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Stretchable Electronic Skin using Laser‐Induced Graphene and Liquid Metal with an Action Recognition System Powered by Machine Learning

Yanpeng Li, Guren Matsumura, Yan Xuan, Satoko Honda, Kuniharu Takei

2024Advanced Functional Materials51 citationsDOIOpen Access PDF

Abstract

Abstract Monitoring tactile pressure and recognizing action are important functionalities for artificial electronic skin (e‐skin). Furthermore, in order to create conformable coverings for 3D objects, an e‐skin needs to be stretchable, without sacrificing sensitivity to tactile pressure. However, stretching of sensors normally affects their output stability. In this study, a stretchable e‐skin is developed using laser‐induced graphene and a liquid metal alloy, GaInSn, in an elastic ecoflex polymer to create a stretchable, resistive‐type tactile pressure sensor. Furthermore, a pressure sensor array is fabricated as an e‐skin, and output is signal‐processed using machine learning. With this system, the e‐skin also monitors its stretching state, with the result that tactile pressure can be calculated regardless of the degree of stretching. With machine learning‐assisted e‐skin, actions such as patting, sliding, and grabbing are successfully recognized in the manner of human skin.

Topics & Concepts

Materials scienceElectronic skinConformable matrixGrapheneResistive touchscreenPressure sensorArtificial skinTactile sensorNanotechnologyBiomedical engineeringOptoelectronicsArtificial intelligenceMechanical engineeringComposite materialComputer scienceComputer visionRobotEngineeringMedicineAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsInteractive and Immersive Displays
Stretchable Electronic Skin using Laser‐Induced Graphene and Liquid Metal with an Action Recognition System Powered by Machine Learning | Litcius