Retinex by Autoencoders

Claudio Pezzoni; Corrado Mio; Annalisa Barsotti; Gabriele Gianini

doi:10.1109/SITIS57111.2022.00036

Retinex by Autoencoders

Claudio Pezzoni, Corrado Mio, Annalisa Barsotti, Gabriele Gianini

Emirates ICT Innovation Center

Università degli Studi di Milano

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The Retinex algorithms find wide applications as image enhancers, for their capability of preserving edges, while at the same time attenuating smooth gradients and chromatic dominants. They are characterized by the fact that the output chromatic intensity of a pixel is not determined in isolation (or looking only at the contiguous pixels) but through an operation of comparison to different local and remote areas of the image. This local/global comparison implies also a high computational cost for the algorithms: their complexity is not linear with the number of pixels; furthermore, the more systematic the comparison, the higher the complexity. Thus, most Retinex algorithms are unfit for real-time processing. The recent development of efficient Machine Learning architectures for Image Processing has raised the question of whether one of the Retinex "transforms"could be efficiently learned by training a feed-forward Artificial Neural Network, thus creating a model characterized by short processing time. Selecting a variant of the Random Spray Retinex model - FuzzyRSR - as representative of the Retinex family, and choosing suitably structured autoencoder neural networks, we found that we could accurately reproduce the Retinex effects. The computational cost of the training phase was moderate, while that of the inference phases was linear in the number of pixels, and three orders of magnitude lower than the one of FuzzyRSR, thus making the ANN implementation of Retinex suitable for real-time processing.

Original language	British English
Title of host publication	Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022
Editors	Kokou Yetongnon, Albert Dipanda, Luigi Gallo
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	140-147
Number of pages	8
ISBN (Electronic)	9781665464956
DOIs	https://doi.org/10.1109/SITIS57111.2022.00036
State	Published - 2022
Event	16th IEEE International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022 - Dijon, France Duration: 19 Oct 2022 → 21 Oct 2022

Publication series

Name	Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022

Conference

Conference	16th IEEE International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022
Country/Territory	France
City	Dijon
Period	19/10/22 → 21/10/22

Keywords

Autoencoders
FuzzyRSR
Image Enhancement
Random Spray Retinex
Retinex

Access to Document

10.1109/SITIS57111.2022.00036

Cite this

Pezzoni, C., Mio, C., Barsotti, A., & Gianini, G. (2022). Retinex by Autoencoders. In K. Yetongnon, A. Dipanda, & L. Gallo (Eds.), Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022 (pp. 140-147). (Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SITIS57111.2022.00036

Pezzoni, Claudio ; Mio, Corrado ; Barsotti, Annalisa et al. / Retinex by Autoencoders. Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022. editor / Kokou Yetongnon ; Albert Dipanda ; Luigi Gallo. Institute of Electrical and Electronics Engineers Inc., 2022. pp. 140-147 (Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022).

@inproceedings{986a4a6272814d2494f97e18b3c822b0,

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abstract = "The Retinex algorithms find wide applications as image enhancers, for their capability of preserving edges, while at the same time attenuating smooth gradients and chromatic dominants. They are characterized by the fact that the output chromatic intensity of a pixel is not determined in isolation (or looking only at the contiguous pixels) but through an operation of comparison to different local and remote areas of the image. This local/global comparison implies also a high computational cost for the algorithms: their complexity is not linear with the number of pixels; furthermore, the more systematic the comparison, the higher the complexity. Thus, most Retinex algorithms are unfit for real-time processing. The recent development of efficient Machine Learning architectures for Image Processing has raised the question of whether one of the Retinex {"}transforms{"}could be efficiently learned by training a feed-forward Artificial Neural Network, thus creating a model characterized by short processing time. Selecting a variant of the Random Spray Retinex model - FuzzyRSR - as representative of the Retinex family, and choosing suitably structured autoencoder neural networks, we found that we could accurately reproduce the Retinex effects. The computational cost of the training phase was moderate, while that of the inference phases was linear in the number of pixels, and three orders of magnitude lower than the one of FuzzyRSR, thus making the ANN implementation of Retinex suitable for real-time processing.",

keywords = "Autoencoders, FuzzyRSR, Image Enhancement, Random Spray Retinex, Retinex",

author = "Claudio Pezzoni and Corrado Mio and Annalisa Barsotti and Gabriele Gianini",

