Shape representation and recognition through morphological curvature scale spaces

Andrei C. Jalba; Michael H.F. Wilkinson; Jos B.T.M. Roerdink

doi:10.1109/TIP.2005.860606

Shape representation and recognition through morphological curvature scale spaces

Andrei C. Jalba, Michael H.F. Wilkinson, Jos B.T.M. Roerdink

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Abstract

A multiscale, morphological method for the purpose of shape-based object recognition is presented. A connected operator similar to the morphological hat-transform is defined, and two scale-space representations are built, using the curvature function as the underlying one-dimensional signal. Each peak and valley of the curvature is extracted and described by its maximum and average heights and by its extent and represents an entry in the top or bottom hat-transform scale spaces. We demonstrate object recognition based on hat-transform scale spaces for three large data sets, a set of diatom contours, the set of silhouettes from the MPEG-7 database and the set of two-dimensional views of three-dimensional objects from the COIL-20 database. Our approach outperforms other methods for which comparative results exist.

Original language	English
Pages (from-to)	331-341
Number of pages	11
Journal	Ieee transactions on image processing
Volume	15
Issue number	2
DOIs	https://doi.org/10.1109/TIP.2005.860606
Publication status	Published - Feb-2006

Keywords

connected operators
curvature
mathematical morphology
pattern classification
scale space
shape retrieval
top and bottom hat transforms
PLANAR CURVES
MULTISCALE CURVATURE
CONNECTED OPERATORS
FILTERS
DESCRIPTORS
IMAGES

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title = "Shape representation and recognition through morphological curvature scale spaces",

abstract = "A multiscale, morphological method for the purpose of shape-based object recognition is presented. A connected operator similar to the morphological hat-transform is defined, and two scale-space representations are built, using the curvature function as the underlying one-dimensional signal. Each peak and valley of the curvature is extracted and described by its maximum and average heights and by its extent and represents an entry in the top or bottom hat-transform scale spaces. We demonstrate object recognition based on hat-transform scale spaces for three large data sets, a set of diatom contours, the set of silhouettes from the MPEG-7 database and the set of two-dimensional views of three-dimensional objects from the COIL-20 database. Our approach outperforms other methods for which comparative results exist.",

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author = "Jalba, {Andrei C.} and Wilkinson, {Michael H.F.} and Roerdink, {Jos B.T.M.}",

note = "Relation: http://www.rug.nl/informatica/organisatie/overorganisatie/iwi Rights: University of Groningen. Research Institute for Mathematics and Computing Science (IWI)",

year = "2006",

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doi = "10.1109/TIP.2005.860606",

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volume = "15",

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T1 - Shape representation and recognition through morphological curvature scale spaces

AU - Jalba, Andrei C.

AU - Wilkinson, Michael H.F.

AU - Roerdink, Jos B.T.M.

N1 - Relation: http://www.rug.nl/informatica/organisatie/overorganisatie/iwi Rights: University of Groningen. Research Institute for Mathematics and Computing Science (IWI)

PY - 2006/2

Y1 - 2006/2

N2 - A multiscale, morphological method for the purpose of shape-based object recognition is presented. A connected operator similar to the morphological hat-transform is defined, and two scale-space representations are built, using the curvature function as the underlying one-dimensional signal. Each peak and valley of the curvature is extracted and described by its maximum and average heights and by its extent and represents an entry in the top or bottom hat-transform scale spaces. We demonstrate object recognition based on hat-transform scale spaces for three large data sets, a set of diatom contours, the set of silhouettes from the MPEG-7 database and the set of two-dimensional views of three-dimensional objects from the COIL-20 database. Our approach outperforms other methods for which comparative results exist.

AB - A multiscale, morphological method for the purpose of shape-based object recognition is presented. A connected operator similar to the morphological hat-transform is defined, and two scale-space representations are built, using the curvature function as the underlying one-dimensional signal. Each peak and valley of the curvature is extracted and described by its maximum and average heights and by its extent and represents an entry in the top or bottom hat-transform scale spaces. We demonstrate object recognition based on hat-transform scale spaces for three large data sets, a set of diatom contours, the set of silhouettes from the MPEG-7 database and the set of two-dimensional views of three-dimensional objects from the COIL-20 database. Our approach outperforms other methods for which comparative results exist.

KW - connected operators

KW - curvature

KW - mathematical morphology

KW - pattern classification

KW - scale space

KW - shape retrieval

KW - top and bottom hat transforms

KW - PLANAR CURVES

KW - MULTISCALE CURVATURE

KW - CONNECTED OPERATORS

KW - FILTERS

KW - DESCRIPTORS

KW - IMAGES

U2 - 10.1109/TIP.2005.860606

DO - 10.1109/TIP.2005.860606

M3 - Article

SN - 1057-7149

VL - 15

SP - 331

EP - 341

JO - Ieee transactions on image processing

JF - Ieee transactions on image processing

IS - 2

ER -

Shape representation and recognition through morphological curvature scale spaces

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Keywords

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