MohammadHossain Yarmahmoudi

Work place: Industrial Electrical and Electronic Engineering SanatkadeheSabze Pasargad. CO (S.S.P. Co), NO:16, PO.Code 71347-66773, Fourth floor, Dena Apr, Seven Tir Ave, Shiraz, Iran

E-mail: SSP.ROBOTIC@yahoo.com

Website:

Research Interests: Robotics, Artificial Intelligence

Biography

MohammadHossain Yarmahmoudi is an electrical engineer researcher of research and development company SSP. Co. He is an expert electrical control engineer in this company. His research activities deal with the robotic control, artificial intelligence and expert system.

Author Articles
Design Novel Fuzzy Robust Feedback Linearization Control with Application to Robot Manipulator

By Farzin Piltan MohammadHossain Yarmahmoudi Mina Mirzaie Sara Emamzadeh Zahra Hivand

DOI: https://doi.org/10.5815/ijisa.2013.05.01, Pub. Date: 8 Apr. 2013

First three degree of six degree of freedom robotic manipulator is controlled by a new fuzzy sliding feedback linearization controller. The robot arm has six revolute joints allowing the corresponding links to move horizontally. When developing a controller using conventional control methodology (e.g., feedback linearization methodology), a design scheme has to be produced, usually based on a system’s dynamic model. The work outline in this research utilizes soft computing applied to new conventional controller to address these methodology issues. Feedback linearization controller (FLC) is influential nonlinear controllers to certain systems which this method is based on compute the required arm torque using nonlinear feedback control law. When all dynamic and physical parameters are known FLC works superbly; practically a large amount of systems have uncertainties and fuzzy feedback linearization controller (FFLC) reduce this kind of limitation. Fuzzy logic provides functional capability without the use of a system dynamic model and has the characteristics suitable for capturing the approximate, varying values found in a MATLAB based area. To increase the stability and robustness new mathematical switching sliding mode methodology is applied to FFLC. Based on this research model free mathematical tunable gain new sliding switching feedback linearization controller applied to robot manipulator is presented to have a stable and robust nonlinear controller and have a good result compared with conventional and pure fuzzy logic controllers.

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