Friction sensing mechanisms for perception and motor control: passive touch without sliding may not provide perceivable frictional information
Heba Khamis, Hafiz Malik Naqash Afzal, Jennifer Sánchez, Richard M. Vickery, Michaël Wiertlewski, Stephen J. Redmond, Ingvars Birznieks
Abstract
This study contributes to understanding how frictional information is obtained and used by the brain. When the skin is contacting surfaces of identical topography but varying frictional properties, the deformation pattern is different; however, available sensory cues did not get translated into perception of frictional properties unless a sufficiently large lateral movement was present. These neurophysiological findings may inform how to design and operate haptic devices relying on friction modulation principles.
Topics & Concepts
Slip (aerodynamics)SandpaperPerceptionPerpendicularSurface (topology)Computer scienceComputer visionMaterials scienceArtificial intelligencePsychologyEngineeringGeometryMathematicsComposite materialNeuroscienceAerospace engineeringTactile and Sensory InteractionsMotor Control and AdaptationInteractive and Immersive Displays