Home /Research /Optimizing Contextual Ergonomics Models in Human-Robot Interaction
HRI

Optimizing Contextual Ergonomics Models in Human-Robot Interaction

Antonio Gonzales Marin, Mohammad S. Shourijeh, Pavel E. Galibarov, Michael Damsgaard, Lars Fritzsch, Freek Stulp

Year
2018
Citations
35

Abstract

Current ergonomic assessment procedures require observation and manual annotation of postures by an expert, after which ergonomic scores are inferred from these annotations. Our aim is to automate this procedure and to enable robots to optimize their behavior with respect to such scores. A particular challenge is that ergonomic scoring requires accurate biomechanical simulations which are computationally too expensive to use in robot control loops or optimization. To address this, we learn Contextual Ergonomics Models, which are Gaussian Process Latent Variable Models that have been trained with full musculoskeletal simulations for specific tasks contexts. Contextual Ergonomics Models enable search in a low-dimensional latent space, whilst the cost function can be defined in terms of the full high-dimensional musculoskeletal model, which can be quickly reconstructed from the latent space. We demonstrate how optimizing Contextual Ergonomics Models leads to significantly reduced muscle activation in an experiment with eight subjects performing a drilling task.

Keywords

Computer scienceTask (project management)Process (computing)Human–computer interactionRobotArtificial intelligenceMachine learningFunction (biology)Human factors and ergonomicsTask analysis

Related papers

Browse all HRI papers