@article{MAKHILLRJAS202116710304,
    title = {Mechanical Ventilator Design for COVID-19 Patient with Resistive Belt Sensor},
    journal = {Research Journal of Applied Sciences},
    volume = {16},
    number = {7},
    pages = {238-243},
    year = {2021},
    issn = {1815-932x},
    doi = {rjasci.2021.238.243},
    url = {https://makhillpublications.co/view-article.php?issn=1815-932x&doi=rjasci.2021.238.243},
    author = {Mustefa},
    keywords = {Ventilator,proportional integral derivative,resistive,COVID-19},
    abstract = {A ventilator is a device that provides cool air
by moving the air in or out of the lungs, inhaling a patient
who is not fit to smell or breathing properly. In this study,
a resistive chest belt sensor-based mechanical ventilator
is designed to provide the COVID-19 patient with the
volume of air you need to deliver with the expansion of
the patient&#146;s chest in need of more air. The resistive band
sensor senses the expansion of the patient&#146;s chest and
controls the solenoid valve attached to the oxygen
compressor. The function of the respirator is tested with
the MATLAB/Simulink tool with the help of a
Proportional Integral Derivative (PID) Controller and a
promising result obtained.}
    }