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Parametric study of repeatable gait for a planar five-link biped

Published online by Cambridge University Press:  06 September 2002

Bin Ma  and
Qiong Wu
Bin Ma
Affiliation:
Department of Mechanical and Industrial Engineering, University of Manitoba, Winnipeg, Manitoba (Canada) R3T 5V6
Qiong Wu
Affiliation:
Department of Mechanical and Industrial Engineering, University of Manitoba, Winnipeg, Manitoba (Canada) R3T 5V6
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Summary

Parametric formulation is a systematic method that ties the constraint functions to the resulting joint profiles for bipedal robots. Acceptable joint profiles for continuous and steady walking must satisfy the additional condition of being repeatable. This extra condition imposes restrictions on the selection of constraint functions, gait parameters and the initial posture of each step, and can make the synthesis of joint profiles extremely challenging. This paper presents a correlation between the gait parameters used in a class of specific constraint functions and the initial posture that will create repeatable gait. Furthermore, a general necessary and sufficient condition for repeatable gait is proposed. This condition provides a guideline for selecting constraint functions and their associated gait parameters in the context of producing repeatable gait. This research can not only provide valuable insights into bipedal walking, but also serve as a stepping stone for employing parametric formulation with various constraint functions.

Keywords

Bipedal modelRepeatable gaitParametric formulationJoint analysis
Type
Research Article
Information
Robotica , Volume 20 , Issue 5 , September 2002 , pp. 493 - 498
Copyright
Copyright © Cambridge University Press 2002

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References

1. Tzafestas, S., Raibert, M. and Tzafestas, C., “Robust Slidingmode Control Applied to a 5-Link Biped Robot”, Journal of Intellieent and Robotic Systems 15, 67133 (1996).Google Scholar
2. Furusho, J. and Masubuchi, M., “Control of a Dynamical Biped Locomotion System for Steady Walking”, Journal of Dynamic Systems, Measurement, and Control 108, 111118 (1986).Google Scholar
3. Furusho, J. and Masubuchi, M., “A Theoretically Motivated Reduced Order Model for the Control of Dynamic Biped Locomotion”, Journal of Dynamic Systems, Measurement, and Control 109, 155163 (1987).CrossRefGoogle Scholar
4. Vukobratovic, M., Borovac, B., Surla, D. and Stokic, D., Scientific Fundamentals of Robotics 7. Biped Locomotion: Dynamics Stability, Control and Application (Springer Verlag, New York, 1990).CrossRefGoogle Scholar
5. Hurmuzlu, Y., “Dynamics of Bipedal Gait: Part I – Objective Functions and the Contact Event of a Planar Five-Link Biped”, Journal of Applied Mechanics 60, 331336 (1993).Google Scholar
6. Hurmuzlu, Y., “Dynamics of Bipedal Gait: Part II – Stability Analysis of a Planar Five-Link Biped”, Journal of Applied Mechanics 60, 337343 (1993).CrossRefGoogle Scholar
7. Wu, Q. and Chan, C.Y.A.. “Design of energy efficient joint profiles for a planar five-link biped robot”, Proceedings of 2001 IEEE International Symposium on Computational Intelligence in Robotics and Automation (IEEE CIRA 2001) (2001) pp. 35–40.Google Scholar
8. Channon, P. H., Hopkins, S.H. and Pham, D.T., “A variational approach to the optimization of gait for a bipedal robot”, Journal of Mechanical Engineering Science 210, 177186 (1996).CrossRefGoogle Scholar