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Bibliographic Details
Main Authors: Lesner, Jasmine, Beyeler, Michael
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.17326
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author Lesner, Jasmine
Beyeler, Michael
author_facet Lesner, Jasmine
Beyeler, Michael
contents Retinal prostheses restore limited visual perception, but low spatial resolution and temporal persistence make reading difficult. In sequential letter presentation, the afterimage of one symbol can interfere with perception of the next, leading to systematic recognition errors. Rather than relying on future hardware improvements, we investigate whether optimizing the visual symbols themselves can mitigate this temporal interference. We present SymbolSight, a computational framework that selects symbol-to-letter mappings to minimize confusion among frequently adjacent letters. Using simulated prosthetic vision (SPV) and a neural proxy observer, we estimate pairwise symbol confusability and optimize assignments using language-specific bigram statistics. Across simulations in Arabic, Bulgarian, and English, the resulting heterogeneous symbol sets reduced predicted confusion by a median factor of 22 relative to native alphabets. These results suggest that standard typography is poorly matched to serial, low-bandwidth prosthetic vision and demonstrate how computational modeling can narrow the design space of visual encodings, identifying high-potential candidates for future psychophysical and clinical evaluation rather than predicting present-day clinical reading performance directly.
format Preprint
id arxiv_https___arxiv_org_abs_2601_17326
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle SymbolSight: Minimizing Inter-Symbol Interference for Reading with Prosthetic Vision
Lesner, Jasmine
Beyeler, Michael
Computer Vision and Pattern Recognition
Human-Computer Interaction
Retinal prostheses restore limited visual perception, but low spatial resolution and temporal persistence make reading difficult. In sequential letter presentation, the afterimage of one symbol can interfere with perception of the next, leading to systematic recognition errors. Rather than relying on future hardware improvements, we investigate whether optimizing the visual symbols themselves can mitigate this temporal interference. We present SymbolSight, a computational framework that selects symbol-to-letter mappings to minimize confusion among frequently adjacent letters. Using simulated prosthetic vision (SPV) and a neural proxy observer, we estimate pairwise symbol confusability and optimize assignments using language-specific bigram statistics. Across simulations in Arabic, Bulgarian, and English, the resulting heterogeneous symbol sets reduced predicted confusion by a median factor of 22 relative to native alphabets. These results suggest that standard typography is poorly matched to serial, low-bandwidth prosthetic vision and demonstrate how computational modeling can narrow the design space of visual encodings, identifying high-potential candidates for future psychophysical and clinical evaluation rather than predicting present-day clinical reading performance directly.
title SymbolSight: Minimizing Inter-Symbol Interference for Reading with Prosthetic Vision
topic Computer Vision and Pattern Recognition
Human-Computer Interaction
url https://arxiv.org/abs/2601.17326