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Object Handover Prediction using Gaussian Processes clustered with Trajectory Classification

M. Lang, Satoshi Endo, Oliver Dunkley, Sandra Hirche

Year
2017
Citations
6
Access
Open access

Abstract

A robotic system which approximates the user intention and appropriate complimentary motion is critical for successful human-robot interaction. %While the existing wearable sensors can monitor human movements in real-time, prediction of human movement is a significant challenge due to its highly non-linear motions optimised through the redundancy in the degrees of freedom. Here, we demonstrate robustness of the Gaussian Process (GP) clustered with a stochastic classification technique for trajectory prediction using an object handover scenario. By parametrising real 6D hand movements during human-human object handover using dual quaternions, variations of handover configurations were classified in real-time and then the remaining hand trajectory was predicted using the GP. The results highlights that our method can classify the handover configuration at an average of $43.4\%$ of the trajectory and the final hand configuration can be predicted within the normal variation of human movement. In conclusion, we demonstrate that GPs combined with a stochastic classification technique is a robust tool for proactively estimating human motions for human-robot interaction.

Keywords

HandoverComputer scienceTrajectoryArtificial intelligenceComputer visionRobustness (evolution)RobotGlobal Positioning SystemProcess (computing)

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