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year = "2022",

doi = "10.1109/SITIS57111.2022.00036",

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series = "Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Pezzoni, C, Mio, C, Barsotti, A & Gianini, G 2022, Retinex by Autoencoders. in K Yetongnon, A Dipanda & L Gallo (eds), Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022. Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022, Institute of Electrical and Electronics Engineers Inc., pp. 140-147, 16th IEEE International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022, Dijon, France, 19/10/22. https://doi.org/10.1109/SITIS57111.2022.00036

Retinex by Autoencoders. / Pezzoni, Claudio; Mio, Corrado; Barsotti, Annalisa et al.
Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022. ed. / Kokou Yetongnon; Albert Dipanda; Luigi Gallo. Institute of Electrical and Electronics Engineers Inc., 2022. p. 140-147 (Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Retinex by Autoencoders

AU - Pezzoni, Claudio

AU - Mio, Corrado

AU - Barsotti, Annalisa

AU - Gianini, Gabriele

PY - 2022

Y1 - 2022

N2 - The Retinex algorithms find wide applications as image enhancers, for their capability of preserving edges, while at the same time attenuating smooth gradients and chromatic dominants. They are characterized by the fact that the output chromatic intensity of a pixel is not determined in isolation (or looking only at the contiguous pixels) but through an operation of comparison to different local and remote areas of the image. This local/global comparison implies also a high computational cost for the algorithms: their complexity is not linear with the number of pixels; furthermore, the more systematic the comparison, the higher the complexity. Thus, most Retinex algorithms are unfit for real-time processing. The recent development of efficient Machine Learning architectures for Image Processing has raised the question of whether one of the Retinex "transforms"could be efficiently learned by training a feed-forward Artificial Neural Network, thus creating a model characterized by short processing time. Selecting a variant of the Random Spray Retinex model - FuzzyRSR - as representative of the Retinex family, and choosing suitably structured autoencoder neural networks, we found that we could accurately reproduce the Retinex effects. The computational cost of the training phase was moderate, while that of the inference phases was linear in the number of pixels, and three orders of magnitude lower than the one of FuzzyRSR, thus making the ANN implementation of Retinex suitable for real-time processing.

AB - The Retinex algorithms find wide applications as image enhancers, for their capability of preserving edges, while at the same time attenuating smooth gradients and chromatic dominants. They are characterized by the fact that the output chromatic intensity of a pixel is not determined in isolation (or looking only at the contiguous pixels) but through an operation of comparison to different local and remote areas of the image. This local/global comparison implies also a high computational cost for the algorithms: their complexity is not linear with the number of pixels; furthermore, the more systematic the comparison, the higher the complexity. Thus, most Retinex algorithms are unfit for real-time processing. The recent development of efficient Machine Learning architectures for Image Processing has raised the question of whether one of the Retinex "transforms"could be efficiently learned by training a feed-forward Artificial Neural Network, thus creating a model characterized by short processing time. Selecting a variant of the Random Spray Retinex model - FuzzyRSR - as representative of the Retinex family, and choosing suitably structured autoencoder neural networks, we found that we could accurately reproduce the Retinex effects. The computational cost of the training phase was moderate, while that of the inference phases was linear in the number of pixels, and three orders of magnitude lower than the one of FuzzyRSR, thus making the ANN implementation of Retinex suitable for real-time processing.

KW - Autoencoders

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KW - Random Spray Retinex

KW - Retinex

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M3 - Conference contribution

AN - SCOPUS:85154045009

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BT - Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022

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Pezzoni C, Mio C, Barsotti A, Gianini G. Retinex by Autoencoders. In Yetongnon K, Dipanda A, Gallo L, editors, Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022. Institute of Electrical and Electronics Engineers Inc. 2022. p. 140-147. (Proceedings - 16th International Conference on Signal-Image Technology and Internet-Based Systems, SITIS 2022). doi: 10.1109/SITIS57111.2022.00036

Retinex by Autoencoders

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Keywords

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