Litcius/Paper detail

Submillimeter Lateral Displacement Enables Friction Sensing and Awareness of Surface Slipperiness

Naqash Afzal, Emma Stubbs, Heba Khamis, Alastair J. Loutit, Stephen J. Redmond, Richard M. Vickery, Michael Wiertlewski, Ingvars Birznieks

2022IEEE Transactions on Haptics12 citationsDOI

Abstract

Human tactile perception and motor control rely on the frictional estimates that stem from the deformation of the skin and slip events. However, it is not clear how exactly these mechanical events relate to the perception of friction. This study aims to quantify how minor lateral displacement and speed enables subjects to feel frictional differences. In a 2-alternative forced-choice protocol, an ultrasonic friction-reduction device was brought in contact perpendicular to the skin surface of an immobilized index finger; after reaching 1N normal force, the plate was moved laterally. A combination of four displacement magnitudes (0.2, 0.5, 1.2 and 2 mm), two levels of friction (high, low) and three displacement speeds (1, 5 and 10 mm/s) were tested. We found that the perception of frictional difference was enabled by submillimeter range lateral displacement. Friction discrimination thresholds were reached with lateral displacements ranging from 0.2 to 0.5 mm and surprisingly speed had only a marginal effect. These results demonstrate that partial slips are sufficient to cause awareness of surface slipperiness. These quantitative data are crucial for designing haptic devices that render slipperiness. The results also show the importance of subtle lateral finger movements present during dexterous manipulation tasks.

Topics & Concepts

Displacement (psychology)PerpendicularSlip (aerodynamics)AcousticsHaptic technologyMaterials scienceParticle displacementOpticsDeformation (meteorology)Normal forceContact areaTactile perceptionEngineeringSurface (topology)RangingAmplitudeUltrasonic sensorPerceptionStructural engineeringRange (aeronautics)Vertical displacementIndentationInterferometryHaptic perceptionTactile displayActuatorSimulationTactile and Sensory InteractionsMotor Control and AdaptationBalance, Gait, and Falls Prevention
Submillimeter Lateral Displacement Enables Friction Sensing and Awareness of Surface Slipperiness | Litcius