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PD Plus Error-Dependent Integral Nonlinear Controllers for Robot Manipulators

By: ISA Transactions
20 February, 2015
1 min read
PD Plus Error-Dependent Integral Nonlinear Controllers for Robot Manipulators
PD Plus Error-Dependent Integral Nonlinear Controllers for Robot Manipulators
In framework of traditional PID controllers, there are only three parameters available to tune, as a result, performance of the resulting system is always limited.

This post is an excerpt from the journal ISA Transactions.  All ISA Transactions articles are free to ISA members, or can be purchased from Elsevier Press.

Abstract:

In framework of traditional PID controllers, there are only three parameters available to tune, as a result, performance of the resulting system is always limited. As for Cartesian regulation of robot manipulators with uncertain Jacobian matrix, a scheme of PID controllers with error-dependent integral Man presses button on electronic control panel action is proposed. Compare with traditional PID controllers, the error-dependent integration is employed in the proposed PID controller, in which more parameters are available to be tuned. It provides additional flexibility for controller characteristics and tuning as well, and hence makes better transient performance. In addition, asymptotic stability of the resulting closed-loop system is guaranteed.

All signals in the system are bounded when exogenous disturbances and measurement noises are bounded. Numerical example demonstrates the superior transient performance of the proposed controller over the traditional one via Cartesian space set-point manipulation of two-link robotic manipulator.

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2006 Elsevier Science Ltd. All rights reserved.

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