MONITORING OF AIR TEMPERATURE AND HUMIDITY VALUE IN THE IoT-BASED TREATMENT OF COVID-19 PATIENTS
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Nov 27, 2021
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Abstract
The Covid-19 outbreak is an unresolved problem because it is a new disease, so that a definite control formula is still being pursued, including by providing vaccines. There are no specific medical prescriptions for Covid-19 patients, and many experiments are carried out to achieve healing. This study offers observations of temperature and humidity in the treatment room for Covid-19 patients because temperature and humidity greatly affect the patient's recovery. The application of the Internet of Things with the nodeMCU ESP8266 module can make observations with location distances for security. These results will empirically obtain an average value for temperature and humidity in the treatment room for Covid-19 patients which can be used as a reference in other treatment rooms, especially for those who are self-isolating. From the test results of the instrument system, good results were obtained, and the percentage change in sensor readings in the temperature test sample was 3.8% and air humidity was 3.2% to the average value, and the instrument system was tested for 15 consecutive days. and the sample was taken 3 days to obtain a stable value.
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Yumono, F., & Erwanto, D. (2021). MONITORING OF AIR TEMPERATURE AND HUMIDITY VALUE IN THE IoT-BASED TREATMENT OF COVID-19 PATIENTS. Electro Luceat, 7(2), 132-141. https://doi.org/10.32531/jelekn.v7i2.399
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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
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[3] K. RI, “Pedoman Kesiapsiagaan Menghadapi Corona virus Disease (COVID-19),” Direkorat Jenderal Pencegah. Dan Pengendali. Penyakit, 2020.
[4] F. Memarzadeh, “The environment of care and health care-associated infections: An engineering perspective,” Am. Soc. Healthc. Eng. Am. Hosp. Assoc., 2011.
[5] H. Y. Putra, U. Budiyanto, and others, “Rancang Bangun Pengukur Suhu Tubuh Dengan Multi Sensor Untuk Mencegah Penyebaran Covid-19,” J. RESTI (Rekayasa Sist. Dan Teknol. Informasi), vol. 5, no. 3, pp. 543–549, 2021.
[6] A. C. Hugo, R. Hidayat, and L. Nurpulaela, “IMPLEMENTASI INTERNET OF THINGS SEBAGAI MONITORING SUHU PADA PEMANGGANG OTOMATIS BERBASIS ARDUINO UNO,” Electro Luceat, vol. 6, no. 2, pp. 334–345, Nov. 2020, doi: 10.32531/jelekn.v6i2.278.
[7] N. S. Devi, D. Erwanto, and Y. B. Utomo, “Perancangan Sistem Kontrol Suhu Dan Kelembaban Pada Ruangan Budidaya Jamur Tiram Berbasis IoT,” MULTITEK Indones., vol. 12, no. 2, p. 104, Dec. 2018, doi: 10.24269/mtkind.v12i2.1331.
[8] M. P. Saptono and Y. Andika, “IoTTECH : TECHNOLOGY INTERNET OF THINGS (IoT) UNTUK PENGATURAN OTOMATIS KELEMBABAN & TEMPERATUR RUANGAN BUDIDAYA JAMUR TIRAM (PLEUROTUS OSTREATUS),” Electro Luceat, vol. 6, no. 2, pp. 373–378, Nov. 2020, doi: 10.32531/jelekn.v6i2.284.
[9] D. Nurhannavi, F. Yumono, and P. N. Rahayu, “Design of Supplemental Security Tool Based On Motorcycle NODEMCU And IOT Using GPS,” JTECS J. Sist. Telekomun. Elektron. Sist. Kontrol Power Sist. dan Komput., vol. 1, no. 1, p. 23, Jan. 2021, doi: 10.32503/jtecs.v1i1.1292.
[10] A. Rachman, Z. Arifin, and S. Maharani, “Sistem Pengendali Suhu Ruangan Berbasis Internet of Things (IoT) Menggunakan Air Conditioner (AC) Dan NodeMCU V3 ESP8266,” in Prosiding SAKTI (Seminar Ilmu Komputer Dan Teknologi Informasi), 2020, vol. 5, no. 1, pp. 19–23.
[11] A. Al Dahoud and M. Fezari, “NodeMCU V3 For Fast IoT Application Development,” Notes, vol. 5, 2018.
[12] Y. S. Parihar, “Internet of Things and Nodemcu,” J. Emerg. Technol. Innov. Res., vol. 6, no. 6, p. 1085, 2019.
[13] P. Mani and V. Thirumalai Natesan, “Experimental investigation of drying characteristics of lima beans with passive and active mode greenhouse solar dryers,” J. Food Process Eng., vol. 44, no. 5, p. e13667, 2021.