Home > Archive > 2012 > Volume 2 Number 5 (Oct. 2012) >
IJMLC 2012 Vol.2(5): 598-603 ISSN: 2010-3700
DOI: 10.7763/IJMLC.2012.V2.197

Biped Robot Walking using a Combination of Truncated Fourier Series and GALA (Genetic Algorithm parameters adaption using Learning Automata)

Omid Mohamad Nezami and Mohammad Reza Meybodi

Abstract—Controlling a biped robot with a high degree of freedom to achieve stable, straight and fast movement patterns is one of the most complex problems. With growing computational power of computer hardware, simulation of such robots in high resolution real time environment has become more applicable. This paper introduces a novel approach to Generate Bipedal gait for humanoid locomotion. In this scene, first we have used a modified Truncated Fourier Series (TFS) to generate angular trajectories, then to find the best angular trajectory we built an improved Genetic Algorithm (GA). One of the major difficulties of GAs is choosing appropriate values for mutation and crossover parameters. Hence, we present GALA (Genetic Algorithm parameters adaption using Learning Automata) to adjust these parameters by recruiting Learning Automata. As results show, my approach could generate better values for angular trajectories for biped walking, hence in my approach the robot could walk with high stability and faster than other approaches. Evaluations performed on Simulated NAO robot in RoboCup 3D soccer simulation environment.

Index Terms—Bipedal locomotion, learning automata, genetic algorithm, truncated Fourier series.

O. Mohamad Nezami is with the Bijar Branch, Islamic Azad University, Bijar, Iran (e-mail: omid.mnezami@gmail.com).
M. R. Meybodi is with the Computer Engineering Department of Amirkabir University of Technology, Tehran, Iran (e-mail: meybodi@ce.aut.ac.ir).

[PDF]

Cite:Omid Mohamad Nezami and Mohammad Reza Meybodi, "Biped Robot Walking using a Combination of Truncated Fourier Series and GALA (Genetic Algorithm parameters adaption using Learning Automata)," International Journal of Machine Learning and Computing vol.2, no. 5, pp. 598-603, 2012.

General Information

  • E-ISSN: 2972-368X
  • Abbreviated Title: Int. J. Mach. Learn.
  • Frequency: Quaterly
  • DOI: 10.18178/IJML
  • Editor-in-Chief: Dr. Lin Huang
  • Executive Editor:  Ms. Cherry L. Chen
  • Abstracing/Indexing: Inspec (IET), Google Scholar, Crossref, ProQuest, Electronic Journals LibraryCNKI.
  • E-mail: ijml@ejournal.net


Article Metrics in Dimensions