Sistema de imagen secreta compartida con optimización de la carga útil

Angelina Espejel-Trujillo; Iván Castillo-Camacho; Mariko Nakano-Miyatake; Héctor Pérez-Meana

doi:10.4067/S0718-07642014000400021

Sistema de imagen secreta compartida con optimización de la carga útil

Angelina Espejel-Trujillo, Iván Castillo-Camacho, Mariko Nakano-Miyatake, Héctor Pérez-Meana

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Culhuacán

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

In this paper an interpolation method based on (k,n)-threshold secret image sharing (SIS) scheme is proposed, in which the secret data are any binary data, such as images, audio, video, document and even executable files. The proposed scheme uses Lagrange polynomial in the Galois Field GF(28) to encode and decode the secret data in a lossless manner. The shared data are hidden into n camouflage images. In the decoding stage, at least k (≤n) camouflage images are required to reveal the secret data. To increase the payload of the secret data, Lagrange interpolation is solved in an iterative manner under GF(28). The experimental results show a higher payload of the secret data compared to those of other methods previously reported. Also, the quality of the camouflage images is higher than that of the conventional algorithms when the same amount of secret data is shared.

Título traducido de la contribución	Improved secret image sharing scheme with payload optimization
Idioma original	Español
Páginas (desde-hasta)	193-204
Número de páginas	12
Publicación	Informacion Tecnologica
Volumen	25
N.º	4
DOI	https://doi.org/10.4067/S0718-07642014000400021
Estado	Publicada - 2014

Palabras clave

Image secret sharing
Lagrange interpolation
Payload
Secret sharing

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10.4067/S0718-07642014000400021

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title = "Sistema de imagen secreta compartida con optimizaci{\'o}n de la carga {\'u}til",

abstract = "In this paper an interpolation method based on (k,n)-threshold secret image sharing (SIS) scheme is proposed, in which the secret data are any binary data, such as images, audio, video, document and even executable files. The proposed scheme uses Lagrange polynomial in the Galois Field GF(28) to encode and decode the secret data in a lossless manner. The shared data are hidden into n camouflage images. In the decoding stage, at least k (≤n) camouflage images are required to reveal the secret data. To increase the payload of the secret data, Lagrange interpolation is solved in an iterative manner under GF(28). The experimental results show a higher payload of the secret data compared to those of other methods previously reported. Also, the quality of the camouflage images is higher than that of the conventional algorithms when the same amount of secret data is shared.",

keywords = "Image secret sharing, Lagrange interpolation, Payload, Secret sharing",

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year = "2014",

doi = "10.4067/S0718-07642014000400021",

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AU - Espejel-Trujillo, Angelina

AU - Castillo-Camacho, Iván

AU - Nakano-Miyatake, Mariko

AU - Pérez-Meana, Héctor

PY - 2014

Y1 - 2014

N2 - In this paper an interpolation method based on (k,n)-threshold secret image sharing (SIS) scheme is proposed, in which the secret data are any binary data, such as images, audio, video, document and even executable files. The proposed scheme uses Lagrange polynomial in the Galois Field GF(28) to encode and decode the secret data in a lossless manner. The shared data are hidden into n camouflage images. In the decoding stage, at least k (≤n) camouflage images are required to reveal the secret data. To increase the payload of the secret data, Lagrange interpolation is solved in an iterative manner under GF(28). The experimental results show a higher payload of the secret data compared to those of other methods previously reported. Also, the quality of the camouflage images is higher than that of the conventional algorithms when the same amount of secret data is shared.

AB - In this paper an interpolation method based on (k,n)-threshold secret image sharing (SIS) scheme is proposed, in which the secret data are any binary data, such as images, audio, video, document and even executable files. The proposed scheme uses Lagrange polynomial in the Galois Field GF(28) to encode and decode the secret data in a lossless manner. The shared data are hidden into n camouflage images. In the decoding stage, at least k (≤n) camouflage images are required to reveal the secret data. To increase the payload of the secret data, Lagrange interpolation is solved in an iterative manner under GF(28). The experimental results show a higher payload of the secret data compared to those of other methods previously reported. Also, the quality of the camouflage images is higher than that of the conventional algorithms when the same amount of secret data is shared.

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KW - Lagrange interpolation

KW - Payload

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DO - 10.4067/S0718-07642014000400021

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Sistema de imagen secreta compartida con optimización de la carga útil

Resumen

Palabras clave

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Huella

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