Author:
Sinnet Ryan W., ,Ames Aaron D.
Abstract
Bridging contemporary techniques in bio-inspired control affords a unique perspective into human locomotion where the interplay between sagittal and coronal dynamics is understood and exploited to simplify control design. Functional Routhian reduction is particularly useful on bipeds as it decouples these dynamics, allowing for control design on a sagittallyrestricted model while providing coronal stabilization. 2D sagittal walking is designed using Human-Inspired Control which produces humanlike walking with good stability properties. This walking is then easily translated to 3D via reduction. The proposed control scheme, which is based on a fundamental understanding of human walking, is validated in both simulation and experiment.
Publisher
Fuji Technology Press Ltd.
Subject
Electrical and Electronic Engineering,General Computer Science
Reference18 articles.
1. S. H. Collins, A. Ruina, R. Tedrake, and M. Wisse, “Efficient Bipedal Robots Based on Passive-Dynamic Walkers,” Science, Vol.307, pp. 1082-1085, February 2005.
2. M. Vukobratović and B. Borovac, “Zero-Moment Point – Thirty-Five Years of Its Life,” Int. J. of Humanoid Robotics, Vol.1, No.1, pp. 157-173, March 2005.
3. E. R. Westervelt, J. W. Grizzle, C. Chevallereau, J. H. Choi, and B. Morris, “Feedback Control of Dynamic Bipedal Robot Locomotion,” CRC Press, Boca Raton, June 2007.
4. A. D. Ames, R. Vasudevan, and R. Bajcsy, “Human-Data Based Cost of Bipedal Robotic Walking,” In 14th Int. Conf. on Hybrid Systems: Computation and Control, pp. 153-162, Chicago, April 2011.
5. R. W. Sinnet, M. J. Powell, R. P. Shah, and A. D. Ames, “A Human-Inspired Hybrid Control Approach to Bipedal Robotic Walking,” In 18th IFAC World Congress, pp. 6904-6911, Milan, September 2011.
Cited by
8 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献