PERANCANGAN MONITORING SUHU BERBASIS INTERNET OF THINGS DENGAN NODE MCU ESP8266, DHT 11 DAN THINGSPEAK

Fahrus Salam; Onki Alexander

doi:10.33884/jif.v11i01.6546

Authors

Fahrus Salam Jakarta GLobal University
Onki Alexander Jakarta Global University,

DOI:

https://doi.org/10.33884/jif.v11i01.6546

Keywords:

Monitoring, Sensor Suhu HDT 11, NodeMCU ESP8266, Thingspeak

Abstract

Monitoring temperature is an aspect that we need to know so that we can know the standard of temperature and humidity in a place. The purpose of this study is that we monitor temperature and humidity levels in real-time, so an Internet of Things (IoT) based Temperature Monitoring Design is made for DHT11 temperature and humidity sensors whose data can be acquired using the NodeMCU ESP8266 microcontroller connected to the internet or wifi. sent to ThingSpeak as the data-receiving server. After the data is entered into Thingspeak, the measurement data that has been carried out can be viewed using a cellphone or computer. The data obtained is then displayed in the form of temperature and humidity graphs, these graphic displays can be accessed online on the Thingspek web

References

Beni Satria, “IoT Monitoring Suhu dan Kelembaban Udara dengan Node MCU ESP8266,” J. Teknik Informatika., vol. 1, no. 3, pp. 138–140, 2022

Yudhanto, Yudho. 2019. “Pengantar Teknologi Internet Of Things”. Surakarta: UNS Press. Hal. 126.

Yudhanto, Yudho. 2019. “Pengantar Teknologi Internet Of Things”. Surakarta: UNS Press. Hal. 127.

J. Gubbi, et al.: "Internet of Things (IoT): A vision, architectural elements, and future directions." Future generation computer systems 29.7 (2013): 1645-1660.

Yusril, M. 2020. “Panduan Lengkap Membangun Sistem Monitoring Kinerja Mahasiswa Internship Berbasis Web dan Global Positioning System”. Hal. 64.

Nuba Shittain Mitu A, B, Vassil T. Vassilev A, Myasar Tabany, Low Cost, Easy-to-Use, IoT and Cloud-Based RealTime Environment Monitoring System Using ESP8266 Microcontroller, International Journal of Internet of Things and Web Services, http://www.iaras.org/iaras/journals/ijitws, Volume 6, 2021, ISSN: 2367-9115, pp. 30-44.

Adam Sinicki. (2016, Maret) Android Authority. [Online]. http://www.androidauthority.com/an-introduction-to-basic4android-678630/.

E. Y. Indrasto, “RANCANG BANGUN ALAT MONITORING KUALITAS UDARA PADA KANDANG AYAM BERBASIS WEB,” 2019. [9] Gunawan, G. and Fatimah, T. (2020) ‘Implementasi Sistem Pengaturan Suhu Ruang Server Menggunakan Sensor DHT11 dan Sensor PIR Berbasis Mikrokontroler’, Edumatic : Jurnal Pendidikan Informatika, 4(1), pp. 101–110. doi: 10.29408/edumatic.v4i1.2165.

D. Sasmoko, Danang Danang, Padjar Setyo Budi, and Muhammad Agus Kurniawan, “Penggunaan Sensor TCS3200 dan NodeMCU untuk Mendeteksi Warna Daun Padi dalam Menentukan Jumlah Pupuk Urea Bebasis IoT”, ELKOM, vol. 13, no. 1, pp. 87-102, Aug. 2020.

H.I. Khairullah. “Rancang Bangun Prototipe Otomatisasi Rumah Berbasis Web Hosting Menggunakan Raspberry Pi”. Universitas Jenderal Soedirman, 2019.

Tryatmojo, B., & Maryati, R. I. S. (2019). AKURASI SISTEM FACE RECOGNITION OPENCV MENGGUNAKAN RASPBERRY PI DENGAN METODE HAAR CASCADE. JURNAL ILMIAH INFORMATIKA, 7(02), 92–98. https://doi.org/10.33884/jif.v7i02.1354