Open AccessImpedance Cardiography Signal Improvement Through Sign Related Adaptive Removers for Remote Health Care
Author(s) -
Soniya Nuthalapati,
Kusuma Nutalapati,
Naveen Laghuvarapu Prasad Nagipogu,
P. Yaswanth Sai Mandepudi Koteswararao,
Maddineni Venkata Jaya Prakash
Publication year - 2022
Publication title -
international journal of innovative technology and exploring engineering
Language(s) - English
Resource type - Journals
ISSN - 2278-3075
DOI - 10.35940/ijitee.e9847.0411522
Subject(s) - impedance cardiography , signal (programming language) , computer science , sign (mathematics) , noise (video) , adaptive filter , filter (signal processing) , electrical impedance , computation , active noise control , rate of convergence , electronic engineering , algorithm , heart rate , artificial intelligence , computer vision , key (lock) , medicine , mathematics , engineering , stroke volume , electrical engineering , mathematical analysis , blood pressure , image (mathematics) , radiology , programming language , computer security
The impedance cardiography (ICG) shows the impedance caused in the heart. The ICG gives a clear and accurate results and the applied techniques reduce artifacts and also mathematical calculations. The ICG signal shows various physiological and non-physiological situations, and can calculate the heart volume. The computational complexity is also a main part for remote health care. The adaptive techniques used in this project reduces or removes the noise in the signal, Improve the signal. Mainly to take over the applied signal, convergence rate, and to reduce computations of the proposed theory, we added the sign and normalized adaptive algorithms to take out the realistic wave. In final, the results are taken out from the outcomes by additionally relating it with the adaptive filter to situate it in the proper format.
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