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Learning Physics Property Parameters of Fabrics and Garments With a Physics Similarity Neural Network

Li Duan, Lewis Boyd, Gerardo Aragón-Camarasa

Year
2022
Citations
4
Access
Open access

Abstract

Predicting the physics properties of deformable objects such as garments and fabrics is a challenge in robotic research. Directly measuring their physics properties in a real environment is difficult [1]. Therefore, learning and predicting the physics property parameters of garments and fabrics can be conducted in simulated environments. However, garments have collars, sleeves, pockets and buttons that change the way garments deform and simulating these is time-consuming. Therefore, in this paper, we propose to predict the physics parameters of real fabrics and garments by learning the physics similarities between simulated fabrics via a Physics Similarity Network (PhySNet). For this, we estimate wind speeds generated by an electric fan and area weights to predict the bending stiffness parameters of real fabrics and garments. We found that PhySNet coupled with a Bayesian optimiser can predict physics property parameters and improve state-of-art by 34.0% for fabrics and 68.1% for garments.

Keywords

Property (philosophy)ClothingArtificial neural networkSimilarity (geometry)Artificial intelligenceComputer scienceMachine learningPhysicsEngineering drawingEngineering

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