Development of a wearable device for heart rate monitoring and fall detection using machine learning to analyze and detect early anomaly of cardiovascular conditions
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Từ khóa:
Cardiovascular diseases
LoRa
wearable device
anomaly detection
LSTM
Tóm tắt
Cardiovascular disease is the leading cause of death globally. This research implements a system for monitoring heart rate, electrocardiogram, and providing alerts for potential risks to patients based on data collected using the LSTM machine learning model. The wearable device is compact in size with a long battery life. The information collected from the device can be remotely monitored by doctors through a visual interface on a web server model, and patients can self-monitor their electrocardiogram status through an application on a mobile device. By integrating the LSTM model into the design, this study has addressed two issues: predicting the trend of the electrocardiogram signal and detecting abnormalities in the predicted signal. This allows users to self-monitor their personal status and doctors to better adjust the treatment method for the patient’s health.
Tài liệu tham khảo
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[1] WHO, “Cardiovascular diseases (CVDs)”, int, June 11, 2021. [Online]. Availabe: https://www.who.int/news-room/fact-sheets/detail/cardiovascular-diseases-%28cvds%29 [accessed in Mar. 2024].
[2] WHO, “Cardiovascular diseases (CVDs) in Vietnam”, int, June 11, 2021. [Online]. Availabe: https://www.who.int/vietnam/
vi/health-topics/cardiovascular-disease/cardiovascular-disease [accessed in Mar. 2024].
[3] World Heart Federation, “Deaths from cardiovascular disease surged 60% globally over the last 30 years: report”, world-heart-federation.org, May 20, 2023. [Online]. Availabe: https://world-heart-federation.org/news/deaths-from-cardiovascular-disease-surged-60-globally-over-the-last-30-years-report/ [accessed in Mar. 2024].
[4] Wang, Z. Lin, X. Yan, Z. Chen, M. Ding, Y. Song, and L. Meng. "A wearable ECG monitor for deep learning based real-time cardiovascular disease detection”, arXiv:2201.10083, 2022.
[5] Sekhani, D. Shah, and V. Kelkar. "Remote ECG Monitoring System Using IoT and Machine Learning”, in Proceedings of International Conference on Wireless Communication: ICWiCom 2021, Singapore: Springer Nature Singapore, 2022, pp. 249-257.
[6] J. Majumder, M. Elsaadany, J. A. Izaguirre, and D. R. Ucci. "A real-time cardiac monitoring using a multisensory smart IoT system”, in IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC), vol. 2, USA, 2019, pp. 281-287.
[7] E. Cañón-Clavijo, C. E. Montenegro-Marin, P. A. Gaona-Garcia, and J. Ortiz-Guzmán "IoT Based System for Heart Monitoring and Arrhythmia Detection Using Machine Learning”, Journal of Healthcare Engineering, vol. 2023, p. 13, 2023, https://doi.org/10.1155/2023/6401673.
[8] Heaney, J. Buick, M.U. Hadi, and N. Soin. "Internet of Things-based ECG and vitals healthcare monitoring system”, Micromachines, vol. 13, no. 12, 2022.
[9] A. Adebayo et al., "Heart rate variability and arrhythmic patterns of 24-hour Holter electrocardiography among Nigerians with cardiovascular diseases”, Vascular health and risk management, vol. 11, pp. 353-359, 2015.
[10] Analog Device, “MAX30003 datasheet”, com, Sep 27, 2021. [Online]. Availabe: https://www.analog.com/en/
products/MAX30003.html [accessed in Mar. 2024].
[11] Analog Device, “MAX30100 datasheet”, com, Sep 24, 2014. [Online]. Availabe: https://www.maximintegrated.com/en/products
/sensors/MAX30100.html [accessed in Mar. 2024].
[12] NeuroSky, “BMD101 Product Brief”, com, June 11, 2012. [Online]. Availabe: https://download.mikroe.com/
documents/datasheets/BMD101.pdf [accessed in Mar. 2024].
[13] Analog Device, “AD8232 datasheet”, com, Jul 25, 2012. [Online]. Availabe: https://www.analog.com/en/
products/ad8232.html [accessed in Mar. 2024].
[14] Semtech, “SX1278”, com, May 2020. [Online]. Availabe: https://www.semtech.com/products/wireless-rf/lora-transceivers/sx1278 [accessed in Mar. 2024].
[15] Analog Device, “ADXL345 datasheet”, com, May 10, 2022. [Online]. Availabe: https://www.analog.com/media/en/technical-documentation/data-sheets/ADXL345.pdf [accessed in Mar. 2024].
[16] LCSC Electroniss, “SIM7600CE”, com, Apr 19, 2024. [Online]. Availabe: https://www.lcsc.com/datasheet
/lcsc_datasheet_2304140030_SIMCom-Wireless-Solutions-SIM7600CE-CNSE-PCIE_C126269.pdf [accessed in Mar. 2024].
[17] Yu, X. Si, C. Hu, and J. Zhang. "A review of recurrent neural networks: LSTM cells and network architectures”, Neural computation, vol. 31, no. 7, pp. 1235-1270, 2019.
[18] Dutta, R. Lenka, S. R. Nayak, A. Khandual, and A. K. Bhoi. "MED-NET: a novel approach to ECG anomaly detection using LSTM auto-encoders”, International Journal of Computer Applications in Technology, vol. 65, no. 4, pp. 343-357, 2021.
[19] S. Chauhan and L. Vig. "Anomaly detection in ECG time signals via deep long short-term memory networks”, in International Conference on Data Science and Advanced Analytics (DSAA), France, 2015, pp. 1-7.
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Nguyen, V.-T., N.-M. Tran, P.-N. Tran, T.-H. Tran, T.-K. T. Thi, và V.-K. Pham. “Development of a Wearable Device for Heart Rate Monitoring and Fall Detection Using Machine Learning to Analyze and Detect Early Anomaly of Cardiovascular Conditions”. Tạp Chí Khoa học Và Công nghệ - Đại học Đà Nẵng, vol 22, số p.h 6A, Tháng Sáu 2024, tr 7-12, doi:10.31130/ud-jst.2024.158ICT.
