Prototype Design IoT Based Air Quality Monitoring Tool for Urban Environment

Catlya Novera Lita; A M H Pardede; Siswan Syahputra

doi:10.59934/jaiea.v4i1.643

Authors

Catlya Novera Lita STMIK KAPUTAMA
A M H Pardede STMIK KAPUTAMA
Siswan Syahputra STMIK KAPUTAMA

DOI:

https://doi.org/10.59934/jaiea.v4i1.643

Keywords:

MQ-135 Sensor, DHT11 Sensor, Blynk, IoT, LCD OLED

Abstract

In rapidly urban environments, air quality has become an important issue that affects public health and the environment. This research aims to design and implement a prototype of an IoT-based air quality monitoring device that can be used to monitor air conditions in urban environments. This prototype uses the DHT11 sensor for measuring temperature and humidity, the MQ135 sensor to detect the concentration of air pollutants such as CO, CO2, ALCOHOL, TOLUENE, NH4, and ACETONE, and an OLED LCD for displaying information. This system uses the NodeMCU ESP8266 as a microcontroller that connects devices to the internet and sends data to the Blynk application platform. The Blynk application serves as a user interface that allows for real-time monitoring of the device through a smartphone. With this system, users can obtain real-time air quality data to protect health and the environment in urban areas. The prototype evaluation shows that this system is effective in monitoring and displaying air quality information, as well as providing easy access to data through the Blynk application.

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References

Erik, M., Nurdiyanto, F., & Hidayat, R. (2024). AeroSense Monitor Integrasi Sensor DHT11 dan MQ135 untuk Pemantauan Kualitas Udara Berbasis Arduino Uno. Jurnal Komputer Dan Elektro Sains, 2(2), 8–11. https://doi.org/10.58291/komets.v2i2.171

Rizky, R. R., & Hakim, Z. (2020). Implementasi Metode Fuzzy Sugeno Untuk Sistem Pengukuran Kualitas Udara Di Kota Pandeglang Berbasis Internet Of Things (IOT). Syntax : Jurnal Informatika, 9(1), 15. https://doi.org/10.35706/syji.v9i1.3439

Siswanto, S., Anif, M., Hayati, D. N., & Yuhefizar, Y. (2019). Pengamanan Pintu Ruangan Menggunakan Arduino Mega 2560, MQ-2, DHT-11 Berbasis Android. Jurnal RESTI (Rekayasa Sistem Dan Teknologi Informasi), 3(1), 66–72. https://doi.org/10.29207/resti.v3i1.797

Rombang, I. A., Setyawan, L. B., & Dewantoro, G. (2022). Perancangan Prototipe Alat Deteksi Asap Rokok dengan Sistem Purifier Menggunakan Sensor MQ-135 dan MQ-2. Techné : Jurnal Ilmiah Elektroteknika, 21(1), 131–144. https://doi.org/10.31358/techne.v21i1.312

Susanto, F., Prasiani, N. K., & Darmawan, P. (2022). Implementasi Internet of Things Dalam Kehidupan Sehari-Hari. Jurnal Imagine, 2(1), 35–40. https://doi.org/10.35886/imagine.v2i1.329

Nasution, A. H. M., Indriani, S., Fadhilah, N., Arifin, C., & Tamba, S. P. (2019). Pengontrolan Lampu Jarak Jauh Dengan Nodemcu Menggunakan Blynk. Jurnal TEKINKOM, 2, 93–98.

F. Fadillah, R. Buaton, and S. Ramadani, “IoT-based Hydroponic Plant Monitoring System”, j. of artif. intell. and eng. appl., vol. 3, no. 1, pp. 38–43, Oct. 2023.

R. Sinaga, N. Novriyenni, and S. Syahputra, “Design of an Automatic Water Faucet System Using the IOT Based HC-SR04 Sensor”, j. of artif. intell. and eng. appl., vol. 3, no. 1, pp. 274–278, Oct. 2023.

Rizky Hidayat, N. Novriyenni, and Siswan Syahputra, “Design of a Temperature Control and Object Motion Detection System in the Server Room Using IOT-Based Wemos D1”, j. of artif. intell. and eng. appl., vol. 3, no. 1, pp. 323–327, Oct. 2023.

Muhammad Alfanny, Achmad Fauzi, and Hermansyah Sembiring, “Design and Build a System for Turning on an IoT-Based Motorcycle Starter Using Voice”, j. of artif. intell. and eng. appl., vol. 3, no. 1, pp. 357–362, Oct. 2023.

Rizki juli syahputra, “Monitoring The Temperature And Humidity Air In The Room Using A Sensor IOT-Based DHT-11”, j. of artif. intell. and eng. appl., vol. 3, no. 1, pp. 363–367, Oct. 2023.