Title :
Kinematic modelling of anthropomorphic robot upper limb with human-like hands
Author_Institution :
LATTIS, Univ. of Toulouse, Toulouse, France
Abstract :
The actual development of humanoid robots has recently led robot designers to take interest in human-like artificial hands to be used by anthropomorphic manipulators instead of the classic, but so weakly anthropomorphic, industrial robot gripper. Controlling a robot upper limb with an artificial hand is, according to us, a new challenge for robotics. We analyze how to derive a Denavit-Hartenberg table associating a serial kinematic model of the arm with a branched-chain model of the hand adapted to both the coordination of digits alone and to combined movements between arm and digit. We test an original 11R model combining a 7R arm model with a 4R index model for which we propose a differential computation based on M.Renaud´s preferential Jacobian notion. Preliminary simulation results highlight new issues for the task space control of manipulators with jointed digits.
Keywords :
Jacobian matrices; artificial limbs; dexterous manipulators; humanoid robots; manipulator kinematics; Denavit-Hartenberg table; Jacobian notion; anthropomorphic manipulator; anthropomorphic robot upper limb; branched-chain model; human-like artificial hand; humanoid robot; kinematic modelling; task space control; Anthropomorphism; Computational modeling; Grippers; Humanoid robots; Jacobian matrices; Manipulators; Robot control; Robot kinematics; Service robots; Testing; Artificial hand kinematics; Branched kinematic chains; Human upper limb modelling;
Conference_Titel :
Advanced Robotics, 2009. ICAR 2009. International Conference on
Conference_Location :
Munich
Print_ISBN :
978-1-4244-4855-5
Electronic_ISBN :
978-3-8396-0035-1
