Development of a biologically inspired hopping robot-"Kenken"

As many biomechanists indicate, a tendon plays an important role in running or jumping motions. It stores the kinetic energy as a potential energy during stance and also absorbs the impulse at touch down. Inspired by such biomechanical studies, we propose a simple mechanical model for the hindlimb of a dog to realize a robot that imitates a dog running, and the hardware design of a one-legged running robot, "Kenken". The robot has an articulated leg and uses two hydraulic actuators as muscles and a tensile spring as a tendon. The spring being attached like the gastrocnemius or plantaris enables the robot to produce sufficient propulsion force by virtue of the "energy transfer" from the knee, even if there is no actuator at the ankle joint. Using an empirical controller based on the characteristic dynamics of the model, the robot has succeeded in planar one-legged hopping. Although the problem related to the stability at higher speeds remains, experimental results demonstrate that the proposed hindlimb mechanism is effective for legged running.

[1]  Rui Liu,et al.  Nonlinear Force/Pressure Tracking of an Electro-Hydraulic Actuator , 2000 .

[2]  A. Alleyne,et al.  Nonlinear force/pressure tracking of an electro-hydraulic actuator , 1999 .

[3]  V M Zatsiorsky,et al.  Tendon action of two-joint muscles: transfer of mechanical energy between joints during jumping, landing, and running. , 1994, Journal of biomechanics.

[4]  Marc H. Raibert,et al.  Legged Robots That Balance , 1986, IEEE Expert.

[5]  T. McMahon,et al.  The mechanics of running: how does stiffness couple with speed? , 1990, Journal of biomechanics.

[6]  R. M. Alexander,et al.  The maximum forces exerted by animals. , 1985, The Journal of experimental biology.

[7]  Martin Buehler,et al.  The ARL monopod II running robot: control and energetics , 1999, Proceedings 1999 IEEE International Conference on Robotics and Automation (Cat. No.99CH36288C).

[8]  Jessica K. Hodgins,et al.  Biped Gymnastics , 1988, Int. J. Robotics Res..

[9]  W Herzog,et al.  Transfer of mechanical energy between ankle and knee joints by gastrocnemius and plantaris muscles during cat locomotion. , 1996, Journal of biomechanics.

[10]  Tsutomu Mita,et al.  Analytical time optimal control solution for a two-link planar aerobot with initial angular momentum , 2001, IEEE Trans. Robotics Autom..

[11]  Marc H. Raibert,et al.  Control Of A Biped Somersault In 3D , 1992, Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems.

[12]  Daniel E. Koditschek,et al.  Toward the control of a multi-jointed, monoped runner , 1998, Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146).

[13]  Jerry E. Pratt,et al.  Intuitive control of a planar bipedal walking robot , 1998, Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146).

[14]  Garth Zeglin,et al.  Control of a bow leg hopping robot , 1998, Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146).

[15]  R. M. Alexander,et al.  Elastic mechanisms in animal movement , 1988 .

[16]  E Pennisi A New View of How Leg Muscles Operate on the Run , 1997, Science.

[17]  Suguru Arimoto,et al.  A Control Theoretic Study on the Dynamics of Biped Locomotion , 1978 .

[18]  Martin Buehler,et al.  Stable control of a simulated one-legged running robot with hip and leg compliance , 1997, IEEE Trans. Robotics Autom..

[19]  Gill A. Pratt,et al.  Force controllable hydro-elastic actuator , 2000, Proceedings 2000 ICRA. Millennium Conference. IEEE International Conference on Robotics and Automation. Symposia Proceedings (Cat. No.00CH37065).

[20]  I. Shimoyama,et al.  Dynamic Walk of a Biped , 1984 .

[21]  Marc Raibert,et al.  Control of hoof rolling in an articulated leg , 1991, Proceedings. 1991 IEEE International Conference on Robotics and Automation.

[22]  C. T. Farley,et al.  Running springs: speed and animal size. , 1993, The Journal of experimental biology.

[23]  Tad McGeer,et al.  Passive walking with knees , 1990, Proceedings., IEEE International Conference on Robotics and Automation.

[24]  Garth Zeglin,et al.  Uniroo--a one legged dynamic hopping robot , 1991 .