Title :
Analysis of human wrist joint impedance: Does human joint viscosity depend on its angular velocity?
Author :
Takeda, Y. ; Iwahara, M. ; Kato, T. ; Tsuji, T.
Author_Institution :
Dept. of Artificial Complex Syst. Eng., Hiroshima Univ.
Abstract :
A novel model for the mechanical joint impedance, which takes into account the force-velocity relationships of skeletal muscles, is proposed. First, velocity-dependent viscosity changes are formulated using the equation proposed by A. V. Hill. Then, human wrist joint impedance is estimated by a conventional model (a linear model) and the proposed novel model (a nonlinear model) for comparison. The estimated moment of inertia indicates approximately constant value in all muscle contraction levels, and the joint stiffness estimated from the both models increases with the increment of muscle contractions. However, when joint angular velocity starts to change, the estimated joint viscosity dramatically decreases with the increment of joint angular velocity
Keywords :
biomechanics; physiological models; force-velocity relationship; hill equation; human joint viscosity; human wrist joint impedance; joint angular velocity; linear model; mechanical joint impedance; moment of inertia; nonlinear model; skeletal muscle; skeletal muscles; velocity-dependent viscosity change; Angular velocity; Elasticity; Humans; Impedance; Joints; Muscles; Nonlinear equations; Timing; Viscosity; Wrist;
Conference_Titel :
Cybernetics and Intelligent Systems, 2004 IEEE Conference on
Conference_Location :
Singapore
Print_ISBN :
0-7803-8643-4
DOI :
10.1109/ICCIS.2004.1460725
