ALAT UKUR KESEHATAN PARU-PARU
Keywords:
Spirometry, sensor jarak VL53L0X, IoT, ESP 32Abstract
In an effort to improve the accessibility andaccuracy of lung health monitoring, we developed aspirometry-based lung health device using theVLX5LOX distance sensor and Internet of Things (IoT)technology with the ESP 32 module. Spirometry is astandard method for measuring lung capacity andfunction. The VLX5LOX sensor can measure airflow speed using Time-of-Flight (ToF) technology and send real-time data to the ESP 32 module, which processes and transmits the data to an application. The implementation of IoT technology also allows forcloud data storage for further analysis, especially forpatients with poor lung health conditions. Test resultsshow that this device can provide measurementsconsistent with conventional spirometry methods, with the added advantages of better portability and data accessibility. The use of the VLX5LOX sensor and ESP32 in medical applications demonstrates great potential in developing innovative and affordablehealthcare devices.
Downloads
References
Fauzi, E. M. (2018). Analisa dan Solusi Noise Sensor VL53L0X pada Berbagai Kondisi Cahaya. Politeknik Bandung, 1-5.
Indonesia, R. S. (2022, 03 07). Mari Mengenal Spirometri, Alat Ukur Kemampuan Bernapas yang Sebenarnya. Retrieved from Rumah Sakit Universitas Indonesia.
Ir. Asep Wasid, M. (2021). Pengukuran Volume Paru-Paru Berbasis Mikrokontroler Arduino dengan memanfaatkan sensor MPX5700DP. Informatika dan Komputasi, 1-9.
Maulana, K. Y. (2022, 12 30). Apa itu ESP 32? Retrieved from Anak Teknik.
Risnauli, d. L. (28, 05 2024). Apa Fungsi Tes Spirometri? Ini Cara Baca Hasil dan Prosedurnya. Retrieved from Ciputra Medical Center.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2024 Niki Wulandari, Sindi Anggira, Ocsirendi, Surojo
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
