Autonomous Fire Fighting Mission Using Unmanned Aerial Vehicle Image Processing

Kevser Düzyol; Serkan Budak; Ender Kurnaz; Akif Durdu; İrfan Samur; Metehan Aslanbaş; Emirhan Ayık

Research Article

Year 2023, Volume: 2023 Issue: 18, 1 - 10, 03.07.2023

Kevser Düzyol Serkan Budak Ender Kurnaz Akif Durdu İrfan Samur Metehan Aslanbaş Emirhan Ayık

Abstract

References

[1] Ağgül, B. & Erdemir, G. (2021). Açık Kaynak Kodlu Taşıt Renk Tespit Yazılımı Geliştirilmesi. İstanbul Sabahattin Zaim Üniversitesi Fen Bilimleri Enstitüsü Dergisi, UAKK2020, 47-50. DOI: 10.47769/izufbed.880007.
[2] Riyanto, M., Cholisoddin, I., & Adikara, P. Optimasi Feeder Vehicle Routing Problem pada Distribusi Pengiriman Barang dengan Genetika. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer, vol. 3, no. 11, p. 10712-10720, peb. 2020. ISSN 2548-964X. Tersedia
[3] V. Spurny et al., "Autonomous Firefighting Inside Buildings by an Unmanned Aerial Vehicle," in IEEE Access, vol. 9, pp. 15872-15890, 2021, doi: 10.1109/ACCESS.2021.3052967.
[4] R. Chen, H. Cao, H. Cheng and J. Xie, "Study on Urban Emergency Firefighting Flying Robots Based on UAV," 2019 IEEE 4th Advanced Information Technology, Electronic and Automation Control Conference (IAEAC), 2019, pp. 1890-1893, doi: 10.1109/IAEAC47372.2019.8997723.
[5] H. Qin et al., "Design and implementation of an unmanned aerial vehicle for autonomous firefighting missions," 2016 12th IEEE International Conference on Control and Automation (ICCA), 2016, pp. 62-67, doi: 10.1109/ICCA.2016.7505253.
[6] Özkaya, U., MAKİNECİ, H. B., Öztürk, Ş., & Orhan, O. (2021). Mozaiklenmiş İnsansız Hava Aracı Görüntülerinde Eksik Bölgelerin Exemplar İç Boyaması ile Elde Edilmesi. Geomatik, 6(1), 61-68.
[7] A. Sofwan, Y. A. A. Soetrisno, N. P. Ramadhani, A. Rahmayani, E. Handoyo and M. Arfan, "Vehicle Distance Measurement Tuning using Haversine and Micro-Segmentation," 2019 International Seminar on Intelligent Technology and Its Applications (ISITIA), 2019, pp. 239-243, doi: 10.1109/ISITIA.2019.8937128.

Autonomous Fire Fighting Mission Using Unmanned Aerial Vehicle Image Processing

Year 2023, Volume: 2023 Issue: 18, 1 - 10, 03.07.2023

Kevser Düzyol Serkan Budak Ender Kurnaz Akif Durdu İrfan Samur Metehan Aslanbaş Emirhan Ayık

Abstract

In this study, an adaptive Unmanned Aerial Vehicle (UAV) design and software for fire extinguishing mission has been realized. With a water release mechanism mounted on the designed UAV, water is taken from the determined area and discharged to the determined area. While designing the UAV, attention was paid to ensure that it is fast, light, maneuverable and has a high load carrying capacity. The body is designed to be high strength and lightweight. For this reason, the UAV Octo Quad X8 (4 rotors, 8 motors & propellers) has a chassis type. It is aimed for the UAV to perform this task autonomously. The Python software language will be used to determine the area where the water will be discharged and the Haversine formula will be used. As a result of the experiments, the hit rate of the water to be discharged into the center of the 3-meter pool was 90%.

Keywords

Image processing, Haversine formula, Autonomous flight

References

[1] Ağgül, B. & Erdemir, G. (2021). Açık Kaynak Kodlu Taşıt Renk Tespit Yazılımı Geliştirilmesi. İstanbul Sabahattin Zaim Üniversitesi Fen Bilimleri Enstitüsü Dergisi, UAKK2020, 47-50. DOI: 10.47769/izufbed.880007.
[2] Riyanto, M., Cholisoddin, I., & Adikara, P. Optimasi Feeder Vehicle Routing Problem pada Distribusi Pengiriman Barang dengan Genetika. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer, vol. 3, no. 11, p. 10712-10720, peb. 2020. ISSN 2548-964X. Tersedia
[3] V. Spurny et al., "Autonomous Firefighting Inside Buildings by an Unmanned Aerial Vehicle," in IEEE Access, vol. 9, pp. 15872-15890, 2021, doi: 10.1109/ACCESS.2021.3052967.
[4] R. Chen, H. Cao, H. Cheng and J. Xie, "Study on Urban Emergency Firefighting Flying Robots Based on UAV," 2019 IEEE 4th Advanced Information Technology, Electronic and Automation Control Conference (IAEAC), 2019, pp. 1890-1893, doi: 10.1109/IAEAC47372.2019.8997723.
[5] H. Qin et al., "Design and implementation of an unmanned aerial vehicle for autonomous firefighting missions," 2016 12th IEEE International Conference on Control and Automation (ICCA), 2016, pp. 62-67, doi: 10.1109/ICCA.2016.7505253.
[6] Özkaya, U., MAKİNECİ, H. B., Öztürk, Ş., & Orhan, O. (2021). Mozaiklenmiş İnsansız Hava Aracı Görüntülerinde Eksik Bölgelerin Exemplar İç Boyaması ile Elde Edilmesi. Geomatik, 6(1), 61-68.
[7] A. Sofwan, Y. A. A. Soetrisno, N. P. Ramadhani, A. Rahmayani, E. Handoyo and M. Arfan, "Vehicle Distance Measurement Tuning using Haversine and Micro-Segmentation," 2019 International Seminar on Intelligent Technology and Its Applications (ISITIA), 2019, pp. 239-243, doi: 10.1109/ISITIA.2019.8937128.

There are 7 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Research Article
Authors	Kevser Düzyol Serkan Budak 0000-0002-6125-1634 Ender Kurnaz 0000-0002-6671-348X Akif Durdu 0000-0002-5611-2322 İrfan Samur Metehan Aslanbaş Emirhan Ayık
Early Pub Date	June 1, 2023
Publication Date	July 3, 2023
Submission Date	June 6, 2022
Acceptance Date	December 2, 2022
Published in Issue	Year 2023 Volume: 2023 Issue: 18

Cite

APA	Düzyol, K., Budak, S., Kurnaz, E., Durdu, A., et al. (2023). Autonomous Fire Fighting Mission Using Unmanned Aerial Vehicle Image Processing. Journal of New Results in Engineering and Natural Sciences, 2023(18), 1-10.