Uneingeschränkter Zugang

Accuracy Comparison of ARX and Anfis Model of an Electro-Hydraulic Actuator System

M. F. Rahmat

M. F. Rahmat

Department of Control and Instrumentation, Faculty of Electrical Engineering, Universiti Teknologi MalaysiaJohor, Malaysia
Suche nach diesem Autor auf
Sciendo|Google Scholar
Rahmat, M. F.
, 
T. G. Ling

T. G. Ling

Department of Control and Instrumentation, Faculty of Electrical Engineering, Universiti Teknologi MalaysiaJohor, Malaysia
Suche nach diesem Autor auf
Sciendo|Google Scholar
Ling, T. G.
, 
A. R. Husain

A. R. Husain

Department of Control and Instrumentation, Faculty of Electrical Engineering, Universiti Teknologi MalaysiaJohor, Malaysia
Suche nach diesem Autor auf
Sciendo|Google Scholar
Husain, A. R.
 und 
K. Jusoff

K. Jusoff

Department of Forest Production, Faculty of Forestry, Universiti Putra MalaysiaSelangor, Malaysia
Suche nach diesem Autor auf
Sciendo|Google Scholar
Jusoff, K.
  
01. Sept. 2011
Accuracy Comparison of ARX and Anfis Model of an Electro-Hydraulic Actuator System's Cover Image
Über diesen Artikel
Vorheriger Artikel
Nächster Artikel
Zitieren
COVER HERUNTERLADEN
Online veröffentlicht: 01. Sept. 2011
Seitenbereich: 440 - 453
Eingereicht: 01. Juli 2011
Akzeptiert: 18. Aug. 2011
DOI: https://doi.org/10.21307/ijssis-2017-449
Schlüsselwörter
© 2011 M. F. Rahmat et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

A. Alleyne and R. Liu, “A simplified approach to force control for electro-hydraulic systems,” Control Engineering Practice, vol. 8, pp. 1347-1356, 2000. Search in Google Scholar

P. M. FitzSimons and J. J. Palazzolo, “Part I: Modeling of a one-degree-of-freedom active hydraulic mount,” ASME J. Dynam. Syst., Meas., Contr., vol. 118, pp. 439-442, 1996.10.1115/1.2801164 Search in Google Scholar

P. M. FitzSimons and J. J. Palazzolo, “Part II: Control of a one-degree-of-freedom active hydraulic mount,” ASME J. Dynam. Syst., Meas., Contr., vol. 118, pp. 443-448, 1996.10.1115/1.2801165

A. Alleyne and J. K. Hendrick, “Nonlinear adaptive control of active suspensions,” IEEE Trans. Contr. Syst. Technol., vol. 3, pp. 94-101, 1995.10.1109/87.370714

B. Yao, J. Zhang, D. Koehler, and J. Litherland, “High performance swing velocity tracking control of hydraulic excavators,” in Proc. American Control Conf., 1998, pp. 818-822.10.1109/ACC.1998.703522 Search in Google Scholar

H. E. Merrit, Hydraulic Control Systems. New York: John Wiley & Sons, Inc., 1967. Search in Google Scholar

K. Ahn and J. Hyun, “Optimization of Double Loop Control Parameters for a Variable Displacement Hydraulic Motor by Genetic Algorithms,” JSME International Journal Series C-Mechanical Systems Machine Elements and Manufacturing, vol. 48, pp. 81-86, 2005.10.1299/jsmec.48.81

S. Y. Lee and H. S. Cho, “A fuzzy controller for an electro-hydraulic fin actuator using phase plane method,” Control Engineering Practice, vol. 11, pp. 697-708, 2003.10.1016/S0967-0661(02)00179-X Search in Google Scholar

A. G. Loukianov, E. Sanchez, and C. Lizalde, “Force tracking neural block control for an electro-hydraulic actuator via second-order sliding mode,” International Journal of Robust and Nonlinear Control, vol. 18, pp. 319-332, 2008.10.1002/rnc.1222

G. H. Shakouri and H. R. Radmanesh, “Identification of a continuous time nonlinear state space model for the external power system dynamic equivalent by neural network,” Electrical Power and Energy Systems, vol. 31, pp. 334-344, 2009.10.1016/j.ijepes.2009.03.016

T. Sugiyama and K. Uchida, “Gain-scheduled velocity and force controllers for electrohydraulic servo system,” Electrical Engineering in Japan, vol. 146, pp. 65-73, 2004.10.1002/eej.10239 Search in Google Scholar

H. C. Lu and W. C. Lin, “Robust Controller with Disturbance Rejection for Hydraulic Servo Systems,” IEEE Transactions on Industrial Electronics, vol. 40, pp. 157-162, 1993.10.1109/41.184833 Search in Google Scholar

M. F. Rahmat, S. M. Rozali, N. A. Wahab, and Zulfatman, “Application of Draw Wire Sensor in Position Tracking of Electro Hydraulic Actuator System,” International Journal on Smart Sensing and Intelligent Systems, vol. 3, pp. 736-755, December 2010.10.21307/ijssis-2017-418

R. Ghazali, Y. M. Sam, M. F. Rahmat, A. W. I. M. Hashim, and Zulfatman, “Sliding Mode Control with PID Sliding Surface of an Electro-hydraulic Servo System for Position Tracking Control,” Australian Journal of Basic and Applied Sciences, vol. 4, pp. 4749-4759, 2010.

