Design of Quadrotor UAV and Internet-of-Things Based Air Pollution Monitoring Systems

https://doi.org/10.22146/ijitee.51203

Adnan Rafi Al Tahtawi(1*), Erick Andika(2), Maulana Yusuf(3), Wildan Nurfauzan Harjanto(4)

(1) Politeknik Negeri Bandung
(2) Politeknik Sukabumi
(3) Politeknik Sukabumi
(4) Politeknik Sukabumi
(*) Corresponding Author

Abstract


Air pollution is one of problems causing global warming that is currently taking a place. Several air quality monitoring devices usually located at the city center are only limited to display data at one point. Therefore, a mobile device to monitor air quality is needed so as to enable the monitoring in several points. This paper aims to design an air quality monitoring system based on quadrotor Unmanned Aerial Vehicle (UAV) and Internet-of-Things (IoT) technology. The sensor system is designed to detect CO, CO2, air quality, and temperature variables. This sensor systems was then integrated with quadrotor in order to make the monitoring process can be carried out at various points. Quadrotor was designed using Ardupilot Mega (APM) 2.6 as the flight controler. Measurement data from system sensor was transmitted wirelessly using internet network via Wi-Fi module. Based on the test results, the sensor system was able to detect concentration of several test gas and was linear to the output voltage. Quadrotor orientation parameters at takeoff produced transient responses in less than 1 second. The air pollution sensor parameter data could also be displayed every 10 seconds on the ThingSpeak and ThingView interfaces, and could be mapped based on the data retrieval coordinates.

Keywords


Air Pollution; Quadrotor, IoT, ThingSpeak

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References

S.L. Sengkey, F. Jansen, and S. Wallah, “Tingkat Pencemaran Udara CO Akibat Lalu Lintas dengan Model Prediksi Polusi Udara Skala Mikro,” Jurnal Ilmiah Media Engineering, Vol. 1, No. 2, pp. 119-126, 2011.

N. Kusminingrum and G. Gunawan, “Polusi Udara Akibat Aktivitas Kendaraan Bermotor di Jalan Perkotaan Pulau Jawa dan Bali,” Jurnal Puslitbang Jalan dan Jembatan Jakarta, Vol. 25, No. 3, pp. 1-13, 2008.

M. Gharibi, R. Boutaba, and S.L. Waslander, “Internet of Drones,” IEEE Access, Vol. 4, pp. 1148-1162, 2016.

G.S.D. Kumar and A.J. Rajasekhar, “Drone Based Service System Using Internet of Things (IoT) Technology,” International Journal of Scientific Research in Science, Engineering and Technology (IJSRSET), Vol. 4, No. 4, pp. 429-435, 2018.

A.N. Hidayah, D. Triyanto, and Y. Brianorman, “Perancangan Alat Ukur Gas Karbon Monoksida (CO) Berbasis Pesawat Tanpa Awak,” Coding Jurnal Komputer dan Aplikasi, Vol. 2, No. 1, pp. 26-33, 2014.

M. Rossi, D. Brunelli, A. Adami, L. Lorenzelli, F. Menna, and F. Remondino, “Gas-Drone: Portable Gas Sensing System on UAVs for Gas Leakage Localization,” Proc. IEEE SENSORS, 2014, pp. 1-4.

O. Alvear, C.T. Calafate, E. Hernández, J.C. Cano, and P. Manzoni, “Mobile Pollution Data Sensing Using UAVs,” Proc. International Conference on Advances in Mobile Computing and Multimedia (MoMM), 2015, pp. 393-397.

A.C. Peng and C.Y. Hsu, “Integration of an Unmanned Vehicle and Its Application to Real-time Gas Detection and Monitoring,” Proc. IEEE International Conference on Consumer Electronics-Taiwan (ICCE-TW), 2015, pp. 320-321.

B.F. Priyanta, M. Rivai, and R. Dikairono, “Pemetaan Distribusi Gas Polutan Menggunakan Quadcopter Berbasis Autonomous Waypoint Navigation,” Jurnal Teknik ITS, Vol. 5, No. 2, pp. 154-159, 2016.

O. Alvear, N.R. Zema, E. Natalizio, and C.T. Calafate, “Using UAVbased Systems to Monitor Air Pollution in Areas with Poor Accessibility,” Journal of Advanced Transportation, Vol. 2017, pp. 1-14, 2017.

N. Ya’acob, M. Zolkapli, J. Johari, A.L. Yusof, S.S. Sarnin, and A. Zaied, “UAV Environment Monitoring System,” Proc. International Conference on Electrical, Electronics and System Engineering (ICEESE), 2017, pp. 105-109.

H. Mazeh, M. Saied, and C. Francis, “Development of a Multirotorbased System for Air Quality Monitoring,” Proc. Third International Conference on Electrical and Biomedical Engineering, Clean Energy and Green Computing (EBECEGC), 2018, pp. 23-28.

A.R. Al Tahtawi and M. Yusuf, “Implementasi Sistem Kendali Lepas Landas Quadrotor Menggunakan Pengendali PID,” Prosiding Seminar Nasional Energi dan Teknologi (SINERGI), 2017, pp. 160-170.

A.R. Al Tahtawi and M. Yusuf, “Low-cost Quadrotor Hardware Design with PID Control System as Flight Controller,” TELKOMNIKA, Vol. 17, No. 4, pp. 1923-1930, 2019.



DOI: https://doi.org/10.22146/ijitee.51203

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