RANCANG BANGUN PROTOTYPE SISTEM MONITORING KUALITAS UDARA (CO DAN PM2.5) BERBASIS INTERNET OF THINGS STUDI KASUS : Persimpangan Jalan Sadang Purwakarta

Ranti Sugihartanti, - (2024) RANCANG BANGUN PROTOTYPE SISTEM MONITORING KUALITAS UDARA (CO DAN PM2.5) BERBASIS INTERNET OF THINGS STUDI KASUS : Persimpangan Jalan Sadang Purwakarta. S1 thesis, Universitas Pendidikan Indonesia.

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Official URL: https://repository.upi.edu/

Abstract

Peningkatan penggunaan kendaraan bermotor dan perkembangan sektor industri merupakan faktor utama pencemaran udara, termasuk di Kabupaten Purwakarta, Jawa Barat. Meski Purwakarta berada pada titik temu tiga jalur utama lalu lintas yang strategis, daerah ini belum memiliki stasiun pemantauan kualitas udara secara realtime. Penelitian ini bertujuan merancang sistem monitoring kualitas udara berbasis Internet of Things (IoT) yang menggunakan sensor untuk mengirimkan data secara realtime. Metode yang digunakan adalah penelitian Research and Development. Hasilnya, sistem mampu mendeteksi parameter karbon monoksida, Partikulat Matter 2.5, suhu, dan kelembapan dengan akurasi sensor MQ-7 untuk CO sebesar 80%, PM2.5 sebesar 70%, suhu DHT11 sebesar 80%, dan kelembapan DHT11 sebesar 80%. Sistem ini terintegrasi dengan platform ThingSpeak untuk pemantauan online. Dari hasil uji coba di perempatan Sadang, Purwakarta, nilai rata-rata tertinggi CO tercatat pada Rabu siang, PM2.5 pada Senin sore, suhu pada Senin siang, dan kelembapan pada Senin pagi. Meskipun kondisi udara di Purwakarta umumnya baik, parameter PM2.5 perlu mendapat perhatian. ----- The increasing use of motorized vehicles and the development of the industrial sector are the main factors of air pollution, including in Purwakarta Regency, West Java. Although Purwakarta is located at the meeting point of three strategic main traffic routes, this area does not yet have a real-time air quality monitoring station. This study aims to design an Internet of Things (IoT)-based air quality monitoring system that uses sensors to transmit data in real time. The method used is Research and Development research. As a result, the system is able to detect carbon monoxide, Particulate Matter 2.5, temperature, and humidity parameters with an accuracy of the MQ-7 sensor for CO of 80%, PM2.5 of 70%, DHT11 temperature of 80%, and DHT11 humidity of 80%. This system is integrated with the ThingSpeak platform for online monitoring. From the results of the trial at the Sadang intersection, Purwakarta, the highest average CO value was recorded on Wednesday afternoon, PM2.5 on Monday afternoon, temperature on Monday afternoon, and humidity on Monday morning. Although the air conditions in Purwakarta are generally good, the PM2.5 parameter needs attention.

Item Type: Thesis (S1)
Additional Information: https://scholar.google.com/citations?user=497mSRQAAAAJ&hl=id ID SINTA Dosen Pembimbing: Ichwan Nul Ichsan: 6721201 Endah Setyowati: 6681149
Uncontrolled Keywords: Internet of Things, kualitas udara, ThingSpeak, akurasi, ISPU Internet of Things, air quality, ThingSpeak, accuracy, ISPU
Subjects: T Technology > T Technology (General)
T Technology > TD Environmental technology. Sanitary engineering
Divisions: UPI Kampus Purwakarta > S1 Sistem Telekomunikasi
Depositing User: Ranti Sugihartanti
Date Deposited: 26 Aug 2024 02:28
Last Modified: 26 Aug 2024 02:28
URI: http://repository.upi.edu/id/eprint/120507

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