Biped Locomotion: Stability, Analysis and Control

[1]M. Vukobratovic and B. Borovac, “Zero Moment Point - Thirty Five Years of its Life”, International Journal of Humanoid Robotics Vol. 1, No.1 157-173, (2002).10.1142/S0219843604000083Search in Google Scholar

[2]A. Goswami, “Postural Stability of Biped Robots and the Foot-Rotation-Indicator (FRI) Point”, The International Journal of Robotics Research, Vol. 18, No 6, pp. 523-533, (1999)10.1177/02783649922066376Search in Google Scholar

[3]C. Chevallereau, E.R. Westervelt and J. W. Grizzle, “Asymptotically Stable Running for a Five-Link, Four-Actuator, Planar Bipedal Robot,” The International Journal of Robotics Research, Vol. 24, No 6, pp. 431-464, (2005).10.1177/0278364905054929Search in Google Scholar

[4]M. Raibert, “Legged Robots That Balance”, MIT press, Cambridge, MA.Search in Google Scholar

[5]E. Koditschek and Martin Bühler, “Analysis of a Simplified Hopping Robot”, The International Journal of Robotics Research, Vol. 10, No. 6, pp. 587-605 (1991).Search in Google Scholar

[6]A. Isidori, “Nonlinear Control Systems: An Introduction”, Springer-Verlag, Berlin (1995).Search in Google Scholar

[7]JJ Craig, “Introduction to Robotics: Mechanics and Control”, Addison-Wesley Longman Publishing Co., Inc. Boston, MA, USA (1989).Search in Google Scholar

[8]KS Fu, RC Gonzalez, CSG Lee, “Robotics: control, sensing, vision, and intelligence”, McGraw-Hill, Inc. New York, NY, USA (1987).Search in Google Scholar

[9]T. Sugihara, Y. Nakamura, H. Inoue, “Real-time humanoid motion generation through ZMP manipulation based on inverted pendulum control”, IEEE International Conference on Robotics and Automation, Vol. 2, pp. 1404-1409 (2002).Search in Google Scholar

[10]S. Kajita, F. Kanehiro, K. Kaneko, K. Fujiwara, K. Harada, K. Yokoi, H. Hirukawa, “Biped walking pattern generation by using preview control of zero-moment point”, IEEE International Conference on Robotics and Automation, Vol. 2, pp. 1620-1626 (2003).Search in Google Scholar

[11]S. Kajita, O. Matsumoto, M. Saigo, “Real-time 3D walking pattern generation for a biped robot with telescopic legs”, IEEE International Conference on Robotics and Automation, Vol. 2, pp. 2299-2306 (2001).Search in Google Scholar

[12]Hun-ok Lim, Y. Yamamoto, A. Takanishi,, “Control to realize human-like walking of a biped humanoid robot”, IEEE International Conference on Systems, Man, and Cybernetics, Vol. 5, pp. 3271-3276 (2000).Search in Google Scholar

[13]Napoleon, S.Nakaura, M. Sampei, “Balance control analysis of humanoid robot based on ZMP feedback control”, IEEE International Conference on Intelligent Robots and System, Vol. 3, pp. 2437-2442 (2002).Search in Google Scholar

[14]ER Westervelt, JW Grizzle, C. Chevallerau, JH Choi, B. Morris “Feedback control of dynamic bipedal robot locomotion”, Boca Raton : CRC Press (2007).Search in Google Scholar

[15]JH Choi, JW Grizzle, “Planar bipedal walking with foot rotation”, American Control Conference, Vol. 7, pp. 4909- 4916 (2005).Search in Google Scholar

[16]A.Goswami, “Foot rotation indicator (FRI) point: a new gait planning tool toevaluate postural stability of biped robots”, IEEE International Conference on Robotics and Automation, Vol. 1, pp. 47-52 (1999).Search in Google Scholar

