HEALTH MONITORING MASK WITH WEARABLE ANTENNA TECHNOLOGY
Keywords:
Arduino UNO, High Frequency Structure Simulator (HFSS), LoRa Shield, Temperature Sensor, Pulse SensorAbstract
The development of a health monitoring mask with wearable antenna technology is implemented in this paper. For the transmission and reception of data for systems connected to healthcare, wireless body area networks are employed, including the usage of wearable antennas. A micro strip patch antenna is designed which is integrated on the mask, this will help in transmitting the data. Also, a temperature sensor and a pulse sensor are integrated on the mask along with the antenna. These sensors are in turn connected to a Arduino UNO microcontroller, to which these sensors send the data and this microcontroller then sends this data to the transceiver to which a textile antenna is attached which transmits these data. At the receiving side, we use the same microcontroller to the receive the data transmitted by the antenna. Then the final output is displayed on a lcd display. Therefore, based on the performance of the designed system, it is concluded that the health monitoring mask has great potential in monitoring the health of a person and is very useful in very crowded places like malls, public events, schools, colleges, offices, Railway stations Airports, Hospitals etc.
References
I. Steve Rogers, Brandon Smithn “GSM Based Patient Monitoring System Using Biomedical Sensors “
II. Manju babu, roshna rose raju, sunil Sylvester, teenu mary Mathew, k m abubekar, “Real time patient monitoring system using labview”, international journal of advanced research in computer and communication engineering, volume 5, issue 3,march 2016.
III. M priya, M. Kathiresh, “Wireless patient health monitoring system using labview”, international journal of emerging technology in computer science and electronics (IJETCSE) ISSN: 0976-1353 volume 22 issue 2, may 2016.
IV. M.P. Nirmala, Rampriya mahendra, ”Home based wireless health monitoring system”, international journal of advanced research in electrical electronics and instrumentation engineering, vol.3, issue 11, November 2014.
V. Gunalan .M.C, Satheesh.A, “, Implementation of Wireless Patient Body Monitoring System using RTOS”, International Journal of Engineering Research and General Science, Volume 2, Issue 6, pp.-207-208, October-November, 2014.
VI. D. L. Paul, M. G. Paterson, and G. S. Hilton, “A low-profile textile antenna for reception of digital television and wireless communications,” in 2012 IEEE Radio and Wireless Symposium, pp. 51–54, Santa Clara, CA, USA, January 2012.
VII. I. Locher, M. Klemm, T. Kirstein, and G. Trster, “Design and characterization of purely textile patch antennas,” IEEE Transactions on Advanced Packaging, vol. 29, no. 4, pp. 777–788, 2006.
VIII. C. Hertleer, H. Rogier, L. Vallozzi, and L. Van Langenhove, “A textile antenna for off-body communication integrated into protective clothing for firefighters,” IEEE Transactions on Antennas and Propagation, vol. 57, no. 4, Part 1, pp. 919– 925, 2009.
IX. P. Soh, G. Vandenbosch, S. Ooi, and M. Husna, “Wearable dual-band Sierpinski fractal PIFA using conductive fabric,” Electronics Letters, vol. 47, no. 6, pp. 365–367, 2011.
X. J. Lilja and P. Salonen, “Textile material characterization for Soft Wear antennas,” in MILCOM 2009 - 2009 IEEE Military Communications Conference, pp. 1–7, Boston, MA, USA, 2009.
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