This research is conducted on the design of noise monitoring system in rooms using the GY-MAX4466 sound sensor based on the Internet of Things. The aim of the research is to produce a noise monitoring system that can measure in real time and has measurement characteristics. The method used consists of problem analysis, design, tool assembly, characteristic test and test result data analysis. The characteristics include accuracy, precision, and overall system test. The resulting monitoring system consists of a monitoring tool and a user interface blynk on a smartphone. The design of the monitoring system utilizes the GY-MAX4466 sound sensor to detect sound intensity level and the NodeMCU ESP8266 as a microcontroller that can exchange data via the internet network. Information on the noise level in the room can be viewed through the blynk application. The results of the test show the system has an accuracy value of  97.58 % and  a precision value of 97.84%. Overall, the system has been successfully implemented. In its implementation in the Electronics, Robotics and Automation Laboratory, the system can effectively monitor noise at a distance of 2 meters.

Kalengkongan, Dringhuzen J. Mamahit, Sherwin R.U.A Sompie, “Rancang Bangun Alat Deteksi Kebisingan Berbasis Arduino Uno.” Jurnal Teknik Elektro Dan Komputer 7 (2): 183–88, 2018.

Rossalia, Dewi. 2019. "Perubahan Respon Pendengaran Karena Pemakaian Earphone," Jurnal Biosains. Vol 21 : hal 22, 2019.

Menteri Negara Lingkungan Hidup. Baku Tingkat Kebisingan. Kementrian Negara Lingkungan Hidup, 1996.

Prasetya, R. Bagus, S. Gunadi, dan E. K. Wati, “Pembuatan Sistem Perancang Peredam Kebisingan.” JIPFRI (Jurnal Inovasi Pendidikan Fisika Dan Riset Ilmiah) 4 (2): 56–64, 2020.

Endra, Robby Yuli, A. Cucus, F. N. Afandi, dan M. B.Syahputra, “Model Smart Room Dengan Menggunakan Mikrokontroler Arduino Untuk Efisiensi Sumber Daya,” Explore: Jurnal Sistem Informasi Dan Telematika 10 (1), 2019.

Nahdhi, F dan H, Dhika, “ Analisis Dampak Internet of Things (IoT) Pada Perkembangan Teknologi Di Masa Yang Akan Datang,” INTEGER: Journal of Information Tecnology, Vol 6 , No 1. hal 33-42, 2021.

Sari, T.E dan T.S. Syahputra, “Pemetaan Dan Monitoring Tingkat Kebisingan Berbasis IoT (Internet Of Things) Di Institut Teknologi Sumatera,”Journal of Science and Applicative Technology. Hal 1-7, 2020.

Achasan, C.M, “Rancang Bangun Alat Pendeteksi dan Pemberi Peringatan Kebisingan Suara Berbasis Arduino ( Studi Kasus: Perpustakaan Universitas Amikom Purwokerto)”. Jurnal SIMETRIS. Vol. 11, No. 2, 2020.

Wilianto dan A. Kurniawan, “Sejarah , Cara Kerja dan Manfaat Internet of Things,” Jurnal MATRIX. Vol 8 (2). Hal 34-41, 2018.

Pamungkas, H dan R. Soleman, “Sistem Peringatan Dini Pada Proses Pengawasan Orang Tua Terhadap Anak Di Pusat Keramaian Berbasis Mikrokontroler Dan Android,” Jurnal Sinusoida, Vol 20 (3). Hal 36-41, 2018

Herianto dan H. Khotimah, “Rancang Bangun Alat Deteksi Kebisingan Pengunjung Perpustakaan Bedasarkan Parameter Tekanan Suara Menggunakan Nodemcu Esp8266,” Jurnal Ilmu Komputer 10 (1): 20–26. 2021