Fourier series learning of biped walking motion

T. Y. Kuc; S. M. Baek; H. G. Lee; J. O. Kim

Fourier series learning of biped walking motion

T. Y. Kuc
, S. M. Baek
, H. G. Lee
, J. O. Kim

Department of Electronic and Electrical Engineering

Research output: Contribution to conference › Paper › peer-review

2 Scopus citations

Abstract

A learning controller is presented for repetitive walking motion of biped robot. The learning control scheme learns the approximate inverse dynamics input of biped walking robot and uses the learned input pattern to generate an input profile of different walking motion from that learnt. In the learning controller, the PID feedback controller takes part in stabilizing the transient response of robot dynamics while the feedforward learning controller plays a role in computing the desired actuator torques for feedforward nonlinear dynamics compensation in steady state. It is shown that all the error signals in the learning control system are bounded and the robot motion trajectory converges to the desired one asymptotically. The proposed learning control scheme is shown to be effective through a computer simulation with 12 dof biped robot.

Original language	English
Pages	49-54
Number of pages	6
State	Published - 2002
Event	Proceedings of the 2002 IEEE International Symposium on Intelligent Control - Vancouver, Canada Duration: 27 Oct 2002 → 30 Oct 2002

Conference

Conference	Proceedings of the 2002 IEEE International Symposium on Intelligent Control
Country/Territory	Canada
City	Vancouver
Period	27/10/02 → 30/10/02

Cite this

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title = "Fourier series learning of biped walking motion",

abstract = "A learning controller is presented for repetitive walking motion of biped robot. The learning control scheme learns the approximate inverse dynamics input of biped walking robot and uses the learned input pattern to generate an input profile of different walking motion from that learnt. In the learning controller, the PID feedback controller takes part in stabilizing the transient response of robot dynamics while the feedforward learning controller plays a role in computing the desired actuator torques for feedforward nonlinear dynamics compensation in steady state. It is shown that all the error signals in the learning control system are bounded and the robot motion trajectory converges to the desired one asymptotically. The proposed learning control scheme is shown to be effective through a computer simulation with 12 dof biped robot.",

author = "Kuc, \{T. Y.\} and Baek, \{S. M.\} and Lee, \{H. G.\} and Kim, \{J. O.\}",

year = "2002",

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note = "Proceedings of the 2002 IEEE International Symposium on Intelligent Control ; Conference date: 27-10-2002 Through 30-10-2002",

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T1 - Fourier series learning of biped walking motion

AU - Kuc, T. Y.

AU - Baek, S. M.

AU - Lee, H. G.

AU - Kim, J. O.

PY - 2002

Y1 - 2002

N2 - A learning controller is presented for repetitive walking motion of biped robot. The learning control scheme learns the approximate inverse dynamics input of biped walking robot and uses the learned input pattern to generate an input profile of different walking motion from that learnt. In the learning controller, the PID feedback controller takes part in stabilizing the transient response of robot dynamics while the feedforward learning controller plays a role in computing the desired actuator torques for feedforward nonlinear dynamics compensation in steady state. It is shown that all the error signals in the learning control system are bounded and the robot motion trajectory converges to the desired one asymptotically. The proposed learning control scheme is shown to be effective through a computer simulation with 12 dof biped robot.

AB - A learning controller is presented for repetitive walking motion of biped robot. The learning control scheme learns the approximate inverse dynamics input of biped walking robot and uses the learned input pattern to generate an input profile of different walking motion from that learnt. In the learning controller, the PID feedback controller takes part in stabilizing the transient response of robot dynamics while the feedforward learning controller plays a role in computing the desired actuator torques for feedforward nonlinear dynamics compensation in steady state. It is shown that all the error signals in the learning control system are bounded and the robot motion trajectory converges to the desired one asymptotically. The proposed learning control scheme is shown to be effective through a computer simulation with 12 dof biped robot.

UR - https://www.scopus.com/pages/publications/0036911576

M3 - Paper

AN - SCOPUS:0036911576

SP - 49

EP - 54

T2 - Proceedings of the 2002 IEEE International Symposium on Intelligent Control

Y2 - 27 October 2002 through 30 October 2002

ER -

Fourier series learning of biped walking motion

Abstract

Conference

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