Measuring Body Temperature Based Internet of Things (IoT) Using Esp8266 and Firebase

Indra Gunawan, Aris Sudianto, Muhamad Sadali

Abstract


Measuring the body temperature can be the basis for determining the health level of a person which increasing the body temperature can also be a reference to find out whether a person infection early symptoms of a disease, both fever and cases as currently occurring, namely as an indicator of determining whether someone is indicated to be infected with the Covid 19 virus, which is currently a pandemic in the various countries. Initially, measurement the body temperature was carried out massively using the body temperature measuring device circulating in the community using a thermometer that was already standardized by SNI, wherein the measurement process like this some obstacles or problems occur, which the officer being infected the risk  by virus covid19 and will cause  increasing in the cases. In this study, a tool was made to measure human body temperature based on the internet of things technology, which then the measurement data will be sent to an Android smartphone application based monitoring via the internet. This tool uses the MLX-90614 sensor device [1] to detect temperature, after that the data will be processed by Nodemcu ESP8266 and stored on the Firebase server before the data will sent to the user's monitor. The measurement result data will be displayed with the android application and if the temperature data exceeds the normal limit or> 37.50C, the system will send a sound signal alarm via a buzzer. The results of this study can achieve an accuracy level of about 95% from value of data the measuring temperature using device standards SNI and data display to the application monitoring need about 3 seconds.

Keywords


Body Temperature; ESP82666; Internet of Things;

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References


Sokku, S. R., & Harun, S. F. (2019, December). Deteksi Sapi Sehat Berdasarkan Suhu Tubuh Berbasis Sensor MLX90614 dan Mikrokontroller. In Seminar Nasional LP2M UNM.

Saputra, A., Ansori, M., & Widiatmoko, D. (2020). rancang bangun alat pendeteksi suhu tubuh otomatis dengan image processing menggunakan metode backpropagation. Jurnal Elkasista, 1, 1-6.

Dianty, H. (2020). Mendeteksi Suhu Tubuh Menggunakan Infrared dan Arduino. jik-Jurnal Ilmu Komputer, 3(3), 5-9.

Gunawan, I., & Wasil, M. (2020, May). Implementation Internet of Things (IoTs) to Monitoring Temperature Oven Tobacco System Towards 4.0 Industry. In Journal of Physics: Conference Series (Vol. 1539, No. 1, p. 012008). IOP Publishing.

Gunawan, I., Akbar, T., & Ilham, M. (2020). Prototipe Penerapan Internet Of Things (Iot) Pada Monitoring Level Air Tandon Menggunakan Nodemcu Esp8266 Dan Blynk. Infotek: Jurnal Informatika dan Teknologi, 3(1), 1-7.

Suryatini, F., Maimunah, M., & Fauzandi, F. I. (2018). Sistem Akuisisi Data Suhu Dan Kelembaban Tanah Pada Irigasi Tetes Otomatis Berbasis Internet Of Things. Prosiding Semnastek.

Pratiwi, Y. (2019). Rancang Bangun Sistem Pengukuran Suhu Tubuh dan Detak Jantung Menggunakan Sensor Infrared Berbasis Mikrikintroller Atmega8535.

Nugroho, D. A. S., Santoso, G., & Novianta, M. A. (2017). Perancangan Sistem Pengukur Detak Jantung Dan Suhu Tubuh Pada Atlet Lari Sprint Berbasis Mikrokontroller ATMEGA 8. Jurnal Elektrikal, 4(1), 31-39.

OKTAVIANA, N. N. (2018). Sistem Informasi Deteksi Thermal Menggunakan Sensor Passive Infra Red (Pir) Dan Nodemcu ESP8266 12E Berbasis Android (Doctoral dissertation, Universitas Gadjah Mada).

Saputro, M. A., Widasari, E. R., & Fitriyah, H. (2017). Implementasi sistem monitoring detak jantung dan suhu tubuh manusia secara wireless. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer e-ISSN, 2548, 964X.

Afriansyah, Y., Arifuddin, R., & Novrianto, Y. (2018). Rancang Bangun Alat Pendeteksi Detak Jantung, Suhu Tubuh, dan Tensimeter Berbasis Arduino Uno serta Smartphone Android. Prosiding SinarFe7-IB, 1(2).

Solichin, A. A., Wisana, I. D. G. H., Andayani, D. H., & Elektromedik, M. J. T. “Monitoring detak jantung, suhu tubuh, dan respirasi berbasis telemedicine via android,” Jur. Tek. Elektromedik, Poltekkes Surabaya.




DOI: http://dx.doi.org/10.30700/jst.v11i1.1060

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