CFP last date
20 May 2024
Call for Paper
June Edition
IJCA solicits high quality original research papers for the upcoming June edition of the journal. The last date of research paper submission is 20 May 2024

Submit your paper
Know more
The week's pick
Responsive image
Enhancing Privacy Preservation: Multi-Attribute Protection with P-Sensitive K-Anonymity

Twinkle Patel Kiran Amin
Random Articles
Reseach Article

Neural Network Control for PPDCV Clinker Cooler System

by Majid Ahmed Oleiwi, Zaid Abed Aljasem
journal cover thumbnail

International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 85 - Number 2
Year of Publication: 2014
Authors: Majid Ahmed Oleiwi, Zaid Abed Aljasem
10.5120/14815-3038

Majid Ahmed Oleiwi, Zaid Abed Aljasem . Neural Network Control for PPDCV Clinker Cooler System. International Journal of Computer Applications. 85, 2 ( January 2014), 29-34. DOI=10.5120/14815-3038

@article{ 10.5120/14815-3038,
author = { Majid Ahmed Oleiwi, Zaid Abed Aljasem },
title = { Neural Network Control for PPDCV Clinker Cooler System },
journal = { International Journal of Computer Applications },
issue_date = { January 2014 },
volume = { 85 },
number = { 2 },
month = { January },
year = { 2014 },
issn = { 0975-8887 },
pages = { 29-34 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume85/number2/14815-3038/ },
doi = { 10.5120/14815-3038 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T22:01:28.010736+05:30
%A Majid Ahmed Oleiwi
%A Zaid Abed Aljasem
%T Neural Network Control for PPDCV Clinker Cooler System
%J International Journal of Computer Applications
%@ 0975-8887
%V 85
%N 2
%P 29-34
%D 2014
%I Foundation of Computer Science (FCS), NY, USA
Abstract

Pilot Proportional Directional Control Valve (PPDCV) is used to control the clinker cooler actuator position for Cement Industries. PID controllers are satisfying control for the actuator position control with transient response and reduce steady state error. Uncertainty parameter cause unsmooth response small oscillation in actuator position. This work explains a neural network control for (PPDCV) system with uncertainty parameter, reduces the disturbance, and removes the oscillation in the response. The paper is focused on the possibilities of applying trained artificial neural networks for creating the system inverse models that are used to design inverse control algorithm for non-linear dynamic system. The simulation experiment is performed using Matlab and Simulink to show the response of these controllers.

References
  1. Yung C. Shin and Chengying Xu. 2008. Intelligent Systems Modeling, Optimization, and Control. Taylor & Francis Group, LLC.
  2. M. Norgaard, et al. 2000. Neural Networks for Modeling and Control of Dynamic Systems. A Practitioner's Handbook. Springer, Boston, MA.
  3. O. A. Dahunsi, J. et al. September 2010. System Identification and Neural Network Based PID Control of Servo - Hydraulic Vehicle Suspension System. South African Institute of Electrical Engineers; 101(3). 93-105.
  4. A. A. Mozafari and M. Lahroodi. April 2008. Modeling and Control of Gas Turbine Combustor with Dynamic and Adaptive Neural Networks. IJE Transactions B. Applications; 21(1). 71-84.
  5. Ammar A. Aldair and Weiji J. Wang. June 2011. Neural Controller Based Full Vehicle Nonlinear Active Suspension Systems with Hydraulic Actuators. International Journal of Control and Automation; 4(2). 79-94.
  6. A. Khajekaramodin et al. Aug 2007. Semi-active Control of Structures Using Neuro-Inverse Model of MR Dampers. First Joint Congress on Fuzzy and Intelligent Systems Ferdowsi in University of Mashhad.
  7. Wenjun Meng, Zhanlin and Wang Lihua Qiu. June 18-21, 2007. Analysis for Neural Network Controllers and Passivity-Based Controller on Test System for Aero Hydraulic Pump. 12thIFToMM World Congress, Besançon (France).
  8. Zhen-Yuan, et al. 2010. Characteristics Forecasting of Hydraulic Valve Based on Grey Correlation and ANFIS. Expert Systems with Applications 37. 1250–1255.
  9. Jyh-Chyang,et al. 2008. Modeling and Control of a New 1/4T Servo-Hydraulic Vehicle Active Suspension System. Journal of Marine Science and Technology; 15(3). 265-272.
  10. Parker Hannifin GmbH & Co. KG. 2009. Manual Series DF plus XG099.
  11. Majid Ahmed Oleiwi and Zaid Abed Aljasem. September 2013. Position Control for (PPDCV) Using PID & Fuzzy Supervisory Controller. Academic Research International; 4(5). 110-128.
  12. Bohdan T. et al. 2007. Dynamic Modeling and Control of Engineering Systems. Third Edition, John F. Gardner,.
  13. Mark Hudson Beale, et al. 2013. Neural Networks Toolbox User's Guide. The Math Works, Inc.
  14. Lera G. and M. Pinzolas. 2002. Neighborhood Based Levenberg-Marquardt Algorithm for Neural Network Training. IEEE Transactions on Neural Networks; 13(5). 1200-1203.
  15. D. Scholz. 1996. Proportional hydraulics. Festo Didactic KG, D73734 Esslingen, Textbook.
Index Terms

Computer Science
Information Sciences

Keywords

Neural Network PPDCV Clinker Cooler Servo System Simulation

Powered by PhDFocusTM