Air is one of the most important elements of life for living things in the world. For humans, the air is an element that is very concerned because it is related to health. In Jakarta, the Air Pollution Standard Index (ISPU) is ranked second as the capital city of a country with poor air quality. Air quality in Jakarta is monitored by an Air Quality Index (AQI) of 160 with parameters in the form of very small pollutant particles with a diameter of fewer than 2.8 micrometres (PM 2.8). The purpose of this research is how we make a tool that can determine the quality of the air around us and can be carried (portable) anywhere easily. In accordance with the 4.0 industrial revolution that everything has been integrated with the Internet of Things (IoT) technology where the public can find out the air condition in real-time. In this study, the prototype method is used as a test. The main components are sensors consisting of MQ-6 (CO₂ and smoke), MQ-7 (CO, LPG, CH₄), MQ135 (Butane, AirQuality), and DHT-11 (Humidity, temperature). From the research that has been done where the air quality in urban areas has a low air quality index by measuring it using a prototype consisting of a gas sensor and Arduino microcontroller, which has been made to produce an average CO₂ of 25 ppm, CO 2330 which has exceeded the threshold, while NH₃ 1.23 and C₄H₁₀ 1120 are still below the threshold. These values are influenced by pollutants generated by transportation such as motorbikes, cars, and land transportation

R. Nayak, M. R. Panigrahy, V. K. Rai, T. A. Rao, and B. Diagram, “IoT Based Air Pollution Monitoring System,” no. 4, pp. 571–575, 2017.

M. R. Deshmukh, S. J. Chavan, R. A. Chavan, and P. G. Atarde, “IOT Based Air & Sound Pollution Monitoring System,” no. 3, pp. 750–753, 2018.

A. M. Leman, “Occupational Safety and Health : Workers and Industrial Safety Monitoring For Sustainable Work Industrialisation and urban renewal has caused widespread problems relating to environments such Author Details :,” no. May, pp. 34–36, 2013.

A. Kurniawati, “DIPONEGORO LAW REVIEW Volume 1, Nomor 2, Tahun 2013,” vol. 1. pp. 1–11, 2013.

P. Y. Sai, “An IoT Based Automated Noise and Air Pollution Monitoring System,” vol. 6, no. 3, pp. 419–423, 2017, doi: 10.17148/IJARCCE.2017.6397.

K. Okokpujie, E. Noma-osaghae, and M. Odusami, “A SMART AIR POLLUTION MONITORING,” no. October, 2018.

S. Kaivonen and E. Ngai, “AC,” Digit. Commun. Networks, 2019, doi: 10.1016/j.dcan.2019.03.003.

G. Swagarya, S. Kaijage, and R. S. Sinde, “Air Pollution Monitoring System based on Wireless Networks - Simulation,” vol. 5, no. 8, pp. 9–16, 2014.

C. Chen, T. Wen, C. Sun, and J. Juang, “A Community Health Service Architecture Based on the Internet of Things on Health-Care,” no. April 2015, 2017, doi: 10.21307/ijssis-2017-477.

B. Carter and R. Ragade, “Message Transformation Services for Wireless Sensor Networks ( MTS-WSN ),” no. January 2006, 2014.

A. Nag, S. C. Mukhopadhyay, and J. Kosel, “Wearable Flexible Sensors : A Review,” no. c, 2017, doi: 10.1109/JSEN.2017.2705700.

J. Blum, Exploring Arduino: Tools and Techniques for Engineering Wizardry. .