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Simulation-based physics reasoning for consistent scene estimation in an HRI context

Yoan Sallami, Séverin Lemaignan, Aurélie Clodic, Rachid Alami

Year
2019
Citations
10

Abstract

Reasoning about spatial and geometric relations between objects in a tabletop human-robot interaction is a challenge due to the perception not being always consistent: objects placed on a table seem to be slightly in the air; they overlap; they disappear due to occlusions. Yet, interpreting and anchoring perceptual data in a physically consistent estimation of the scene is a crucial ability for humans, and thus robots in HRI context. In this paper we present a simulation-based physics reasoner integrated in a lightweight situation-assessment framework called Underworlds, that allows the robot to stabilize objects and build at run-time a consistent estimation of the scene, even for entirely hidden objects, while inferring the actions performed by its human partner.

Keywords

Semantic reasonerRobotContext (archaeology)PerceptionComputer scienceArtificial intelligencePhysics engineTable (database)Computer visionHuman–computer interaction

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