Title :
Bio-inspired control design for high-speed trot-running quadruped robots
Author :
Jongwoo Lee ; Dong Jin Hyun
Abstract :
The mobility of animals´ locomotion still outperforms that of quadruped robots despite robots´ faster sensing and actuation. Previously, we developed a hierarchically structured controller for high-speed quadruped locomotion, mainly considering three coupled issues that arise from the complexity of locomotor dynamics: 1) locomotor stability, 2) multi-limb coordination, and 3) forceful interaction with the ground. We have sought scientific clues in biomechanical studies of quadruped animals, and reflecting those biological observations significantly reduced the number of controller parameters to be tuned. In dynamic simulation studies, an 11 degree-of-freedom robot model with the designed controller, facilitated by self-stabilizing mechanisms, achieved stable trot-running at various speeds.
Keywords :
biomechanics; controllers; mobile robots; motion control; velocity control; animal locomotion mobility; bio-inspired control design; biological observations; biomechanical studies; controller parameters; degree-of-freedom robot model; hierarchically structured controller; high-speed quadruped locomotion; high-speed trot-running quadruped robots; locomotor dynamics complexity; locomotor stability; multilimb coordination; robot faster actuation; robot faster sensing; self-stabilizing mechanisms; Animals; Impedance; Legged locomotion; Robot kinematics; Robot sensing systems; Trajectory; bio-inspired quadruped controller; impedance control; legged locomotion;
Conference_Titel :
Bioengineering Conference (NEBEC), 2014 40th Annual Northeast
Conference_Location :
Boston, MA
DOI :
10.1109/NEBEC.2014.6972853
