Inverse Dynamics of Human Passive Motion Based on Iterative Learning Control

Author

Taniguchi, Shohei ; Kino, Hitoshi ; Ozawa, Ryuta ; Ishibashi, Ryota ; Uemura, Mitsunori ; Kanaoka, Katsuya ; Kawamura, Sadao

Author_Institution

R&D Center, Panasonic Electr. Works Co., Ltd., Kadoma, Japan

Volume

42

Issue

2

fYear

2012

fDate

3/1/2012 12:00:00 AM

Firstpage

307

Lastpage

315

Abstract

Estimation of joint torque is an important objective in the analyses of human motion. In particular, many applications seek to discern torque during a desired human motion, which is equivalent to solving the inverse dynamics. The computed torque method is a conventional means of calculating inverse dynamics. The obtained torque, however, invariably includes errors resulting from inexact inertial and viscoelastic parameters. This paper presents a method for solving the inverse dynamics of a human arm passively during tracking. To achieve precise human motion tracking, iterative learning control is used for motion generation. Some experiments that target a human arm are executed to validate the proposed method.

Keywords

adaptive control; biocontrol; gait analysis; iterative methods; learning systems; torque control; computed torque method; human motion tracking; human passive motion inverse dynamics; inexact inertial; iterative learning control; joint torque estimation; motion generation; viscoelastic parameters; Dynamics; Estimation; Humans; Joints; Torque; Tracking; Wires; Human arm; inverse dynamics; iterative learning; torque estimation;

fLanguage

English

Journal_Title

Systems, Man and Cybernetics, Part A: Systems and Humans, IEEE Transactions on

Publisher

ieee

ISSN

1083-4427

Type

jour

DOI

10.1109/TSMCA.2011.2170413

Filename

6080737