Evolutionary approach for developing fast and stable offline humanoid walk

Author

Farazi, H. ; Ahmadinejad, F. ; Maleki, Farhad ; Shiri, M. Ebrahim

Author_Institution

Math. & Comput. Sci. Dept., Amirkabir (Polytech. Tehran) Univ., Tehran, Iran

fYear

2013

fDate

8-8 April 2013

Firstpage

1

Lastpage

6

Abstract

To make stable and fast walking in humanoid robot possible, lots of works has to be done including attitude estimation, dynamic stability controls, path planning and online position tracking. These processes need an exact mechanic modelling of the robot´s body structure. In this paper, an evolutionary approach is used to model the human walk for a standard humanoid robot named NAO. This method makes use of inverse kinematics for trajectory generations. Additionally a novel method is proposed for mapping from gait design to genetic algorithm, in order to optimize generated trajectory parameters. The proposed method leads us to forward velocity of 64 cm/s, which is a superior result compared to the other common methods.

Keywords

attitude measurement; genetic algorithms; humanoid robots; legged locomotion; path planning; robot kinematics; stability; NAO; attitude estimation; dynamic stability control; evolutionary approach; gait design; generated trajectory parameter optimization; genetic algorithm; humanoid robot; inverse kinematics; mechanic modelling; offline humanoid walk; online position tracking; path planning; robot body structure; trajectory generation; Biological cells; Genetic algorithms; Hip; Joints; Legged locomotion; Trajectory; Genetic algorithm; Humanoid; Inverse kinematics; NAO; Robotics;

fLanguage

English

Publisher

ieee

Conference_Titel

AI & Robotics and 5th RoboCup Iran Open International Symposium (RIOS), 2013 3rd Joint Conference of

Conference_Location

Tehran

Type

conf

DOI

10.1109/RIOS.2013.6595325

Filename

6595325