HYBRID NEURO-FUZZY MULTI-OBJECTIVE TRAJECTORY PLANNING OF REDUNDANT MANIPULATORS
In this paper, the problem of multi-objective trajectory planning is studied for redundant planar serial manipulators using a data-driven neuro-fuzzy system. This system has been developed in two major steps. First, an offline planning is performed to generate a large dataset of multi-criteria traje...
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Published in | Control and intelligent systems Vol. 37; no. 2; p. 87 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
Calgary
ACTA Press
01.01.2009
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Subjects | |
Online Access | Get full text |
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Summary: | In this paper, the problem of multi-objective trajectory planning is studied for redundant planar serial manipulators using a data-driven neuro-fuzzy system. This system has been developed in two major steps. First, an offline planning is performed to generate a large dataset of multi-criteria trajectories, covering mostly of the robot workspace. It is based on a full kinematic and dynamic model of the robot, minimizes time and energy and allows avoiding singularities and limits on joint angles, rates, accelerations, jerks and torques. An augmented Lagrangian technique is implemented on a decoupled form of the robot dynamics to solve the resulting nonlinear constrained optimal control problem. Second, the outcomes of this first step are used to build a data-driven neuro-fuzzy inference system to learn and capture the desired dynamic behaviour of the manipulator. Once this system is trained and optimized, it is used to achieve the online planning. Simulation results on a 3-degrees-of-freedom serial redundant planar manipulator show the effectiveness of the proposed approach. [PUBLICATION ABSTRACT] |
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ISSN: | 2561-1771 2561-178X |
DOI: | 10.2316/Journal.201.2009.2.201-1982 |