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Nonlinear PI“D”-Type Control of Flexible Joint Robots by Using Motor Position Measurements Is Globally Asymptotically Stable

2022; Institute of Electrical and Electronics Engineers; Volume: 68; Issue: 6 Linguagem: Inglês

10.1109/tac.2022.3194043

2334-3303

Jerónimo Moyrón, Javier Moreno‐Valenzuela, Jesús Sandoval,

Hydraulic and Pneumatic Systems

An important subject that arises in the position control of robot manipulators is the local or global asymptotic stability of the closed-loop system equilibrium point, especially when an integral action is added to the control loop. For rigid joint robot manipulators, global nonlinear proportional-integral-derivative (PID) controllers have been introduced few years ago. However, for the case of flexible joint robot manipulators, the design and analysis of such nonlinear PID laws is much more challenging. Only local asymptotic stability results have been reported. Thus, a novel global regulator for flexible joint robots is presented in this document. The proposed controller considers a nonlinear integral action and it requires only motor position measurements because an estimator subsystem is used to replace the motor velocity measurements. In other words, a nonlinear proportional–integral–"derivative" (PI"D")-type controller is introduced. According to the closed-loop system analysis, conditions on the controller gains are established. Thus, the global asymptotic stability is concluded. Finally, experimental results on a two degrees-of-freedom serial flexible joint robot are shown and discussed.