Title :
Comparing Approaches for Actuator Redundancy Resolution in Biarticularly-Actuated Robot Arms
Author :
Salvucci, Valerio ; Kimura, Yuichi ; Sehoon Oh ; Koseki, Takafumi ; Hori, Yoichi
Author_Institution :
Dept. of Electr. Eng. & Inf. Syst., Univ. of Tokyo, Tokyo, Japan
Abstract :
Biarticular actuators-actuators spanning two joints-play a fundamental role in robot arm designs based on the human musculoskeletal actuation structure. Unlike kinematic redundancy, actuator redundancy resulting from biarticular actuation brings advantages such as increased stability, reduced link inertia, and decreased nonlinearity of the end-effector force with respect to the force direction. The way the actuator redundancy is resolved is a fundamental problem, as it strongly characterizes robot arms performance. In this study, the six most significant actuation redundancy resolution approaches in the literature-1-norm, 2-norm, infinity-norm, phase different control (PDC), nonlinear hase different control (NLPDC), and linear programming (LP)-are analyzed with respect to their design, and experimentally compared with each other using BiWi, a biarticularly actuated and wire-driven robot arm. In addition, an integrated control framework to resolve actuator redundancy maximizing end-effector force and simultaneously minimizing the necessary input torques is proposed.
Keywords :
actuators; control system synthesis; end effectors; linear programming; nonlinear control systems; robot kinematics; stability; 2-norm; NLPDC; actuator redundancy resolution; biarticular actuators; biarticularly-actuated robot arms; end effector force; human musculoskeletal actuation structure; infinity-norm; kinematic redundancy; linear programming; literature-1-norm; nonlinear phase different control; reduced link inertia; robot arm designs; stability; Biomechanics; control systems; manipulators; robots;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2013.2257826
