In this paper, the design of a low cost portable ventilator with performance
analysis have been done to
solve the scarcity of respiratory ventilators for COVID-19 patients.
The materials used to build the system are: DC
motor, rotating disc and pneumatic piston. The system input is the
patient heart beat and the output is volume of air
to the patient lung with adjusted breathing rate. This ventilator
adjusts the breathing rate to the patient depending on
his heart beat rate. The performance analysis of this system have
been done using Proportional Integral Derivative
(PID) and Full State Feedback H2 controllers. Comparison of the system
with the proposed controllers have been
done using a step change and a random change of the patient heart
beat and a promising result have been analyzed
successfully.
%0 Journal Article
%1 MustefaJibril12020x
%A Mustefa Jibril1, Messay Tadese2, Nuriye Hassen3
%D 2020
%J Report and Opinion Journal
%K COVID-19, DC Derivative, Feedback Full H2 Integral Proportional State Ventilator, controller motor,
%N 9
%P 22-26
%R 10.7537/marsroj120920.06
%T Design and Performance Investigation of a Low Cost Portable Ventilator
for COVID-19 Patients
%V 12
%X In this paper, the design of a low cost portable ventilator with performance
analysis have been done to
solve the scarcity of respiratory ventilators for COVID-19 patients.
The materials used to build the system are: DC
motor, rotating disc and pneumatic piston. The system input is the
patient heart beat and the output is volume of air
to the patient lung with adjusted breathing rate. This ventilator
adjusts the breathing rate to the patient depending on
his heart beat rate. The performance analysis of this system have
been done using Proportional Integral Derivative
(PID) and Full State Feedback H2 controllers. Comparison of the system
with the proposed controllers have been
done using a step change and a random change of the patient heart
beat and a promising result have been analyzed
successfully.
@article{MustefaJibril12020x,
abstract = {In this paper, the design of a low cost portable ventilator with performance
analysis have been done to
solve the scarcity of respiratory ventilators for COVID-19 patients.
The materials used to build the system are: DC
motor, rotating disc and pneumatic piston. The system input is the
patient heart beat and the output is volume of air
to the patient lung with adjusted breathing rate. This ventilator
adjusts the breathing rate to the patient depending on
his heart beat rate. The performance analysis of this system have
been done using Proportional Integral Derivative
(PID) and Full State Feedback H2 controllers. Comparison of the system
with the proposed controllers have been
done using a step change and a random change of the patient heart
beat and a promising result have been analyzed
successfully.},
added-at = {2020-10-07T16:07:29.000+0200},
author = {{Mustefa Jibril1, Messay Tadese2}, Nuriye Hassen3},
biburl = {https://www.bibsonomy.org/bibtex/233f18dac3a9566d324ff0909b2983d5e/mustefa1981},
doi = {10.7537/marsroj120920.06},
file = {:C\:\\Users\\user\\Desktop\\KONJO\\Design and Performance Investigation of a Low Cost Portable Ventilator for COVID-19 Patients.pdf:PDF},
interhash = {a9efdb2f4ae8d286faa74deb77f0d2ce},
intrahash = {33f18dac3a9566d324ff0909b2983d5e},
journal = {Report and Opinion Journal},
keywords = {COVID-19, DC Derivative, Feedback Full H2 Integral Proportional State Ventilator, controller motor,},
month = {September},
number = 9,
owner = {user},
pages = {22-26},
review = {Peer Reviewed},
timestamp = {2020-10-07T16:08:26.000+0200},
title = {Design and Performance Investigation of a Low Cost Portable Ventilator
for COVID-19 Patients},
volume = 12,
year = 2020
}