Mechanical Ventilator Pressure and Volume Control Using Classifier Machine Learning Algorithm for Medical Care
Author:
Publisher
Springer Science and Business Media LLC
Subject
Electrical and Electronic Engineering
Link
https://link.springer.com/content/pdf/10.1007/s42835-023-01744-0.pdf
Reference36 articles.
1. Hemalatha M (2022) A hybrid random forest deep learning classifier empowered edge cloud architecture for COVID-19 and pneumonia detection. Expert Syst Appl 210:118227
2. Loo NL, Chiew YS, Tan CP, Mat-Nor M, Ralib AM (2021) A machine learning approach to assess magnitude of asynchrony breathing. Biomed Signal Process Control 66:102505
3. Anitha T, Gopu G, Nagarajapandian M Devan PAM (2019) Hybrid fuzzy PID controller for pressure process control application. In: Proceedings of the 2019 IEEE student conference on research and development (SCOReD). IEEE, pp 129–133
4. Selvam AMDP, Hussin FA, Ibrahim R, Bingi K, Nagarajapandian M (2022) Optimal fractional-order predictive PI controllers: for process control applications with additional filtering. Springer, Berlin
5. Gholami B, Phan TS, Haddad WM, Cason A, Mullis J, Price L, Bailey JM (2018) Replicating human expertise of mechanical ventilation waveform analysis in detecting patient–ventilator cycling asynchrony using machine learning. Comput Biol Med 97:137–144
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