M. F. Rahmat, Zulfatman, A. R. Husain, K. Ishaque, and M. Irhouma, “Self-Tuning Position Tracking Control of an Electro-Hydraulic Servo System in the Presence of Internal Leakage and Friction,” International Review of Automatic Control, vol. 3, pp. 673-683, November 2010. Search in Google Scholar

R. Ghazali, Y. M. Sam, M. F. Rahmat, and Zulfatman, “On-line Identification of an Electro-hydraulic System using Recursive Least Square,” in Proceedings of 2009 IEEE Student Conference on Research and Development (SCOReD 2009), 2009, pp. 471-474.10.1109/SCORED.2009.5442965 Search in Google Scholar

M. F. Rahmat, S. M. Rozali, N. A. Wahab, Zulfatman, and K. Jusoff, “Modeling and Controller Design of an Electro-Hydraulic Actuator System,” American Journal of Applied Sciences, vol. 7, pp. 1100-1108, 2010.

R. Ghazali, Y. M. Sam, M. F. Rahmat, K. Jusoff, Zulfatman, and A. W. I. M. Hashim, “Self-Tuning Control of an Electro-Hydraulic Actuator System,” International Journal on Smart Sensing and Intelligent Systems, vol. 4, pp. 189-204, June 2011.10.21307/ijssis-2017-435

Zulfatman and M. F. Rahmat, “Application of Self-Tuning Fuzzy PID Controller on Industrial Hydraulic Actuator using System Identification Approach,” International Journal on Smart Sensing and Intelligent Systems, vol. 2, pp. 246-261, June 2009.10.21307/ijssis-2017-349

T. G. Ling, M. F. Rahmat, A. R. Husain, and R. Ghazali, “System identification of electro-hydraulic actuator servo system,” in Mechatronics (ICOM), 2011 4th International Conference On, 2011, pp. 1-7.10.1109/ICOM.2011.5937172 Search in Google Scholar

A. Baylar, D. Hanbay, and E. Ozpolat, “Modeling aeration efficiency of stepped cascades by using ANFIS,” Clean-Soil Air Water, vol. 35, pp. 186-192, 2007.10.1002/clen.200700019

A. Depari, A. Flammini, D. Marioli, and A. Taroni, “Application of an ANFIS algorithm to sensor data processing,” IEEE Transactions on Instrumentation and Measurement, vol. 56, pp. 75-79, 2007.10.1109/TIM.2006.887321 Search in Google Scholar

K. Erenturk, “ANFIS-Based Compensation Algorithm for Current-Transformer Saturation Effects,” IEEE Transactions on Power Delivery, vol. 24, pp. 195-201, 2009.10.1109/TPWRD.2008.2005882

M. E. Keskin, D. Taylan, and O. Terzi, “Adaptive neural-based fuzzy inference system (ANFIS) approach for modelling hydrological time series,” Hydrological Sciences Journal-Journal Des Sciences Hydrologiques, vol. 51, pp. 588-598, 2006.10.1623/hysj.51.4.588

Y. J. Zhang, T. Y. Chai, H. Wang, J. Fu, L. Y. Zhang, and Y. G. Wang, “An Adaptive Generalized Predictive Control Method for Nonlinear Systems Based on ANFIS and Multiple Models,” IEEE Transactions on Fuzzy Systems, vol. 18, pp. 1070-1082, 2010. Search in Google Scholar

P. J. C. Branco and J. A. Dente, “On using fuzzy logic to integrate learning mechanisms in an electro- hydraulic system - Part I: Actuator’s fuzzy modeling,” IEEE Transactions on Systems Man and Cybernetics Part C-Applications and Reviews, vol. 30, pp. 305-316, 2000.10.1109/5326.885112 Search in Google Scholar

P. J. C. Branco and J. A. Dente, “On using fuzzy logic to integrate learning mechanisms in an electro- hydraulic system - Part II: Actuator’s position control,” IEEE Transactions on Systems Man and Cybernetics Part C-Applications and Reviews, vol. 30, pp. 317-328, 2000.10.1109/5326.885113Search in Google Scholar

Sprache:
Englisch
Zeitrahmen der Veröffentlichung:
1 Hefte pro Jahr
Fachgebiete der Zeitschrift:
Technik, Einführungen und Gesamtdarstellungen, Technik, andere
Zeitschrift RSS Feed