研究生: |
張致烽 JR-FENG JANG |
---|---|
論文名稱: |
雙足機器人穩定步行軌跡設計 The Design of a stable walking trajectory for a Biped Robot |
指導教授: |
施慶隆
Ching-Long Shih |
口試委員: |
劉昌煥
Chang-Huan Liu 李文猶 Wen-Yo Lee 羅啟維 none |
學位類別: |
碩士 Master |
系所名稱: |
電資學院 - 電機工程系 Department of Electrical Engineering |
論文出版年: | 2008 |
畢業學年度: | 96 |
語文別: | 中文 |
論文頁數: | 78 |
中文關鍵詞: | 穩定度 、補償運動 、軌跡規劃 、雙足步行 |
外文關鍵詞: | Biped walking, trajectory planning, Compensatory motion, stability |
相關次數: | 點閱:356 下載:3 |
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本論文主要是設計一個能在不同環境下穩定行走之雙足機器人。機器人可依地形條件做出合適的步行運動,同時藉由平滑的腰部運動來保持步行之穩定性。規劃其步態模型包含足部與腰部的軌跡。先設定足部的邊界條件,在用三次方曲線來產生足部軌跡。接著一樣使用三次方曲線函數來設計平滑的腰部運動同時具有最大的穩定邊限,而此腰部軌跡是採疊代的方式求得。
The main aim of this thesis is to develop a biped robot which walk stably in various enviroments. The robot can adapt to the ground conditions with suitable a foot motion, and maintain its stability by a smooth hip motion.A method is used to plan a walking pattern consisting of a foot trajectory and a hip trajectory. First, to formulate the constraints of a foot trajectory, and generate the foot trajectory by third-order spline. Then, to formulate a smooth hip motion using a third-order spline function with the largest stability margin, and derive the hip trajectory by iterative computation.
[1] M. Vukobratovic and D. Juricic, “Contribution to the Synthesis of Biped Gait” IEEE Transactions. on. Bio-. Medical Engineering,1969
[2] F. Gubina, H. Hemami, and R. B. McGhee, “On the dynamic stability of biped locomotion” IEEE Trans. Bio-Med. Eng., vol. BME-21, no. 2, pp. 102-108, 1974.
[3] Pratt , J. and Krupp, B, “Design of a bipedal walking robot” Proceedings of SPIE - The International Society for Optical Engineering , Vol. 6962, 2008
[4] S. M. Song and K. J. Waldron, “An analytical approach for gait and its application on wave gaits” Int. J. Robot. Res., vol. 6, no. 2, pp. 60-71, 1987.
[5] S. Kajita, A. Kobayashi, and T. Yamamura, “Dynamic walking control of a biped robot along a potential energy conserving orbit” IEEE Trans. Robot. Automat., vol. 8, pp. 431-438, Aug. 1992.
[6] W. T. Miller and A. L. Kun, “Dynamic balance of a biped walking robot” Neural Systems for Robotics New York: Academic, 1997
[7] M. Garica, A. Chatterjee, and A. Ruina, “Speed, efficiency, and stability of small-slope 2-D passive dynamic bipedal walking” in Proc. IEEE Int. Conf. Robotics and Automation, 1998
[8] M. Y. Zarrugh and C. W. Radcliffe, “Computer generation of human gait kinematics,” J. Biomech., vol. 12, pp. 99-111, 1979.
[9] L. Roussel, C. Canudas-de-Wit, and A. Goswami, “Generation of energy optimal complete gait cycles for biped robots” in Proc. IEEE Int. Conf. Robotics and Automation, 1998
[10] T. McGeer, “Passive walking with knees” in Proc. IEEE Int. Conf. Robotics and Automation, 1990
[11] Y. F. Zheng and J. Shen, “Gait synthesis for the SD-2 biped robot to climb sloping surface” IEEE Trans. Robot. Automat., vol. 6, pp. 86-96, Feb. 1990.
[12] C. Chevallereau, A. Formal'sky, and B. Perrin, “Low energy cost reference trajectories for a biped robot” in Proc. IEEE Int. Conf. Robotics and Automation, 1998
[13] K. Hirai, M. Hirose, Y. Haikawa, and T. Takenaka, “The development of honda humanoid robot” in Proc. IEEE Int. Conf. Robotics and Automation, 1998
[14] A. Dasgupta and Y. Nakamura, “Making feasible walking motion of humanoid robots from human motion capture data” in Proc. IEEE Int. Conf. Robotics and Automation, 1999
[15] Capi, G., Kaneko, S., Mitobe, K., Barolli, L., Nasu, Y.“Optimal trajectory generation for a prismatic joint biped robot using genetic algorithms” Robotics and Autonomous Systems, 38 (2), pp. 119-128.2002
[16] Murakami, Shuta, Yamamoto, Eiji, Fujimoto, Kouji“Fuzzy control of dynamic biped walking robot”IEEE International Conference on Fuzzy Systems, 1, pp. 77-82.1995
[17] Kajita, Shuuji, Tani, Kazuo“Experimental study of biped dynamic walking
in the linear inverted pendulum mode”Proceedings - IEEE International
Conference on Robotics and Automation, 3, pp. 2885-2891. 1995
[18] Albert, A., Gerth, W.“Analytic path planning algorithms for bipedal robots
without a trunk”Journal of Intelligent and Robotic Systemss, 36 (2), pp.
109-127.2003
[19] Jong H. Park and Kyoung D. Kim, “Biped Robot Walking Using
Gravity-Compensated Inverted Pendulum Mode and Computed Torque
Control”, Proceedings of the IEEE International Conference on Robotics
and Automation vol. 4, pp. 3528–3533.1998
[20] Ha.T,Choi,c.-H, “ An effective trajectory generation method for bipedal
walking ”, Robotics and Autonomous Systems 55, pp. 795-810,2007
[21] A. Takanishi, M. Ishida, Y. Yamazaki, and I. Kato, “ The realization of
dynamic walking robot WL-10RD” in Proc. Int. Conf. on Advanced
Robotics,1985
[22] A. Takanishi,H,Karaki “Realization of Dynamic Walking under unknown external force ”,Proc.of IROS 90,1990
[23] Takanishi, A., Yamaguchi, J., Iwata, M., Kasai, S., and Mizobuchi, “ Study on dynamic turning of biped walking robot ”. Proceedings of The 72nd JSME Spring Annual Meeting,1995
[24] Yamaguchi, J.; Kinoshita, N.; Takanishi, A.; Kato, I., “Development of a dynamic biped walking system for humanoid development of a biped walking robot adapting to the humans' living floor” Robotics and Automation, 1996.