Wearable Smart Device That Can Monitor Multiple Vital Parameters

Main Article Content

D.M. Kalai Selvi
V.Sharmila
P.Ezhumalai
G.Manisha
N.Sri Dhimple
U.Jahnavi

Keywords

IOT, SPO2, ECG, Arduino, Wearable device

Abstract

The health care sector is one of several remote monitoring applications that the Internet of Things (IOT) is revolutionising. The demand for portable multi-vital sign monitoring devices has grown dramatically in recent years as a result of increasing awareness of individual physical health conditions. A portable method for monitoring several vital signs was created in this work. This article introduces the second iteration of VITAL-ECG, a smart device designed to monitor the most important vital parameters as a “one touch” device, anywhere and at fair price. It is a wearable device that can access bio-parameters like the patients or individual oxygen levels and ECG when used in combination with an IOT cloud. Even if it isn’t yet considered medical equipment, a close examination of electrocardiograph used as the industry standard is required.

Abstract 96 | PDF Downloads 127

References

1. Wei-Wei C et al., “China cardiovascular diseases report 2015: a summary,” J. Geriatr. Cardiol., vol. 14, no. 1, pp. 1-10, Jan. 2017.
2. Liu L, “Cardiovascular diseases in China,” Biochem. Cell Biol., vol. 85, no. 2, pp. 157-1063, Apr. 2007.
3. S. Allender, P. Scarborough, V. Peto, M. Rayner, J. Leal, R. Luengo-Fernandez, and A. Gray, "European cardiovascular disease statistics," European Heart Network, vol. 3, pp. 11-35, 2008.
4. D. Prabhakaran, P. Jeemon, and A. Roy, “Cardiovascular diseases in india: current epidemiology and future directions,” Circulation, vol. 133, no. 16, pp. 1605–1620, 2016.
5. Vasan R S et al., “Impact of high-normal blood pressure on the risk of cardiovascular disease,” N. Engl. J. Med., vol. 345, no. 18, pp. 1291-1297, Nov. 2001.
6. Kearney P M et al., “Global burden of hypertension: analysis of worldwide data,” Lancet., vol. 365, no. 9455, pp. 217-223, Jan. 2005.
7. Imai Y et al., “The accuracy and performance of the A&D TM 2421, a new ambulatory blood pressure monitoring device based on the cuff-oscillometric method and the Korotkoff sound technique,” Am. J. Hypertens., vol. 5, no. 10, pp. 719-726, Oct. 1992.
8. Geddes L A et al., “Characterization of the oscillometric method for measuring indirect blood pressure,” Ann. Biomed. Eng., vol. 10, no. 6, pp. 271- 280, 1982.
9. Allen J, “Photoplethysmography and its application in clinical physiological measurement,” Physiol. Meas., vol. 28, no. 3, pp. R1- R39, Feb. 2007.
10. Choi Y et al., “Noninvasive cuffless blood pressure estimation using pulse transit time and Hilbert–Huang transform,” Comput. Electr. Eng., vol. 39, no. 1, pp. 103-111, Jan. 2013.
11. Darwish, A. E. Hassanien, M. Elhoseny, A. K. Sangaiah, and K. Muhammad, “The impact of the hybrid platform of Internet of Things and cloud computing on healthcare systems: Opportunities, challenges, and open problems,” J. Ambient Intell. Hum. Comput., vol. 10, no. 10, pp. 4151–4166, Dec. 2017.