On the second order spatiochromatic structure of natural images

Edoardo Provenzi; Julie Delon; Yann Gousseau; Baptiste Mazin

doi:10.1016/j.visres.2015.02.025

On the second order spatiochromatic structure of natural images

Edoardo Provenzi
, Julie Delon
, Yann Gousseau
, Baptiste Mazin

Université Paris Descartes
CNRS LTCI

Research output: Contribution to journal › Article › peer-review

Abstract

We provide a theoretical analysis of some empirical facts about the second order spatiochromatic structure of natural images in color. In particular, we show that two simple assumptions on the covariance matrices of color images yield eigenvectors made by the Kronecker product of Fourier features times the triad given by luminance plus color opponent channels. The first of these assumptions is second order stationarity while the second one is commutativity between color correlation matrices. The validity of these assumptions and the predicted shape of the PCA components of color images are experimentally observed on two large image databases. As a by-product of this experimental study, we also provide novel data to support an exponential decay law of the spatiochromatic covariance between pairs of pixels as a function of their spatial distance.

Original language	English
Pages (from-to)	22-38
Number of pages	17
Journal	Vision Research
Volume	120
DOIs	https://doi.org/10.1016/j.visres.2015.02.025
Publication status	Published - 1 Mar 2016
Externally published	Yes

Keywords

Color images
Fourier basis
Natural image statistics
Opponent channels
Second order stationarity
Spatio-chromatic correlation

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10.1016/j.visres.2015.02.025

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title = "On the second order spatiochromatic structure of natural images",

abstract = "We provide a theoretical analysis of some empirical facts about the second order spatiochromatic structure of natural images in color. In particular, we show that two simple assumptions on the covariance matrices of color images yield eigenvectors made by the Kronecker product of Fourier features times the triad given by luminance plus color opponent channels. The first of these assumptions is second order stationarity while the second one is commutativity between color correlation matrices. The validity of these assumptions and the predicted shape of the PCA components of color images are experimentally observed on two large image databases. As a by-product of this experimental study, we also provide novel data to support an exponential decay law of the spatiochromatic covariance between pairs of pixels as a function of their spatial distance.",

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AU - Provenzi, Edoardo

AU - Delon, Julie

AU - Gousseau, Yann

AU - Mazin, Baptiste

PY - 2016/3/1

Y1 - 2016/3/1

N2 - We provide a theoretical analysis of some empirical facts about the second order spatiochromatic structure of natural images in color. In particular, we show that two simple assumptions on the covariance matrices of color images yield eigenvectors made by the Kronecker product of Fourier features times the triad given by luminance plus color opponent channels. The first of these assumptions is second order stationarity while the second one is commutativity between color correlation matrices. The validity of these assumptions and the predicted shape of the PCA components of color images are experimentally observed on two large image databases. As a by-product of this experimental study, we also provide novel data to support an exponential decay law of the spatiochromatic covariance between pairs of pixels as a function of their spatial distance.

AB - We provide a theoretical analysis of some empirical facts about the second order spatiochromatic structure of natural images in color. In particular, we show that two simple assumptions on the covariance matrices of color images yield eigenvectors made by the Kronecker product of Fourier features times the triad given by luminance plus color opponent channels. The first of these assumptions is second order stationarity while the second one is commutativity between color correlation matrices. The validity of these assumptions and the predicted shape of the PCA components of color images are experimentally observed on two large image databases. As a by-product of this experimental study, we also provide novel data to support an exponential decay law of the spatiochromatic covariance between pairs of pixels as a function of their spatial distance.

KW - Color images

KW - Fourier basis

KW - Natural image statistics

KW - Opponent channels

KW - Second order stationarity

KW - Spatio-chromatic correlation

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DO - 10.1016/j.visres.2015.02.025

M3 - Article

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AN - SCOPUS:84959335925

SN - 0042-6989

VL - 120

SP - 22

EP - 38

JO - Vision Research

JF - Vision Research

ER -

On the second order spatiochromatic structure of natural images

Abstract

Keywords

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