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Investigating Fluidity for Human-Robot Interaction with Real-time, Real-world Grounding Strategies

Julian Hough, David Schlangen

Year
2016
Citations
19
Access
Open access

Abstract

We present a simple real-time, real-world grounding framework, and a system which implements it in a simple robot, allowing investigation into different grounding strategies. We put particular focus on the grounding effects of non-linguistic task-related actions. We experiment with a trade-off between the fluidity of the grounding mechanism with the 'safety' of ensuring task success. The framework consists of a combination of interactive Harel statecharts and the Incremental Unit framework. We evaluate its in-robot implementation in a study with human users and find that in simple grounding situations, a model allowing greater fluidity is perceived to have better understanding of the user's speech.

Keywords

GroundTask (project management)RobotComputer scienceSimple (philosophy)Focus (optics)Human–computer interactionAutonomous robotMechanism (biology)Artificial intelligence

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