Audiohaptic Feedback Enhances Motor Performance in a Low-Fidelity Simulated Drilling Task

Overview

Journal Brain Sci

Publisher MDPI

Date 2020 Jan 8

PMID 31906192

Citations 2

Authors

Brianna L Grant

Paul C Yielder

Tracey A Patrick

Bill Kapralos

Michael Williams-Bell

Bernadette A Murphy

Affiliations

Soon will be listed here.

Abstract

When used in educational settings, simulations utilizing virtual reality (VR) technologies can reduce training costs while providing a safe and effective learning environment. Tasks can be easily modified to maximize learning objectives of different levels of trainees (e.g., novice, intermediate, expert), and can be repeated for the development of psychomotor skills. VR offers a multisensory experience, providing visual, auditory, and haptic sensations with varying levels of fidelity. While simulating visual and auditory stimuli is relatively easy and cost-effective, similar representations of haptic sensation still require further development. Evidence suggests that mixing high- and low-fidelity realistic sensations (e.g., audition and haptic) can improve the overall perception of realism, however, whether this also leads to improved performance has not been examined. The current study examined whether audiohaptic stimuli presented in a virtual drilling task can lead to improved motor performance and subjective realism, compared to auditory stimuli alone. Right-handed participants ( = 16) completed 100 drilling trials of each stimulus type. Performance measures indicated that participants overshot the target during auditory trials, and undershot the target during audiohaptic trials. Undershooting is thought to be indicative of improved performance, optimizing both time and energy requirements.

Citing Articles

The Role of Body in Brain Plasticity.

Pazzaglia M Brain Sci. 2022; 12(2).

PMID: 35204040 PMC: 8869932. DOI: 10.3390/brainsci12020277.

Using Haptic Feedback in a Virtual Reality Bone Drilling Simulation to Reduce Plunge Distance.

Benjamin M, Sabri O Cureus. 2021; 13(9):e18315.

PMID: 34722082 PMC: 8549079. DOI: 10.7759/cureus.18315.

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