[17]http://www.hitecrcd.com/homepage/product-fs.htm.Search in Google Scholar

[18]P. Vadakkepat, D. Goswami, Chia Meng Hwee, “Disturbance Rejection by Online ZMP Compensation”, Robotica.Search in Google Scholar

[19]P. Vadakkepat, D. Goswami, “MaNUS Humanoid: A Test bed for Advanced Robotics Research”. Int. Conf. on Emerging Mechanical Technology - Macro to Nano, ed. R. K. Mittal and N. N. Sharma (2007): 195-203. (Keynote paper) .Search in Google Scholar

[20]WA Gruver, TT Lee, PL Jeng, “Control of a 5-link biped robot for steady walking”, IEEE International Symposium on Intelligent Control, pp 484-489 (1998).Search in Google Scholar

[21]K. Mitobe, N. Mori N, K. Aida, Y. Nasu, “Nonlinear feedback control of a biped walking robot”, Proceedings of 1995 IEEE International Conference on Robotics and Automation, Vol. 3, pp 2865 – 2870 (1995).Search in Google Scholar

[22]Vibet M, “Control law decoupling for 2-D biped walking system Cotsaftis”, IEEE Engineering in Medicine and Biology Magazine, Volume 7, Issue: 3, pp 41-45 (1988).10.1109/51.793418244074Search in Google Scholar

[23]Hsia TCS, Lasky TA, Guo Z. “Robust independent joint controller design for industrial robot manipulators”, IEEE Transactions on Industrial Electronics, Volume 38, Issue 1, pp 21-25 (1991).10.1109/41.103479Search in Google Scholar

[24]JS Albus, “A new approach to manipulator control: the cerebellar model articulation controller (CMAC)”, ASME Journal of Dynamic systems, Measurements and Control, pp 220227, (1975).Search in Google Scholar

[25]YH Kim, FL Lewis, “Optimal design of CMAC neural-network controller for robot manipulators”, IEEE Transactions on Systems, Man and Cybernetics: Part C, Vol. 30, Issue 1, pp 22-31 (2000).Search in Google Scholar

[26]DM Katic, MK Vukobratovic, “Highly efficient robot dynamics learning by decomposed connectionist feedforward control structure”, IEEE Transactions on Systems, Man and Cybernetics, Vol. 25, Issue 1, pp 145 – 158 (1995).10.1109/21.362958Search in Google Scholar

[27]P. Martinet, J. Gallice, “Position based visual servoing using a non-linear approach”, IROS, Vol. 1, pp 531-536 (1999).Search in Google Scholar

[28]M. Asada, T. Tanaka, K. Hosoda. “Visual tracking of unknown moving object by adaptive binocular visual servoing”, IEEE/SICE/RSJ International Conference on Multisensor Fusion and Integration for Intelligent Systems, pp 249-254 (1999).Search in Google Scholar

[29]Do Hyoung Kim, Do-Yoon Kim, Hyun Seok Hong, Myung Jin Chung, “An image-based control scheme for an active stereo vision system”, IROS, Vol. 4, 28, pp 3375-3380 (2004).Search in Google Scholar

[30]J. Yamaguchi, D. Nishino, A. Takanishi, “Realization of dynamic biped walking varying joint stiffness using antagonistic driven joints”, Proceedings of International Conference of Robotics and Automation, Vol. 3, pp 2022-2029 (1998).Search in Google Scholar

[31]M. Ogino, Y. Katoh, M. Aono, M. Asada, K. Hosoda, “Vision-based reinforcement learning for humanoid behaviour generation with rhythmic walking parameters”, Proceedings of IROS, Vol. 2, pp 1665-1671 (2003).Search in Google Scholar

[32]L. Roussel, C.-De-Wit, A. Goswami, “Generation of energy optimal complete gait cycles for biped robots”, IEEE International Conference on Robotics and Automation, Vol. 3, Page(s): 2036-2041 (1998).Search in Google Scholar