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http://dx.doi.org/10.5302/J.ICROS.2009.15.12.1216

Analytic Solution for Stable Bipedal Walking Trajectory Generation Using Fourier Series  

Park, Ill-Woo (광운대학교 정보제어공학과)
Back, Ju-Hoon (광운대학교 정보제어공학과)
Publication Information
Journal of Institute of Control, Robotics and Systems / v.15, no.12, 2009 , pp. 1216-1222 More about this Journal
Abstract
This article describes a simple method for generating the walking trajectory for the biped humanoid robot. The method used a simple inverted model instead of complex multi-mass model and a reasonable explanation for the model simplification is included. The problem of gait trajectory generation is to find the solution from the desired ZMP trajectory to CoG trajectory. This article presents the analytic solution for the bipedal gait generation on the bases of ZMP trajectory. The presented ZMP trajectory has Fourier series form, which has finite or infinite summation of sine and cosine functions, and ZMP trajectory can be designed by calculating the coefficients. From the designed ZMP trajectory, this article focuses on how to find the CoG trajectory with analytical way from the simplified inverted pendulum model. Time segmentation based approach is adopted for generating the trajectories. The coefficients of the function should be designed to be continuous between the segments, and the solution is found by calculating the coefficients with this connectivity conditions. This article also has the proof and the condition of solution existence.
Keywords
biped walking; biped locomotion; humanoid robot; ZMP; biped gait; analytical solution;
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1 M. Morisawa, S. Kajita, K. Kaneko, K. Harada, F. Kanehiro, K. Fujiwara, and H. Hirukawa, 'Pattern generation of biped walking constrained on parametric surface,' IEEE Int. Corf. on Robotics & Automation, pp. 2405-2410, Apr. 2005
2 T. Sugihara and Y. Nakamura, 'A fast online gait planning with boundary condition relaxation for humanoid robots,' IEEE Int. Conf. on Robotics & Automation, pp. 305-310, Apr. 2005
3 I-W. Park, J.-Y Kim, J. H. Lee, and J.-H. Oh, 'Online Free walking trajectory generation for biped hlUllanoid robot KHR-3 (HUBO),' IEEE Int. Corf. on Robotics & Automation, pp. 1231-1236,2006
4 J. Y Kim, I. W. Park, and J. H. Oh, 'Design and Walking Control of the Humanoid Robot, KHR-2,' Int. Corf. on Control, Automation and Systems, pp. 1539-1543, Aug. 2004
5 J. Yamaguchi, A. Takanishi, and I. Kato, Development of a Biped Walking Robot Compensating for Three-Axis Moment by Trunk Motion, in Proc. IEEE/RSJ Int. Conf. on Intelligent Robots and Systems, pp. 561-566, Yokohama, Japan, Jul. 1993
6 S. Kagami, K. Nishiwaki, T. Kitagawa, T. Sugihiara, M. lnaba, and H. Inoue, 'A fast generation method of dynamically stable humanoid robot trajectory with enhanced ZMP constraint,' Proc.of IEEE International Conf on Humanoid Robotics, Boston, Sep.2000
7 Kensuke Harada, Shuuji Kajita, Kenji Kaneko, and Hirohisa Hirukawa, 'An analytical method on real-time gait planning,' Int. Journal of Humanoid Robotics, vol. 3, Issue 1, pp. 1-19, Sep. 2006   DOI   ScienceOn
8 I.-W. Park, J.-Y Kim, and J.-H. Oh, 'Online Walking pattern generation and its application to a biped hlUllanoid robot - KHR-3(HUBO),' Advanced Robotics, vol. 22, no. 2-3, pp. 159-190, Feb. 2008   DOI
9 S. Kajita, F. Kanehiro, K. Kaneko, K. Fujiwara, K. Yokoi, and H. Hirukawa, 'A real-time pattern generator for biped walking,' in Proc. IEEE int. Conf. Robotics and Automation, pp. 31-37, May 2002
10 S. Kajita, F. Kanehiro, K Kaneko, K Fujiwara, K Harada, K Yokoi, and H. Hirukawa, 'Biped walking pattern generation by using preview control of zero-moment Point,' IEEE Int. Conf. on Robotics & Automation, pp. 1620-1626, Sep. 2003
11 A. Takanishi, M. Tochizawa, H. Karaki, and I. Kato, 'Dynamic biped walking stabilized with optimal trunk and waist motion,' IEEE/RSJ International Workshop on Intelligent Robots and Systems'89, pp. 187-192, Sep. 1989
12 Q. Huang. K. Yokoi S. Kajita, K. Kaneko, H. Arai, N. Koyachi, and K. Tanie, 'Planning walking patterns for a biped robot' IEEE Transactions on Robotics and Automation, vol. 17, no. 3, Jun. 2001
13 S. Kajita, F. Kanehiro, K Kaneko, K Fujiwara, K Harada, K Yokoi, and H. Hirukawa, 'Biped walking pattern generation by using preview control of zero-moment point,' IEEE Int. Conf. on Robotics & Automation, pp. 1620-1626, Taipei, Taiwan, Sep. 2003