Genetic algorithm-based optimal bipedal walking gait synthesis considering tradeoff between stability margin and speed

Genetic algorithm-based optimal bipedal walking gait synthesis considering tradeoff between stability margin and speed

The inverse kinematics of a 12 degrees-of-freedom (DOFs) biped robot is formulated in terms of certain parameters. The biped walking gaits are developed using the parameters. The walking gaits are optimized using genetic algorithm (GA). The optimization is carried out considering relative importance...

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Veröffentlicht in:Robotica 2009-05, Vol.27 (3), p.355-365
Hauptverfasser: Dip, Goswami, Prahlad, Vadakkepat, Kien, Phung Duc
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Biped robot
Genetic algorithm
Inverse kinematics
Stability margin
Walking speed
Zero-moment-point
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Zusammenfassung:The inverse kinematics of a 12 degrees-of-freedom (DOFs) biped robot is formulated in terms of certain parameters. The biped walking gaits are developed using the parameters. The walking gaits are optimized using genetic algorithm (GA). The optimization is carried out considering relative importance of stability margin and walking speed. The stability margin depends on the position of zero-moment-point (ZMP) while walking speed varies with step-size. The ZMP is computed by an approximation-based method which does not require system dynamics. The optimal walking gaits are experimentally realized on a biped robot.
ISSN:0263-5747
1469-8668
DOI:10.1017/S026357470800475X