In this paper, modelling designing and simulation of a simple voltage
amplidyne system is done using
robust control theory. In order to increase the performance of the
voltage amplidyne system with H optimal control
synthesis and H optimal control synthesis via-iteration controllers
are used. The open loop response of the voltage
amplidyne system shows that the system can amplify the input 7 times.
Comparison of the voltage amplidyne
system with H optimal control synthesis and H optimal control synthesis
via-iteration controllers to track a desired
step input have been done. Finally, the comparative simulation results
prove the effectiveness of the proposed
voltage amplidyne system with H optimal control synthesis controller
in improving the percentage overshoot and the
settling time.
:C\:\\Users\\user\\Desktop\\NEW JOURNAL FOR ORCID - Copy\\NEW\\Design and Simulation of Voltage Amplidyne System using Robust Control Technique.pdf:PDF
%0 Journal Article
%1 MustefaJibril12020b
%A Mustefa Jibril 1, Messay Tadese 2, Eliyas Alemayehu Tadese 3
%D 2020
%J Researcher Journal
%K Amplidyne, H control controller controller, infinity optimal synthesis via -iteration
%N 8
%P 13-17
%R 10.7537/marsrsj120820.03
%T Design and Simulation of Voltage Amplidyne System using Robust Control
Technique
%V 12
%X In this paper, modelling designing and simulation of a simple voltage
amplidyne system is done using
robust control theory. In order to increase the performance of the
voltage amplidyne system with H optimal control
synthesis and H optimal control synthesis via-iteration controllers
are used. The open loop response of the voltage
amplidyne system shows that the system can amplify the input 7 times.
Comparison of the voltage amplidyne
system with H optimal control synthesis and H optimal control synthesis
via-iteration controllers to track a desired
step input have been done. Finally, the comparative simulation results
prove the effectiveness of the proposed
voltage amplidyne system with H optimal control synthesis controller
in improving the percentage overshoot and the
settling time.
@article{MustefaJibril12020b,
abstract = {In this paper, modelling designing and simulation of a simple voltage
amplidyne system is done using
robust control theory. In order to increase the performance of the
voltage amplidyne system with H optimal control
synthesis and H optimal control synthesis via-iteration controllers
are used. The open loop response of the voltage
amplidyne system shows that the system can amplify the input 7 times.
Comparison of the voltage amplidyne
system with H optimal control synthesis and H optimal control synthesis
via-iteration controllers to track a desired
step input have been done. Finally, the comparative simulation results
prove the effectiveness of the proposed
voltage amplidyne system with H optimal control synthesis controller
in improving the percentage overshoot and the
settling time.},
added-at = {2020-09-01T13:58:46.000+0200},
author = {{Mustefa Jibril 1, Messay Tadese 2}, Eliyas Alemayehu Tadese 3},
biburl = {https://www.bibsonomy.org/bibtex/267e8d4e76b9cb138a9407a4b2bb85f66/mustefa1981},
doi = {10.7537/marsrsj120820.03},
file = {:C\:\\Users\\user\\Desktop\\NEW JOURNAL FOR ORCID - Copy\\NEW\\Design and Simulation of Voltage Amplidyne System using Robust Control Technique.pdf:PDF},
interhash = {a7810942e276ac401f8a381432704e46},
intrahash = {67e8d4e76b9cb138a9407a4b2bb85f66},
journal = {Researcher Journal},
keywords = {Amplidyne, H control controller controller, infinity optimal synthesis via -iteration},
month = {August},
number = 8,
owner = {user},
pages = {13-17},
review = {Peer Reviewed},
timestamp = {2020-09-01T13:59:01.000+0200},
title = {Design and Simulation of Voltage Amplidyne System using Robust Control
Technique},
volume = 12,
year = 2020
}