Title :
Stability analysis of underactuated bipedal gait using linearized model
Author_Institution :
Sch. of Inf. Sci., Japan Adv. Inst. of Sci. & Technol., Ishikawa, Japan
Abstract :
This paper investigates the self-stabilization principle underlying an underactuated bipedal gait generated by trajectory tracking control of the hip-joint angle. First, we introduce a planar underactuated compass-like biped robot with semicircular feet, and develop its dynamics and linearized system equation. We then design an output following control for the linearized robot´s hip-joint angle. Second, we analytically derive the transition equation of state error for the stance and collision phases from the state space representation. We then solve the stability limit and optimal condition of the stance phase and show the stability of the collision phase. Finally, the validity of the theoretical results is verified through numerical simulations.
Keywords :
legged locomotion; stability; trajectory control; collision phases; hip joint angle; linearized model; linearized robot ship joint angle; self stabilization principle; stability analysis; stability limit; state space representation; trajectory tracking control; transition equation; underactuated bipedal gait; Asymptotic stability; Equations; Legged locomotion; Mathematical model; Stability analysis; Vectors;
Conference_Titel :
Humanoid Robots (Humanoids), 2011 11th IEEE-RAS International Conference on
Conference_Location :
Bled
Print_ISBN :
978-1-61284-866-2
Electronic_ISBN :
2164-0572
DOI :
10.1109/Humanoids.2011.6100805
