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Augmented Reality Interfaces Using Virtual Customization of Microstructured Electronic Skin Sensor Sensitivity Performances

Haicheng Yao, Tao Sun, John Solomon Chiam, Melissa Tan, Khek Yu Ho, Zhuangjian Liu, Benjamin C. K. Tee

2021Advanced Functional Materials50 citationsDOI

Abstract

Abstract Electronic skins equip robots and biomedical devices with intuitive skin‐like sensitivity. Performance‐driven design of electronic skins is a critical need for electronic or biomedical applications. Prior research primarily focuses on investigating effects of microstructures on sensor performance at low pressure ranges. However, having predictive and tunable electro–mechanical responses across an extensive pressure range (>100 kPa) is paramount. Here, the authors propose a system that virtually customizes micropyramids for e‐skin sensors. The associations between geometry parameters, material properties, and single‐pyramid performance are systematically explored via numerical simulations, empirical characterizations, and analytical solutions. These experimentally validated models allow for the determination of the sensor parameters for the desired performance. An augmented reality interface system for surgery skills training by optimizing sensitivities that match varying tissue stiffnesses is further demonstrated. The platform enables greater effectiveness in rapidly iterating and designing micropyramidal e‐skin for applications in augmented reality interfaces, robotics, and telehealthcare.

Topics & Concepts

Materials sciencePersonalizationAugmented realityRoboticsSensitivity (control systems)Electronic skinInterface (matter)Computer sciencePressure sensitivePyramid (geometry)ElectronicsRange (aeronautics)Soft roboticsVirtual realityPressure sensorRobotArtificial intelligenceHuman–computer interactionNanotechnologyMechanical engineeringElectronic engineeringElectrical engineeringEngineeringAdhesivePhysicsCapillary numberOpticsWorld Wide WebLayer (electronics)Composite materialCapillary actionAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsGas Sensing Nanomaterials and Sensors