Type: Conference Paper
New controller design for a robot manipulator
Journal: ()Year: 2007/01/01Volume: Issue: Pages: 41 - 46
DOI:10.1109/ICCAS.2007.4406876Language: English
Abstract
This paper presents a new systematic method to design a controller using the Quantitative Feedback Theory (QFT) for a robot identified as a non-minimum phase model. The robot manipulators are highly nonlinear with an uncertain environment. A linearised transfer function of a laboratory robot is developed using the off-line system identification. The effects of nonlinearities are accounted by describing the linearised model parameters as structured uncertainty. The QFT design procedure is carried out to design a robust controller that satisfies performance specifications for tracking. The designed fixed-gain controller is easy to implement. © ICROS.
Author Keywords
IdentificationRobot manipulatorDesignFlexible manipulatorsFunctionsIndustrial robotsMachine designManipulatorsModular robotsRobot applicationsRoboticsRobots
Other Keywords
DesignFlexible manipulatorsFunctionsIndustrial robotsMachine designManipulatorsModular robotsRobot applicationsRoboticsRobotsController designsDesign proceduresGain controllersHighly nonlinearIdentificationMinimum phaseModel parametersNon linearitiesPerformance specificationsRobot manipulatorRobust controllersStructured uncertaintiesSystem identificationsSystematic methodsUncertain environmentsIdentification (control systems)