem rumah cerdas berbasis IoT dengan mikrokontroler NodeMCU dan aplikasi Telegram. Jurnal Teknik Dan Sistem Komputer, 1(1), 8-14.
Ahmad, R., & Iryani, L. (2024, August). Analisis baterai sistem kendali terbang pada rpv fixed wing dengan retractable landing gear. In Prosiding Industrial Research Workshop and National Seminar (Vol. 15, No. 1, pp. 337-344). https://doi.org/10.35313/irwns.v15i1.6259
Dewantoro, W., & Ulum, M. B. (2021). Rancang bangun sistem monitoring kualitas air pada budidaya ikan hias air tawar berbasis IoT. Jurnal Komputasi, 9(2), 67–75.
Harahap, H. Y., Frianto, H. T., & Lubis, R. (2024). Sistem kerja motor brushless dengan electronic speed control pada drone. Jurnal Ilmiah Otomasi, 4(2), 31-35.
Khalish, N. A., Surur, A. Y. F. I., Akbar, M. F., Al-Faruq, M. A. K., & Rimantho, D. (2024, November). The effectiveness of a gps ublox neo-6m v2-based navigational system in a robot car for precision and efficiency in assisting human transportation needs. In Seminar Nasional Teknik Elektro (Semnastek 2024) (Vol. 1, pp. 52-58).
Perdana, M., Putra, M. E., & Matrilindo, F. S. (2020). Kaji eksperimen waktu terbang dan ketangguhan rangka quadcopter berbahan polistiren bekas. bangunan, 10(2), 131-140. https://doi.org/10.21063/jtm.2020.v10.i2.131-140
Permadani, H., Charli, L., & Remora, H. (2024). Penerapan modifikasi matras menggunakan media serabut kelapa untuk meningkatkan kemampuan gerak senam lantai di MA Al-Muhajirin Tugumulyo. Jurnal Intelektualita: Keislaman, Sosial dan Sains, 13(1), 28-33. https://doi.org/10.19109/intelektualita.v13i1.19392
Prabowo, C. A., Saputro, W. H., Ramadhanti, A. S., Rahayuningtyas, A. C., Khoirunisa, A. A., Nurmalita, H. T., ... & Mustofa, M. H. (2022). Analisis sebaran penggunaan lahan Desa Segorogunung dengan menggunakan drone mapping tahun 2022. In Proceeding Biology Education Conference: Biology, Science, Enviromental, and Learning (Vol. 19, No. 1, pp. 1-6).
Purba, A. U., & Yulianti, B. (2019). Analisis pengaruh kecepatan sudut terhadap putaran propeller dan kestabilan quadcopter. Jurnal Teknologi Industri, 8, 27-33. https://doi.org/10.35968/jti.v8i0.665
Putri, D. F. E., Prakoso, L. Y., & Astaryadi, E. S. (2024). Peran teknologi drone dalam meningkatkan efisiensi dan akurasi survei pemetaan. Jurnal Sains dan Teknologi ISTP, 22(1), 85–91.
Romauly, F. (2024). Studi penggunaan teknologi drone dalam pemetaan topografi dan pengawasan proyek konstruksi. WriteBox, 1(2), 1–11.
Silalahi, F. D., & Dian, J. (2021). Implementasi internet of things (iot) dalam monitoring suhu dan kelembaban ruang produksi obat non steril menggunakan arduino berbasis web. JUPITER: Jurnal Penelitian Ilmu dan Teknologi Komputer, 13(2), 62-68. https://doi.org/10.5281/3662.jupiter.2021.10
Siregar, M. A. R. (2023). Penggunaan teknologi drone dalam monitoring dan pengelolaan lahan pertanian. 1–11. https://doi.org/10.31219/osf.io/dmu5g
Sutarti, S., Triyatna, T., & Ardiansyah, S. (2022). Prototype sistem absensi siswa/i dengan menggunakan sensor rfid berbasis arduino uno. PROSISKO Jurnal Pengembangan Riset dan Observasi Sistem Komputer, 9(1), 76-85. https://doi.org/10.30656/prosisko.v9i1.4744
Sutrahitu, G. A. C., Patricia, K. A., Wibowo, D. I., & Alifah, A. N. (2022). Analisis efektivitas drone pengangkut barang menuju kapal. Lomba Karya Tulis Ilmiah, 3(1), 131-146.
Artikel ini berlisensiCreative Commons Attribution-ShareAlike 4.0 International License.
Hak Cipta (c) 2025 Gatot Triantono, Al-Khowarizmi Al-Khowarizmi