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Bibliographic Details
Main Authors: Rücker, Fabian, Storch, Torben
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.20741
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author Rücker, Fabian
Storch, Torben
author_facet Rücker, Fabian
Storch, Torben
contents Text input in extended reality (XR) applications remains inefficient and tedious. Most solutions are derived from the traditional keyboard layout, yet fail to translate its positive characteristics to the spatial digital realm. This limits the productive use of immersive technologies. In this work, we analyze physical keyboard input to identify key characteristics that facilitate its comfort, touch typing and high typing speeds. Building on these findings, we propose a novel pressure-based text input modality that transfers these characteristics into immersive space by substituting the two-dimensional QWERTY layout with a linear scale. This design facilitates a touch-typing-like experience, eliminating the need for visual guidance for proficient users. Our skill-based approach enables typing speeds of over 200 characters per minute. Additionally, it is suitable for discreet use in public spaces and everyday text-input tasks, since the proposed system requires virtually no hand or finger movements and resembles smartphone-based text input in appearance.
format Preprint
id arxiv_https___arxiv_org_abs_2507_20741
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Beyond QWERTY: A pressure-based text input approach for XR that enables a touch-typing like experience
Rücker, Fabian
Storch, Torben
Human-Computer Interaction
Text input in extended reality (XR) applications remains inefficient and tedious. Most solutions are derived from the traditional keyboard layout, yet fail to translate its positive characteristics to the spatial digital realm. This limits the productive use of immersive technologies. In this work, we analyze physical keyboard input to identify key characteristics that facilitate its comfort, touch typing and high typing speeds. Building on these findings, we propose a novel pressure-based text input modality that transfers these characteristics into immersive space by substituting the two-dimensional QWERTY layout with a linear scale. This design facilitates a touch-typing-like experience, eliminating the need for visual guidance for proficient users. Our skill-based approach enables typing speeds of over 200 characters per minute. Additionally, it is suitable for discreet use in public spaces and everyday text-input tasks, since the proposed system requires virtually no hand or finger movements and resembles smartphone-based text input in appearance.
title Beyond QWERTY: A pressure-based text input approach for XR that enables a touch-typing like experience
topic Human-Computer Interaction
url https://arxiv.org/abs/2507.20741