论文信息 - Development of a mastication robot using nonlinear viscoelastic mechanism

Development of a mastication robot using nonlinear viscoelastic mechanism

This paper describes the mathematical and mechanical models that simulate the nonlinearity of human's masticatory muscle. In addition, the experimental results of a real food chewing experiment by a mastication robot is described. When the lower jaw rapidly closes during the chewing motion, it may come in hard contact with the upper jaw if the food is a crushable one. To clarify the mechanism of this reflective jaw motion, the authors focused on the nonlinearity of human's masticatory muscle. The authors propose a feasible mathematical model of the muscle and its nonlinearity. A nonlinear viscoelastic mechanism is designed based on the mathematical model. From the result of chewing experiment, the authors confirmed the effectiveness of the proposed mechanism for the control of the robot jaw.

Atsuo Takanishi | Hideaki Takanobu | Takeyuki Yajima

[1] Kenzo Akazawa,et al. ANALYSIS OF MODULATION OF MECHANICAL IMPEDANCE IN HUMAN SKELETAL MUSCLES , 1990 .

[2] N. Hogan. Adaptive control of mechanical impedance by coactivation of antagonist muscles , 1984 .

[3] Kenzo Akazawa,et al. SIMULTANEOUS MODULATION OF FORCE GENERATION AND MECHANICAL PROPERTY OF MUSCLE IN VOLUNTARY CONTRACTION , 1994 .

[4] E. Luschei,et al. The strength of the reflex response to sinusoidal stretch of monkey jaw closing muscles during voluntary contraction. , 1978, The Journal of physiology.

[5] J. Murphy,et al. Measurements of human forearm viscoelasticity. , 1986, Journal of biomechanics.

[6] Atsuo Takanishi,et al. Control of rapid closing motion of a robot jaw using nonlinear spring mechanism , 1995, Proceedings 1995 IEEE/RSJ International Conference on Intelligent Robots and Systems. Human Robot Interaction and Cooperative Robots.

[7] Atsuo Kato,et al. VISCO-ELASTICITY CHANGE IN HUMAN MUSCLE , 1992 .

[8] J. Edward Colgate,et al. Design of components for programmable passive impedance , 1991, Proceedings. 1991 IEEE International Conference on Robotics and Automation.

[9] Hiroaki Kobayashi,et al. Kinematic and Control Issues on a Tendon-Controlled Wrist Mechanism , 1992 .