This paper is published in Volume 2, Issue 6, 2017
Area
IOT
Author
Shwetha D M
Co-authors
Mrs. Suma
Org/Univ
VVIET, India
Keywords
Constrained Application Protocol; Internet of Things, Mixed Signal Processor, General Purpose Input Output, liquid Crystal Display.
Citations
IEEE
Shwetha D M, Mrs. Suma. A Conceptual View to Empower Medical Gadgets by Harvesting Energy using TEG, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.
APA
Shwetha D M, Mrs. Suma (2017). A Conceptual View to Empower Medical Gadgets by Harvesting Energy using TEG. International Journal of Advance Research, Ideas and Innovations in Technology, 2(6) www.IJARnD.com.
MLA
Shwetha D M, Mrs. Suma. "A Conceptual View to Empower Medical Gadgets by Harvesting Energy using TEG." International Journal of Advance Research, Ideas and Innovations in Technology 2.6 (2017). www.IJARnD.com.
Shwetha D M, Mrs. Suma. A Conceptual View to Empower Medical Gadgets by Harvesting Energy using TEG, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.
APA
Shwetha D M, Mrs. Suma (2017). A Conceptual View to Empower Medical Gadgets by Harvesting Energy using TEG. International Journal of Advance Research, Ideas and Innovations in Technology, 2(6) www.IJARnD.com.
MLA
Shwetha D M, Mrs. Suma. "A Conceptual View to Empower Medical Gadgets by Harvesting Energy using TEG." International Journal of Advance Research, Ideas and Innovations in Technology 2.6 (2017). www.IJARnD.com.
Abstract
A 16-bit MSP430 controller version with an android app is uniquely intended for an incessant E-diagnosis system for remote patients, from their home to corresponding doctors and care takers. Existing framework running on GSM and wired link to exchange data between patients and doctor have its own particular confinement, for instance consistent upkeep, transportation, and dedicated care taker, which is costing more to the family members of the patient. It will be implemented by building up a framework which gets power from TEG module attached to patient and stores that same into battery banks with low bandwidth, which must play all the procedure without human interference and must carry out the work which current system is doing. Put away power will be utilized by controller to screen heart rate, temperature, and blood pressure and transmit SoS information utilizing Wi-Fi with CoAp architecture uncommonly intended for low bandwidth link. Essential block comprises of control unit, sensory, communication, power generation and conversion for adaptable and unending operation
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