Carbon monoxide (CO) is a dangerous gas with no odor, color, or taste and can easily mix with other air around it. This study aims to design and determine the results of measuring CO levels using a drone integrated with an MQ-7 gas sensor and an IoT-based ESP32 nodeMCU by manipulating the time and height of measuring CO levels. The method used is data acquisition in the form of a data retrieval process from the MQ-7 sensor programmed with the ESP32 nodeMCU via the ThingSpeak web.  The results of measurements of CO levels in Ketintang, Surabaya air quality in the medium category at 07.00-11.00 WIB and good at 15.00 WIB. Measurement at 07.00 WIB CO levels are higher than at 11.00 WIB and 15.00 WIB. This can occur because the use of motorized vehicles and the process of burning waste in households is denser. Most of these activities are carried out close to the ground so that the higher the altitude in measuring CO levels, the lower the CO levels detected. Other factors that affect CO levels are temperature, wind speed, and weather when taking measurements. Based on the results of the study, it can be concluded that hours and altitude affect the CO levels produced.

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, 2014.

R. Madugala, and E. G. Aklilu, “Impacts of Environmental Air Pollution on Human Health,” International Journal of Science and Research (IJSR), vol. 6, no. 3, pp. 1104–1107, 2017.

R. Armus et al., Pengelolaan Sampah Padat. Yayasan Kita Menulis, 2022.

K. Amiroh, O. A. Permata, and F. Z. Rahmanti, “Analisis Kualitas Udara untuk Monitoring Kesehatan Lingkungan Rumah Sakit,” Jurnal Nasional Informatika dan Teknologi Jaringan, vol. 4, no. 1, pp. 29–36, 2019.

D. I. Saputra, “PERANCANGAN SISTEM PEMANTAU KEBISINGAN, GETARAN, SUHU, DAN KELEMBABAN RUANG COATING BERBASIS IOT,” Journal of Energy and Electrical Engineering (JEEE), vol. 3, no. 1, 2021.

D. IRAWAN, “RANCANG BANGUN APLIKASI PEMANTAUKADAR ASAP BERBASIS WIRELESS SENSOR NETWORK DI LINGKUNGAN INDOOR,” Prodi Teknik Informatika Universitas PGRI Yogyakarta, 2017.

M. A. A. Prakoso and L. Rakhmawati, “Sistem monitoring kadar karbon monoksida (CO) pada cerobong asap industri dengan komunikasi bluetooth melalui smartphone Android,” Jurnal Teknik Elektro, vol. 7, no. 01, pp. 23–30, 2018.

M. Asmazori, “Rancang Bangun Alat Pendeteksi NOx dan CO Berbasis Mikrokontroler ESP32 dengan Notifikasi Via Telegram dan Suara,” JITCE (Journal of Information Technology and Computer Engineering), vol. 5, no. 02, pp. 57–62, Sep. 2021, doi: 10.25077/jitce.5.02.57-62.2021.

F. Nex, C. Armenakis, M. Cramer, D. A. Cucci, M. Gerke, E. Honkavaara, A. Kukko, C. Persello, and J. Skaloud, “UAV in the advent of the twenties: Where we stand and what is next,” International Society for Photogrammetry and Remote Sensing (ISPRS), vol. 184, pp. 215–242, 2022.

S. Steiniger and A. J. S. Hunter, “The 2012 free and open source GIS software map–A guide to facilitate research, development, and adoption,” Comput Environ Urban Syst, vol. 39, pp. 136–150, 2013.

G. H. Cahyono, “Internet of things (sejarah, teknologi dan penerapannya),” Swara Patra: Majalah Ilmiah PPSDM Migas, vol. 6, no. 3, 2016.

M. Chwalisz, “thingspeak Documentation,” SL ThingSpeak, 2016.

T. R. Fahrisa, “Studi Kualitas Udara (Karbon Monoksida, Sulfur Dioksida dan PM10) dengan Stasiun Pemantau Di Kota Surabaya.,” Intitute Teknologi Sepuluh November, Surabaya, 2017.

J. L. Fetterman, M. J. Sammy, and S. W. Ballinger, “Mitochondrial Toxicity of Tobacco Smoke and Air Pollution,” Comput Environ Urban Syst, vol. 391, pp. 18–33, 2017.

D. Kusumawardani and A. M. Navastara, “Analisis Besaran Emisi Gas CO2 Kendaraan Bermotor Pada Kawasan Industri SIER Surabaya,” Jurnal Teknik ITS, vol. 6, no. 2, Mar. 2018, doi: 10.12962/j23373539.v6i2.24392.

A. A. Kiswandono, “Kajian Indeks Standar Polusi Udara (ISPU) Nitrogen Dioksida (NO2) Di Tiga Lokasi Kota Bandar Lampung,” Analit: Analytical and Environmental Chemistry, vol. 2, no. 1, pp. 42–51, 2017.

S. G. Gupta, M. Ghonge, and P. M. Jawandhiya, “Review of Unmanned Aircraft System (UAS),” SSRN Electronic Journal, 2013, doi: 10.2139/ssrn.3451039.

M. F. Wicaksono, “Hidayat, Mudah Belajar Mikrokontroler Arduino Disertai 23 Proyek, termasuk Proyek Ethernet dan Wireless Client Server.” Bandung: Informatika, 2017.

K. U. P. A. G. FASILKOM and M. F. AKBAR, “PEMANFAATAN SENSOR MQ-135 SEBAGAI MONITORING,” 2021.

Setyaji, “webinar NAFAS Air Quality Report 2021: Bagaimana Kualitas Udara tahun 2021?,” Jakarta, Mar. 2022.

Yuliando, “Strategi Pengendalian Pencemaran Gas Karbon Monoksida (CO) olehAktivitas Transportasi di Kota Padang Sumatera Barat,” J. Presipitasi, vol. 19, no. 2, pp. 262–270, 2017.

M. Ashar, S. Sumarlin, and M. Assiddieq, “Analisis Parameter Karbon Monoksida (CO) dari Aktivitas Transportasi di Sekitar Industri Pertambangan Nikel: Studi Kasus: Jalan Poros Puuruy-Morosi, Desa Puuruy, Kecamatan Morosi, Kabupaten Konawe,” Jurnal TELUK: Teknik Lingkungan UM Kendari, vol. 2, no. 2, pp. 10–15, 2022.

I. Manisalidis, E. Stavropoulou, A. Stavropoulos, and E. Bezirtzoglou, “Environmental and Health Impacts of Air Pollution: A Review,” Front Public Health, 2020.