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Model reference adaptive impedance control in Cartesian coordinates for physical human-robot interaction
Sharifi, M ; Sharif University of Technology
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- Type of Document: Article
- DOI: 10.1080/01691864.2014.933125
- Abstract:
- In this paper, a nonlinear model reference adaptive impedance controller is proposed and tested. The controller provides asymptotic tracking of a reference impedance model for the robot end-effector in Cartesian coordinates applicable to rehabilitation robotics or any other human-robot interactions such as haptic systems. The controller uses the parameters of a desired stable reference model which is the target impedance for the robots end-effector. It also considers uncertainties in the model parameters of the robot. The asymptotic tracking is proven using Lyapunov stability theorem. Moreover, the adaptation law is proposed in joint space for reducing the complexity of its calculations; however, the controller and the stability proof are all presented in Cartesian coordinates. Using simulations and experiments on a two DOFs robot, the effectiveness of the proposed controller is investigated
- Keywords:
- Physical human-robot interaction ; Model reference adaptive control ; Impedance control ; Haptic ; Cartesian coordinate ; Model reference adaptive ; Physical human-robot interactions
- Source: Advanced Robotics ; Vol. 28, issue. 19 , October , 2014 , pp. 1277-1290 ; ISSN: 01691864
- URL: http://www.tandfonline.com/doi/abs/10.1080/01691864.2014.933125#.VdaLmflWq1s