Understanding the structure of diffusive scale-spaces

Nicolas Rougon; Francoise Preteux

doi:10.1109/ICPR.1996.547195

Understanding the structure of diffusive scale-spaces

Nicolas Rougon, Francoise Preteux

CNRS SAMOVAR UMR 5157

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

Abstract

This paper investigates structural properties of diffusive scale-spaces and develops a Riemannian description based on electromagnetic (EM) field theory. The generalized diffusion equation defining photometric transitions is interpreted as a Lorentz gauge condition expressing the trace Lorentz-invariance of an EM quadripotential with covariant scalar and contravariant vector components, respectively related to photometric and geometric image properties. This gauge condition determines EM quadrifield and quadricharge, which satisfy Maxwell equations. Deriving their general expressions as functions of scale-space geometric or energetic features yields Lorentz-invariants which synthesize intrinsic multiscale image properties.

Original language	English
Title of host publication	Track B
Subtitle of host publication	Pattern Recognition and Signal Analysis
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	844-848
Number of pages	5
ISBN (Print)	081867282X, 9780818672828
DOIs	https://doi.org/10.1109/ICPR.1996.547195
Publication status	Published - 1 Jan 1996
Externally published	Yes
Event	13th International Conference on Pattern Recognition, ICPR 1996 - Vienna, Austria Duration: 25 Aug 1996 → 29 Aug 1996

Publication series

Name	Proceedings - International Conference on Pattern Recognition
Volume	2
ISSN (Print)	1051-4651

Conference

Conference	13th International Conference on Pattern Recognition, ICPR 1996
Country/Territory	Austria
City	Vienna
Period	25/08/96 → 29/08/96

Keywords

Multiscale analysis
deformable manifolds
gauge theory
geodesic flows
variational methods

Access to Document

10.1109/ICPR.1996.547195

Cite this

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title = "Understanding the structure of diffusive scale-spaces",

abstract = "This paper investigates structural properties of diffusive scale-spaces and develops a Riemannian description based on electromagnetic (EM) field theory. The generalized diffusion equation defining photometric transitions is interpreted as a Lorentz gauge condition expressing the trace Lorentz-invariance of an EM quadripotential with covariant scalar and contravariant vector components, respectively related to photometric and geometric image properties. This gauge condition determines EM quadrifield and quadricharge, which satisfy Maxwell equations. Deriving their general expressions as functions of scale-space geometric or energetic features yields Lorentz-invariants which synthesize intrinsic multiscale image properties.",

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author = "Nicolas Rougon and Francoise Preteux",

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language = "English",

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

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Rougon, N & Preteux, F 1996, Understanding the structure of diffusive scale-spaces. in Track B: Pattern Recognition and Signal Analysis., 547195, Proceedings - International Conference on Pattern Recognition, vol. 2, Institute of Electrical and Electronics Engineers Inc., pp. 844-848, 13th International Conference on Pattern Recognition, ICPR 1996, Vienna, Austria, 25/08/96. https://doi.org/10.1109/ICPR.1996.547195

Understanding the structure of diffusive scale-spaces. / Rougon, Nicolas; Preteux, Francoise.
Track B: Pattern Recognition and Signal Analysis. Institute of Electrical and Electronics Engineers Inc., 1996. p. 844-848 547195 (Proceedings - International Conference on Pattern Recognition; Vol. 2).

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

TY - GEN

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AU - Preteux, Francoise

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N2 - This paper investigates structural properties of diffusive scale-spaces and develops a Riemannian description based on electromagnetic (EM) field theory. The generalized diffusion equation defining photometric transitions is interpreted as a Lorentz gauge condition expressing the trace Lorentz-invariance of an EM quadripotential with covariant scalar and contravariant vector components, respectively related to photometric and geometric image properties. This gauge condition determines EM quadrifield and quadricharge, which satisfy Maxwell equations. Deriving their general expressions as functions of scale-space geometric or energetic features yields Lorentz-invariants which synthesize intrinsic multiscale image properties.

AB - This paper investigates structural properties of diffusive scale-spaces and develops a Riemannian description based on electromagnetic (EM) field theory. The generalized diffusion equation defining photometric transitions is interpreted as a Lorentz gauge condition expressing the trace Lorentz-invariance of an EM quadripotential with covariant scalar and contravariant vector components, respectively related to photometric and geometric image properties. This gauge condition determines EM quadrifield and quadricharge, which satisfy Maxwell equations. Deriving their general expressions as functions of scale-space geometric or energetic features yields Lorentz-invariants which synthesize intrinsic multiscale image properties.

KW - Multiscale analysis

KW - deformable manifolds

KW - gauge theory

KW - geodesic flows

KW - variational methods

U2 - 10.1109/ICPR.1996.547195

DO - 10.1109/ICPR.1996.547195

M3 - Conference contribution

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SN - 9780818672828

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PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 13th International Conference on Pattern Recognition, ICPR 1996

Y2 - 25 August 1996 through 29 August 1996

ER -

Understanding the structure of diffusive scale-spaces

Abstract

Publication series

Conference

Keywords

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