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Main Authors: Reif, Maximilian, Zumbrägel, Jens
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.00763
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author Reif, Maximilian
Zumbrägel, Jens
author_facet Reif, Maximilian
Zumbrägel, Jens
contents A visual cryptography scheme is a secret sharing scheme in which the secret information is an image and the shares are printed on transparencies, so that the secret image can be recovered by simply stacking the shares on top of each other. Such schemes do therefore not require any knowledge of cryptography tools to recover the secret, and they have widespread applications, for example, when sharing QR codes or medical images. In this work we deal with visual cryptography threshold schemes for color images. Our color model differs from most previous work by allowing arbitrary colors to be stacked, resulting in a possibly different color. This more general color monoid model enables us to achieve shorter pixel expansion and higher contrast than comparable schemes. We revisit the polynomial framework of Koga and Ishihara for constructing visual cryptography schemes and apply the monoid ring to obtain new schemes for color visual cryptography.
format Preprint
id arxiv_https___arxiv_org_abs_2510_00763
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Monoid Ring Approach to Color Visual Cryptography
Reif, Maximilian
Zumbrägel, Jens
Cryptography and Security
A visual cryptography scheme is a secret sharing scheme in which the secret information is an image and the shares are printed on transparencies, so that the secret image can be recovered by simply stacking the shares on top of each other. Such schemes do therefore not require any knowledge of cryptography tools to recover the secret, and they have widespread applications, for example, when sharing QR codes or medical images. In this work we deal with visual cryptography threshold schemes for color images. Our color model differs from most previous work by allowing arbitrary colors to be stacked, resulting in a possibly different color. This more general color monoid model enables us to achieve shorter pixel expansion and higher contrast than comparable schemes. We revisit the polynomial framework of Koga and Ishihara for constructing visual cryptography schemes and apply the monoid ring to obtain new schemes for color visual cryptography.
title A Monoid Ring Approach to Color Visual Cryptography
topic Cryptography and Security
url https://arxiv.org/abs/2510.00763