Mustefa  Jibril, 
    Mechanical Ventilator Design for COVID-19 Patient with Resistive Belt Sensor,
    Research Journal of Applied Sciences,
    Volume 16,Issue 7,
    2021,
    Pages 238-243,
    ISSN 1815-932x,
    rjasci.2021.238.243,
    (https://makhillpublications.co/view-article.php?doi=rjasci.2021.238.243)
    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’s chest in need of more air. The resistive band
sensor senses the expansion of the patient’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.
    Keywords: Ventilator;proportional integral derivative;resistive;COVID-19