Authors:
John Paul Praveen A,Balaji. S,Mohanraj R,DOI NO:
https://doi.org/10.26782/jmcms.spl.2019.08.00038Keywords:
Social insurance checking,Light transmitting diode light,Medical hardware,Patient condition,Visible light correspondences,Abstract
Reliable checking of the patient's health condition in the prosperity center is either manual or remote unfaltering quality (Wi-Fi)- based structure. A Wi-Fi-based system winds up lazy in pace as a result of exponentially copied versatility. In this circumstance, delicate precision (Li-Fi) finds the spots wherever Wi-Fi is material to various highlights of quick data compose. Beside the pace factor, Li-Fi is increasingly critical fitting in sanatorium utility for watching the patient's conditions despite repeat impedance with the human body. This paper proposes an execution of Li-Fi social order in the crisis center for controlling the patient's essentials, for instance, temperature, heartbeat, and respiratory conditions using specific sensors. The gathered substances from the sensors are transmitted to the sink, and further, this information has dealt with the usage of a microcontroller and sent to an introduction unit as mechanized. Given the thinking of seen light correspondence, a model mannequin is created with the microcontroller and essential sensors as peripherals and attempted it is working. Thusly, the utilization of Li-Fi as health watching device exhibited probably.Refference:
I. Arijit Ghosh, “Patient Health Monitoring System,” International Conference on Intelligent Control Power and Instrumentation October 2016.
II. Harald Haas, “wireless data from every light bulb “, TED Global, Edinburgh, July 2011.
III. Harald Haas, Liang Yin, ‘What is Li-Fi?’ published in the Journal of lightwave technology, Volume: 34, Issue:6, March 15, 2016.
IV. Harald Haas with Prof Svilen and Prof Thilo and Prof Irina:” Li-Fi modulation and networked Li-Fi attocell concept” 2012.
V. Kalpana P.M, “Design and Development of PIC Microcontroller based Wireless Architecture for Human Health Monitoring”, International Journal of Innovative Research in Science, Engineering and Technology Vol. 4, Issue 4, April 2015.
VI. Niranjana Dye, Amira S. Ashur, Fujian Shi, “Developing Residential Wireless Sensor Networks for ECG Healthcare Monitoring”, IEEE Transactions on Consumer Electronics, Vol. 63, No. 4, November 2017.
VII. Reba Mohammed, Dyer Omer, “Health Mate: Smart Wearable System for Health Monitoring,” Networking Sensing and Control, August 2017.
VIII. Saidpur Rahman, Shim anta Kumar Dye, Bikash Kumar, “Design and Implementation of Real-Time Transformer Health Monitoring System Using GSM Technology”, International Conference on Circuits, Power and Computing Technologies, February 2017.
IX. Suhas Kaie, “Design and Implementation of Real-Time Embedded Tele-Health Monitoring System,” International Conference on Circuits, Power and Computing Technologies, June 2013.
X. Kalpana P.M, “Design and Development of PIC Microcontroller based Wireless Architecture for Human Health Monitoring”, International Journal of Innovative Research in Science, Engineering and Technology Vol. 4, Issue 4, April 2015.
XI. Birgit Wilhelm, Senait Forst, Matthias M. Weber, Martin Larbig, Andreas Pfitzner, Thomas Forst “Evaluation of CGMS During Rapid Blood Glucose Changes in Patients with Type 1 Diabetes”, Diabetes Technology and Therapeutics 8:2, 2006,
pp.146-155.
XII. Moussa Ayyash, Hany Elgala, Abdallah Khreishah, Volker Jungnickel, Thomas Little, Sihua Shao, Michael Rahaim, Dominic Schulz, Jonas Hilt, Ronald Freund, “Coexistence of Wi-Fi and Li-Fi towards 5G”, Concepts, Opportunities, and Challenges 2016.