Affordable Access

Publisher Website

PalmEx: Adding Palmar Force-Feedback for 3D Manipulation With Haptic Exoskeleton Gloves.

Authors
  • Bouzbib, Elodie
  • Teyssier, Marc
  • Howard, Thomas
  • Pacchierotti, Claudio
  • Lecuyer, Anatole
Type
Published Article
Journal
IEEE transactions on visualization and computer graphics
Publication Date
Jul 01, 2024
Volume
30
Issue
7
Pages
3973–3980
Identifiers
DOI: 10.1109/TVCG.2023.3244076
PMID: 37022896
Source
Medline
Language
English
License
Unknown

Abstract

Haptic exoskeleton gloves are a widespread solution for providing force-feedback in Virtual Reality (VR), especially for 3D object manipulations. However, they are still lacking an important feature regarding in-hand haptic sensations: the palmar contact. In this paper, we present PalmEx, a novel approach which incorporates palmar force-feedback into exoskeleton gloves to improve the overall grasping sensations and manual haptic interactions in VR. PalmEx's concept is demonstrated through a self-contained hardware system augmenting a hand exoskeleton with an encountered palmar contact interface - physically encountering the users' palm. We build upon current taxonomies to elicit PalmEx's capabilities for both the exploration and manipulation of virtual objects. We first conduct a technical evaluation optimising the delay between the virtual interactions and their physical counterparts. We then empirically evaluate PalmEx's proposed design space in a user study (n=12) to assess the potential of a palmar contact for augmenting an exoskeleton. Results show that PalmEx offers the best rendering capabilities to perform believable grasps in VR. PalmEx highlights the importance of the palmar stimulation, and provides a low-cost solution to augment existing high-end consumer hand exoskeletons.

Report this publication

Statistics

Seen <100 times