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Dynamic Modeling and Vibration Suppression for Two-Link Underwater Flexible Manipulators

Hui Huang, Guoyuan Tang, Hongxuan Chen, Lijun Han, De Xie

2022IEEE Access23 citationsDOIOpen Access PDF

Abstract

This paper proposes a composite controller (CC) to improve the accuracy of trajectory tracking and suppress the vibration of two-link underwater flexible manipulators. A dynamic model of the flexible manipulators considering hydrodynamic force is established by combining the Lagrange equation and Morison formula. Then, the dynamic model is divided into a flexible dynamic subsystem and rigid dynamic subsystem, and a decomposed dynamic control strategy is presented for the two subsystems. In particular, an adaptive fuzzy sliding mode control scheme (AFSMC) with good robustness to compensate for uncertain factors is designed to track the joint trajectory and suppress vibration. Next, the trajectory tracking control of two-link underwater flexible manipulators is simulated to investigate the performance of the framework. The results show that the hydrodynamic force and flexible deformation markedly affect the input torque of the joint, and the traditional sliding mode controller (SMC) is superior to proportional integral derivative (PID) control in managing hydrodynamic force disturbance and inferior in suppressing flexible vibration. The proposed composite controller based on adaptive fuzzy sliding mode control CC(AFSMC) is more effective in restraining the vibration of flexible manipulators and resisting hydrodynamic force disturbance than PID and CC(SMC).

Topics & Concepts

Control theory (sociology)VibrationPID controllerRobustness (evolution)TrajectoryTorqueComputer scienceInput shapingSliding mode controlController (irrigation)Fuzzy logicControl engineeringUnderwaterVibration controlEngineeringPhysicsNonlinear systemControl (management)BiochemistryOceanographyBiologyQuantum mechanicsAgronomyArtificial intelligenceChemistryTemperature controlThermodynamicsGeneGeologyAstronomyDynamics and Control of Mechanical SystemsVibration and Dynamic AnalysisMechanical stress and fatigue analysis
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