Derivative-free Kalman Filtering-based Control of Prosthetic Legs

S. Mahmoud Moosavi; Seyed Abolfazl Fakoorian; Vahid Azimi; Hanz Richter; Daniel J. Simon

doi:10.23919/ACC.2017.7963763

Derivative-free Kalman Filtering-based Control of Prosthetic Legs

S. Mahmoud Moosavi, Seyed Abolfazl Fakoorian, Vahid Azimi, Hanz Richter, Daniel J. Simon

Cleveland State University

Research output: Contribution to journal › Article › peer-review

Abstract

A derivative-free method for state estimation-based control of a robot/prosthesis system is presented. The system is the combination of a test robot that emulates human hip and thigh motion, and a powered transfemoral prosthetic leg. The robot/prosthesis combination is modeled as a three degree-of-freedom (DOF) robot: vertical hip displacement, thigh angle, and knee angle. We develop a derivative-free Kalman filter (DKF) for state estimation-based control for an n-DOF robotic system. We then propose a method to make the DKF robust when the robot dynamics include disturbances. In the robust DKF, we use two different methods for disturbance rejection: PD and PI. These disturbance compensators are used for supervisory control to make the DKF robust in the presence of disturbances. The simulation results show the advantages of the DKF and the robust DKF for the three-DOF robot/prosthesis system for state estimation-based control.

Original language	American English
Journal	American Control Conference (ACC)
DOIs	https://doi.org/10.23919/ACC.2017.7963763
State	Published - Jan 1 2017

Disciplines

Biomechanical Engineering
Electrical and Computer Engineering
Robotics

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10.23919/ACC.2017.7963763License: CC BY

http://ieeexplore.ieee.org/document/7963763/

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title = "Derivative-free Kalman Filtering-based Control of Prosthetic Legs",

abstract = " A derivative-free method for state estimation-based control of a robot/prosthesis system is presented. The system is the combination of a test robot that emulates human hip and thigh motion, and a powered transfemoral prosthetic leg. The robot/prosthesis combination is modeled as a three degree-of-freedom (DOF) robot: vertical hip displacement, thigh angle, and knee angle. We develop a derivative-free Kalman filter (DKF) for state estimation-based control for an n-DOF robotic system. We then propose a method to make the DKF robust when the robot dynamics include disturbances. In the robust DKF, we use two different methods for disturbance rejection: PD and PI. These disturbance compensators are used for supervisory control to make the DKF robust in the presence of disturbances. The simulation results show the advantages of the DKF and the robust DKF for the three-DOF robot/prosthesis system for state estimation-based control.",

author = "Moosavi, \{S. Mahmoud\} and Fakoorian, \{Seyed Abolfazl\} and Vahid Azimi and Hanz Richter and Simon, \{Daniel J.\}",

note = "S. M. Moosavi, S. A. Fakoorian, V. Azimi, H. Richter, and D. Simon, “Derivative-free Kalman filtering-based control of prosthetic legs,” 2017, pp. 5205–5210.",

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doi = "10.23919/ACC.2017.7963763",

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AU - Moosavi, S. Mahmoud

AU - Fakoorian, Seyed Abolfazl

AU - Azimi, Vahid

AU - Richter, Hanz

AU - Simon, Daniel J.

N1 - S. M. Moosavi, S. A. Fakoorian, V. Azimi, H. Richter, and D. Simon, “Derivative-free Kalman filtering-based control of prosthetic legs,” 2017, pp. 5205–5210.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - A derivative-free method for state estimation-based control of a robot/prosthesis system is presented. The system is the combination of a test robot that emulates human hip and thigh motion, and a powered transfemoral prosthetic leg. The robot/prosthesis combination is modeled as a three degree-of-freedom (DOF) robot: vertical hip displacement, thigh angle, and knee angle. We develop a derivative-free Kalman filter (DKF) for state estimation-based control for an n-DOF robotic system. We then propose a method to make the DKF robust when the robot dynamics include disturbances. In the robust DKF, we use two different methods for disturbance rejection: PD and PI. These disturbance compensators are used for supervisory control to make the DKF robust in the presence of disturbances. The simulation results show the advantages of the DKF and the robust DKF for the three-DOF robot/prosthesis system for state estimation-based control.

AB - A derivative-free method for state estimation-based control of a robot/prosthesis system is presented. The system is the combination of a test robot that emulates human hip and thigh motion, and a powered transfemoral prosthetic leg. The robot/prosthesis combination is modeled as a three degree-of-freedom (DOF) robot: vertical hip displacement, thigh angle, and knee angle. We develop a derivative-free Kalman filter (DKF) for state estimation-based control for an n-DOF robotic system. We then propose a method to make the DKF robust when the robot dynamics include disturbances. In the robust DKF, we use two different methods for disturbance rejection: PD and PI. These disturbance compensators are used for supervisory control to make the DKF robust in the presence of disturbances. The simulation results show the advantages of the DKF and the robust DKF for the three-DOF robot/prosthesis system for state estimation-based control.

UR - https://engagedscholarship.csuohio.edu/enece_facpub/418

UR - http://ieeexplore.ieee.org/document/7963763/

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DO - 10.23919/ACC.2017.7963763

M3 - Article

JO - American Control Conference (ACC)

JF - American Control Conference (ACC)

ER -

Derivative-free Kalman Filtering-based Control of Prosthetic Legs

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