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Learning Hand Movement Interaction Control Using RNNs: From HHI to HRI

Ozgur S. Oguz, Ben M. Pfirrmann, Mingpan Guo, Dirk Wollherr

Year
2018
Citations
3
Access
Open access

Abstract

A key problem in robotics is enabling an autonomous agent to perform human-like arm movements in close proximity to another human. However, modeling the human decision and control process of the movement during dyadic interaction presents a challenge. Although, most prior approaches rely on multicomponent robot motion planning architectures, we use data of two humans performing interfering arm reaching movements to extract and transfer interaction behavior control skill to a robotic agent. A recurrent neural network-based framework is constructed to learn a policy that computes control signals for a robot end effector in order to replace one human. The learned policy is benchmarked against unseen interaction data and a state-of-the-art learning from demonstration framework in simulated scenarios. We compare several architectures and investigate a new activation function of three stacked tanh(). The results show that the proposed framework successfully learns a policy to imitate human movement behavior control during dyadic interaction. The policy is transferred to a real robot and its feasibility for close-proximity human-robot interaction is shown.

Keywords

Artificial intelligenceComputer scienceRobotRoboticsHuman–robot interactionProcess (computing)Human–computer interactionControl (management)Robotic armRecurrent neural network

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