Self-health Monitoring and Reporting System for COVID-19 Patients Using CAN Data Logger

Source:
By:Author(s)

DOI: https://doi.org/10.30564/jcsr.v3i3.3487

Abstract:

In the evolving situation of highly infectious coronavirus, the number of confirmed cases in India has largely increased, which has resulted in a shortage of health care resources. Thus, the Ministry of Health and Family Welfare- Government of India issued guidelines for the ‘Home isolation of COVID-19 positive patients’ methodology for asymptomatic patients or with mild symptoms. During home isolation, the patients are required to monitor and record the pulse rate, body temperature, and oxygen saturation three times a day. This paper proposes a system that can request data from the required sensor to measure the pulse rate, body temperature, or oxygen saturation. The requested data is sensed by the respective sensor placed near the patients’ body and sent to the CAN data logger over the CAN bus. The CAN data logger live streams the sensor values and stores the same to an excel sheet along with details like the patient’s name, patient’s age, and date. The physicians can then access this information.

References:

[1] Priyanka Kakria, N. K. Tripathi, and Peerapong Kitipawang, “A Real-Time Health Monitoring System for Remote Cardiac Patients Using Smartphone and Wearable Sensors”, International Journal of Telemedicine and Applications Volume 2015, Article ID 373474, 2015. [2] M. Saranya, R. Preethi, M. Rupasri and Dr. S. Veena. “A Survey on Health Monitoring System by using IOT”, International Journal for Research in Applied Science & Engineering Technology, Volume-6, Issue-III, , pp. 778-782, 2018. [3] C. Premalatha, R.P. Keerthana and R. Abarna. “Human Health Monitoring System”, International Research Journal of Engineering and Technology, Volume-6, Issue-1, pp. 914-916, 2019. [4] Prasad Lavgi and Mr. Lakshaman Kora, “Patient Health Monitoring System using CAN Protocol”, International Research Journal of Engineering and Technology, Volume-6, Issue-6, pp. 394-398, 2019. [5] K.P. Swain, M.V.S. V Prasad, J. Sahoo, S. K. Sahoo, G. Palai, “Patient Monitoring System using CAN and Android”, Journal of Research in Science, Technology, Engineering and Management, pp. 101-105, 2016. [6] Karumuri Anusha Reddy and Narendra Babu Tatini, “Monitoring of Patients Health in Hospitals using CAN Protocol”, International Journal of Innovative Technology and Exploring Engineering, Volume-8, Issue-6, April 2019, pp. 1556-1559 [7] Ladlennon C. Banuag and Joseph Karl G. Salva, “Development of a Patient Monitoring System for Hospital Wards Employing Zigbee Technology and CAN Protocol”, 2019 2nd World Symposium on Communication Engineering (WSCE), Nagoya, Japan, pp. 112-116, 2020. [8] STMicroelectronics, “STM32F405xx and STM32F407xx, ARM Cortex-M4 32b MCU+FPU, 210DMIPS, up to 1MB Flash/192+4KB RAM, USB OTG HS/FS, Ethernet, 17 TIMs, 3 ADCs, 15 comm. interfaces & camera”, DocID022152 Rev 8 datasheet, 2016. [9] STMicroelectronics, “STM32F405/415, STM32F407/417, STM32F427/437 and STM32F429/439 advanced Arm®-based 32-bit MCUs”, RM0090 Rev 17 reference manual, 2018. [10] Microchip Technology Inc., “MCP2551, High-Speed CAN Transceiver”, DS21667F datasheet, 2010. [11] Microchip Technology Inc., “MCP2515, Stand-Alone CAN Controller With SPI™ Interface”, DS21801D datasheet, 2005. [12] Maxim Integrated Products, Inc., “MAX30102, High-Sensitivity Pulse Oximeter and Heart-Rate Sensor for Wearable Health”, 2015. [13] Steve Corrigan, “Introduction to the Controller Area Network (CAN),” Texas Instruments, SLOA101B application report, 2016.