Litcius/Paper detail

ELAXO : Rendering Versatile Resistive Force Feedback for Fingers Grasping and Twisting

Zhongyi Zhang, Hongxian Chen, Shih‐Hao Wang, Hsin-Ruey Tsai

202215 citationsDOI

Abstract

Haptic feedback not only enhances immersion in virtual reality (VR) but also delivers experts’ haptic sensation tips in VR training, e.g., properly clamping a tenon and mortise joint or tightening a screw in the assembly of VR factory training, which could even improve the training performance. However, various and complicated manipulation is in different scenarios. Although haptic feedback of virtual objects’ shape, stiffness or resistive force in pressing or grasping is achieved by previous research, rotational resistive force when twisting or turning virtual objects is seldom discussed or explored, especially for a wearable device. Therefore, we propose a wearable device, ELAXO, to integrate continuous resistive force and continuous rotational resistive force with or without resilience in grasping and twisting, respectively. ELAXO is an exoskeleton with rings, mechanical brakes and elastic bands. The brakes achieve shape rendering and switch between with and without resilience modes for the resistive force. The detachable and rotatable rings and elastic bands render continuous resistive force in grasping and twisting. We conducted a just noticeable difference (JND) study to understand users’ distinguishability in the four conditions, resistive force and rotational resistive force with and without resilience, separately. A VR study was then performed to verify that the versatile resistive force feedback from ELAXO enhances the VR experiences.

Topics & Concepts

Haptic technologyResistive touchscreenWearable computerRendering (computer graphics)Computer scienceVirtual realityContact forceSimulationImmersion (mathematics)Artificial intelligenceComputer visionPhysicsEmbedded systemQuantum mechanicsMathematicsPure mathematicsTactile and Sensory InteractionsTeleoperation and Haptic SystemsMotor Control and Adaptation