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International Journal of Information Engineering and Electronic Business (IJIEEB)

IJIEEB Vol. 6, No. 1, 8 Feb. 2014

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Design New Robust Self Tuning Fuzzy Backstopping Methodology

Full Text (PDF, 1254KB), PP.49-61

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Author(s)

Omid Avatefipour 1 Farzin Piltan 1,* Mahmoud Reza Safaei Nasrabad 1 Ghasem Sahamijoo 1 Alireza Khalilian 1

1. Institute of Advance Science and Technology, Intelligent control and Robotics Lab. IRAN SSP, Shiraz/Iran

* Corresponding author.

DOI: https://doi.org/10.5815/ijieeb.2014.01.06

Received: 2 Nov. 2013 / Revised: 10 Dec. 2013 / Accepted: 1 Jan. 2014 / Published: 8 Feb. 2014

Index Terms

Continuum robot manipulator, robust backstopping controller, fuzzy logic system, adaptive methodology, minimum rule base, PI like fuzzy controller

Abstract

This research is focused on proposed Proportional-Integral (PI) like fuzzy adaptive backstopping fuzzy algorithms based on Proportional-Derivative (PD) fuzzy rule base with the adaptation laws derived in the Lyapunov sense. Adaptive SISO PI like fuzzy adaptive backstopping fuzzy method has two main objectives; the first objective is design a SISO fuzzy system to compensate for the model uncertainties of the system, and the second objective is focused on the design PI like fuzzy controller based on PD method as an adaptive methodology. Classical backstopping control is robust to control model uncertainties and external disturbances and is a main controller in this research. The fuzzy controller is used in this method to system compensation. To increase the robust of this controller adaptive PI like fuzzy controller is introduced and applied to backstopping fuzzy controller. Classical backstopping control method has difficulty in handling unstructured model uncertainties. One can overcome this problem by combining a backstopping controller and artificial intelligence (e.g. fuzzy logic). To approximate a time-varying nonlinear dynamic system, a fuzzy system requires a large amount of fuzzy rule base. This large number of fuzzy rules will cause a high computation load. The addition of an adaptive law to a backstopping fuzzy controller to online tune the coefficients in use will ensure a moderate computational load. The adaptive laws in this algorithm are designed based on the Lyapunov stability theorem. This method is applied to continuum robot manipulator to have the best performance.

Cite This Paper

Omid Avatefipour, Farzin Piltan, Mahmoud Reza Safaei Nasrabad, Ghasem Sahamijoo, Alireza Khalilian, "Design New Robust Self Tuning Fuzzy Backstopping Methodology", International Journal of Information Engineering and Electronic Business(IJIEEB), vol.6, no.1, pp.49-61, 2014. DOI:10.5815/ijieeb.2014.01.06

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[28]Amin Jalali, Farzin Piltan, M. Keshtgar, M. Jalali, "Colonial Competitive Optimization Sliding Mode Controller with Application to Robot Manipulator", International Journal of Intelligent Systems and Applications, vol.5, no.7, pp.50-56, 2013. DOI: 10.5815/ijisa.2013.07.07.

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[33]O.R. Sadrnia, Farzin Piltan, M. Jafari, M. Eram and M. Shamsodini, "Design PID Estimator Fuzzy plus Backstopping to Control of Uncertain Continuum Robot", International Journal of Hybrid Information Technology, 6(4), 2013.

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[45]Mohammad Shamsodini, Farzin Piltan, Mahdi Jafari, Omid reza Sadrnia, Omid Mahmoudi,"Design Modified Fuzzy Hybrid Technique: Tuning by GDO", IJMECS, vol.5, no.8, pp.58-72, 2013.DOI: 10.5815/ijmecs.2013.08.07. 

[46]Mahdi Mirshekaran, Farzin Piltan,Zahra Esmaeili, Tannaz Khajeaian, Meysam Kazeminasab,"Design Sliding Mode Modified Fuzzy Linear Controller with Application to Flexible Robot Manipulator", IJMECS, vol.5, no.10, pp.53-63, 2013.DOI: 10.5815/ijmecs.2013.10.07.

[47]Meysam Kazeminasab, Farzin Piltan, Zahra Esmaeili, Mahdi Mirshekaran, Alireza Salehi ,"Design Parallel Fuzzy Partly Inverse Dynamic Method plus Gravity Control for Highly Nonlinear Continuum Robot", IJISA, vol.6, no.1, pp.112-123, 2014. DOI: 10.5815/ijisa.2014.01.12.

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