Journal article
I. Wald, Donald Degraen, Amber Maimon, Jonas Keppel, Stefan Schneegass, Rainer Malaka
CHI Extended Abstracts, 2025
CHI Extended Abstracts, 2025
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APA
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Wald, I., Degraen, D., Maimon, A., Keppel, J., Schneegass, S., & Malaka, R. (2025). Demonstrating Spatial Haptics: A Sensory Substitution Method for Distal Object Detection Using Tactile Cues. CHI Extended Abstracts.
Chicago/Turabian
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Wald, I., Donald Degraen, Amber Maimon, Jonas Keppel, Stefan Schneegass, and Rainer Malaka. “Demonstrating Spatial Haptics: A Sensory Substitution Method for Distal Object Detection Using Tactile Cues.” CHI Extended Abstracts (2025).
MLA
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Wald, I., et al. “Demonstrating Spatial Haptics: A Sensory Substitution Method for Distal Object Detection Using Tactile Cues.” CHI Extended Abstracts, 2025.
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@article{i2025a,
title = {Demonstrating Spatial Haptics: A Sensory Substitution Method for Distal Object Detection Using Tactile Cues},
year = {2025},
journal = {CHI Extended Abstracts},
author = {Wald, I. and Degraen, Donald and Maimon, Amber and Keppel, Jonas and Schneegass, Stefan and Malaka, Rainer}
}
Abstract
We present Spatial Haptics, a sensory substitution method for representing locations of remote objects in 3D space via haptics. Spatial Haptics imitates auditory localization processes to enable vibrotactile localization abilities similar to those of some animal species. Two implementations of the localization method were developed, that modulate the vibration amplitude of the controllers relative to a target object in Virtual Reality. In Ear-Based Localization, vibrations are modulated based on the relative locations of the ears to the target, while in Hand-Based Localization, the amplitude is determined based on the relative locations of the hands to the target. In this interactive demonstration, users can experience the vibrotactile localization approaches in an interactive VR mini-game. Their task is to locate the target object in a scene consisting of multiple moving objects. By experiencing spatial localization using haptics hands-on, participants can evaluate the benefits of this sensory substitution approach for detecting distal objects.