Title :
Optimal human-inspired ankle stiffness regulation for humanoid balancing control
Author :
Mosadeghzad, Mohamad ; Karavas, Nikos ; Ajoudani, Arash ; Tsagarakis, Nikos G. ; Spyrakos-Papastavridis, Emmanouil ; Caldwell, Darwin G.
Author_Institution :
Dept. of Adv. Robot., Ist. Italiano di Tecnol., Genoa, Italy
Abstract :
In this work, a novel optimal human-inspired balancing control for the compliant humanoid, CoMAN, is introduced. The presented technique was motivated by the results of a human balance analysis. In particular, a human balancing experiment was carried out to investigate the torque-to-angular displacement profiles about the ankle joint. Experimental results obtained from this study, indicated that both the dorsiflexion and plantarflexion torques present an approximately exponential behavior. These findings served as an inspiration for the development of an optimal, nonlinear stiffness stabilizer, based on an ankle strategy. The balance stabilizer was experimentally validated on the compliant humanoid, CoMAN, demonstrating its balance inducing ability.
Keywords :
humanoid robots; optimal control; stability; torque; CoMAN; ankle joint; ankle strategy; balance stabilizer; compliant humanoid; dorsiflexion torques; exponential behavior; human balance analysis; human balancing experiment; humanoid balancing control; nonlinear stiffness stabilizer; optimal human-inspired ankle stiffness regulation; optimal human-inspired balancing control; plantarflexion torques; torque-to-angular displacement profiles; Cost function; Damping; Impedance; Joints; Mathematical model; Robots; Torque;
Conference_Titel :
Humanoid Robots (Humanoids), 2014 14th IEEE-RAS International Conference on
Conference_Location :
Madrid
DOI :
10.1109/HUMANOIDS.2014.7041471
