Transfer of assembly operations to new workpiece poses by adaptation to the desired force profile - Concepedia

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Transfer of assembly operations to new workpiece poses by adaptation to the desired force profile

36

Citations

13

References

2013

Year

Bojan Nemec, Fares J. Abu‐Dakka, Barry Ridge, Aleš Ude, Jimmy Alison Jørgensen, Thiusius Rajeeth Savarimuthu, Jérôme Jouffroy, Henrik Gordon Petersen, Norbert Krüger

Unknown Venue

Artificial IntelligenceRobot KinematicsHuman-robot Collaborative AssemblyEngineeringDexterous ManipulationMechanical EngineeringField RoboticsIntelligent RoboticsMotor ControlObject ManipulationIntelligent SystemsNew Workpiece PosesForce ProfileRobot TrajectoriesSystems EngineeringKinematicsRobot LearningComputational GeometryHealth SciencesMechanical DesignMechatronicsMotion SynthesisDesignComputer ScienceInitial TrajectoriesNew AlgorithmIndustrial DesignAssembly OperationsAutomationMechanical SystemsHuman MovementRobotics

Abstract

In this paper we propose a new algorithm that can be used for adaptation of robot trajectories in automated assembly tasks. Initial trajectories and forces are obtained by demonstration and iteratively adapted to specific environment configurations. The algorithm adapts Cartesian space trajectories to match the forces recorded during the human demonstration. Experimentally we show the effectiveness of our approach on learning of Peg-in-Hole (PiH) task. We performed our experiments on two different robotic platforms with workpieces of different shapes.

References

	Year	Citations

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