MONITORING SATURASI OKSIGEN DAN SUHU TUBUH MENGGUNAKAN NODEMCU BERBASIS WEBSITE PADA MARKETING OFFICE PREMIER ESTATE 2
Abstract
During the COVID-19 pandemic, which has not subsided, it has had a negative impact on the economic sector, one of which is in offices. In this case, the government has issued a "New Normal" policy, which is a policy to allow normal activities but added by implementing health protocols to prevent the spread of the COVID-19 Virus. One of these protocols is to monitor body temperature and oxygen saturation which functions to recognize the symptoms of the Covid-19 virus. The purpose of this study is to design and create a monitoring system tool using the Internet of Things (IoT) concept as a step that facilitates the automation process via the Internet and is equipped with NODEMCU as a control medium, MAX30102 sensor to measure oxygen saturation, MLX90614 sensor as a body temperature sensor. , and a buzzer as a warning, servo motor as a door driver, and a website as a display medium. The results of this study after testing for 5 times, it is ensured that the results of monitoring oxygen saturation and body temperature can work well according to the system that has been designed. This has been processed using the MLX90614 sensor which has set the specified body temperature limit, namely the normal limit for body temperature value >=33°C and <=37°C . As well as using a buzzer and servo motor as the output of the detection of a predetermined body temperature value.
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References
[2] A. S. Utomo, E. H. P. Negoro, and M. Sofie., 2019, Monitoring Heart Rate Dan Saturasi Oksigen Melalui Smartphone, Simetris J. Tek. Mesin, Elektro dan Ilmu Komput., vol. 10, no. 1, hal 319–324.
[3] R.Vinodhini, & R.Puviarasi., 2019, Heart Rate Monitoring System using Pulse Sensor with Data Stored on Server, International Journal of Engineering and Advanced Technology, hal 2374-2377.
[4] S. Bakhri, E. Rosiana, and R. C. Saputra., 2020, Design of Low Cost Pulse Oximetry Based on Raspberry Pi, J. Phys. Conf. Ser., vol. 1501, no. 1, doi: 10.1088/1742-6596/1501/1/012003.
[5] Bhattacharjee, P., Biswas, S., Roy, S., 2022, Design of an Optimised, Low Cost, Contactless Thermometer with Distance Compensation for Rapid Body Temperature Scanning. In: Mekhilef, S., Shaw, R.N., Siano, P. (eds) Innovations in Electrical and Electronic Engineering. ICEEE 2022. Lecture Notes in Electrical Engineering, vol 894. Springer, Singapore. https://doi.org/10.1007/978-981-19-1677-9_45
[6] Priyono, M., Sulistyanto, T., Nugraha, D. A., Sari, N., Karima, N., & Asrori, W., 2015, Implementasi IoT (Internet of Things) dalam pembelajaran di Universitas Kanjuruhan Malang, SMARTICS Journal, 1(1), hal 20–23.
[7] Guna, P.I.A., Suyadnya, I.M.A, and Agung, I.G.A.P.R., 2018, Sistem Monitoring Penetasan Telur Penyu Menggunakan Mikrokontroler NodeMCU ESP8266 Dan Protokol MQTT Dengan Notifikasi Berbasis Telegram Messenger, J- COSINE, 2(2), hal 80–89.
[8] Adrian, Mohamad Aldi., Mochamad Rizky Widiarto, dan Rini Suwartika Kusumadiarti., 2021, Health Monitoring System Dengan Indikator Suhu Tubuh, Detak Jantung Dan Saturasi Oksigen Berbasis Internet of Things (IoT), Jurnal PETIK Volume 7, No 2, hal 22-32.
[9] https://www.melexis.com/en/product/MLX90614/Digital-Plug-Play-Infrared-hermometer-TO-Can, diakses 18 Juni 2022.
[10] Arifin, M., & Hs, R. H. H., 2017, Perancangan Sistem Informasi Pusat Karir Sebagai Upaya Meningkatkan Relevansi Antara Lulusan Dengan Dunia Kerja Menggunakan Uml Muhammad, IC-Tech, XII(2), hal 42–49.
[11] Nasril, & Adri Yanto Saputra., 2017, Rancang bangun sistem inf ormasi ujian online, Jurnal Lentera Ict, 3(1), hal 47–53.
[12] Sutopo, Priyo., Dedi Cahyadi., dan Zainal Arifin., 2016, Sistem Informasi Eksekutif Sebaran Penjualan Kendaraan Bermotor Roda 2 Di Kalimantan Timur Berbasis Web, Jurnal Informatika Mulawarman, Vol. 11 No. 1, hal 23-28.