Title :
Passivity-based control [robot dynamics]
Author_Institution :
Dept. of Robotics, Ritsumeikan Univ., Shiga, Japan
Abstract :
Dynamics of a robot naturally satisfy passivity whether its tool endpoint is free to move or constrained on a surface of an object or environment. This property is inherent to the fact that robot dynamics can be derived from a variational form based on the concept of Euler-Lagrange formalism. In this paper it is shown that a class of robust and effective controllers can be designed by referring to the variational form. These controllers have a simple structure and can be designed without using the exact knowledge of kinematic and dynamic parameters and thereby are robust against parameter uncertainties. It is also shown that a class of H∞ controllers for suppression of the effect of external disturbances can be designed naturally without solving Hamilton-Jacobi´s differential equations. Even in the case of a system of dual fingers with flexible and soft finger-tips grasping a rigid or deformable object, the dynamics satisfy passivity, from which feedback control schemes can be devised for realizing dynamic stable grasping and dexterous manipulation
Keywords :
H∞ control; dexterous manipulators; feedback; flexible manipulators; manipulator dynamics; manipulator kinematics; robust control; variational techniques; H∞ control; dexterous manipulators; feedback; flexible manipulators; grasping; kinematics; passivity-based control; robot dynamics; robust control; variational techniques; Adaptive control; Ear; Equations; Fingers; H infinity control; Lagrangian functions; Manipulator dynamics; Robots; Robust control; Uncertain systems;
Conference_Titel :
Robotics and Automation, 2000. Proceedings. ICRA '00. IEEE International Conference on
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-5886-4
DOI :
10.1109/ROBOT.2000.844063
