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IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9506
And:
Vismod-304, 1994.
HTML Version. and
Postscript Version.
Code, Matching.
Gelerkin Approximation.
Finite Element Analysis. Applies to matching 2-D contours and points.
Similar to the
Proximity Matrix. formulations.
See also Closed-Form Solutions for Physically Based Shape Modeling and Recognition. See also Modal Matching: A Method for Describing, Comparing, and Manipulating Digital Signals.
BibRef
Sclaroff, S.[Stan], and
Pentland, A.P.,
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ICCV93(308-313).
IEEE DOI Link
BibRef
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And:
A Finite-Element Framework for Correspondence and Shape Description,
Vismod-201, 1992.
Postscript Version.
BibRef
Pentland, A.P.[Alex P.],
Sclaroff, S.[Stan],
Modal represenations,
ORCV94(249-262).
Springer DOI Link
9412
The next step from Eigen faces.
BibRef
Sclaroff, S.,
Modal Matching: A Method for Describing, Comparing, and Manipulating
Digital Signals,
Ph.D.Thesis, MIT, February 1995,
BibRef
9502
Vismod-TR-311, January 1995.
Also extends his 2-D work to 3-D models.
HTML Version. and
Postscript Version.
See also Modal Matching for Correspondence and Recognition.
BibRef
Sclaroff, S.[Stan], and
Pentland, A.P.[Alex P.],
On Modal Modeling for Medical Images:
Underconstrained Shape Description and Data Compression,
Vismod-275, 1994.
Postscript Version.
BibRef
9400
Sclaroff, S., and
Pentland, A.P.,
Object Recognition and Categorization Using Modal Matching,
Vismod-267, 1994.
Postscript Version.
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Chang, Y.L.,
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A Model-Based Approach to Representation and Matching of
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PRL(13), 1992, pp. 707-714.
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9200
Tieng, Q.M.[Quang Minh],
Boles, W.W.,
Recognition of 2D Object Contours Using the
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PAMI(19), No. 8, August 1997, pp. 910-916.
IEEE Abstract. IEEE Top Reference.
WWW Version.
9709
A wavelet based description of the contour used in matching.
See also Wavelet-Based Affine Invariant Representation: A Tool for Recognizing Planar Objects in 3D Space.
BibRef
Tieng, Q.M.[Quang Minh],
Boles, W.W.,
An Application of Wavelet-Based Affine-Invariant Representation,
PRL(16), No. 12, December 1995, pp. 1287-1296.
BibRef
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Earlier:
Complex Daubechies wavelet based affine invariant representation for
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ICIP94(I: 198-202).
IEEE DOI Link
9411
BibRef
Tieng, Q.M.[Quang Minh],
Boles, W.W.,
Space Curve Representation and Recognition Based on Wavelet Transform
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JMIV(13), No. 1, August 2000, pp. 5-16.
WWW Version.
0006
BibRef
Tieng, Q.M.[Quang Minh],
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Deriche, M.,
Space curve recognition based on the wavelet transform and
string-matching techniques,
ICIP95(II: 643-646).
IEEE DOI Link
9510
BibRef
Dudek, G.,
Tsotsos, J.K.,
Shape Representation and Recognition from Multiscale Curvature,
CVIU(68), No. 2, November 1997, pp. 170-189.
9712
WWW Version.
BibRef
Earlier:
Shape Representation and Recognition from Curvature,
CVPR91(35-41).
IEEE Abstract. IEEE Top Reference.
BibRef
Earlier:
Recognizing planar curves using curvature-tuned smoothing,
ICPR90(I: 130-135).
IEEE DOI Link
9006
Break into features and match. Similarity measure and distance
metric in scale space.
BibRef
Dudek, G.,
Shape Representation from Curvature,
Ph.D.Thesis (CS), Totonto, December 1990.
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Ventura, J.A.,
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IVC(15), No. 12, December 1997, pp. 889-899.
WWW Version.
9802
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Bandera, A.,
Urdiales, C.,
Arrebola, F.,
Sandoval, F.,
2D object recognition based on curvature functions obtained from local
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Urdiales, C.,
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WWW Version.
0111
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Yang, H.S.,
Lee, S.U.,
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WWW Version.
0304
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Matching Distance Functions: A Shape-to-Area Variational Approach for
Global-to-Local Registration,
ECCV02(II: 775 ff.).
HTML Version.
0205
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Klassen, E.[Eric],
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Mio, W.[Washington],
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0402
Shapes are elements of infinite-dimesnional space, dirrerence
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Geodesics Between 3D Closed Curves Using Path-Straightening,
ECCV06(I: 95-106).
Springer DOI Link
0608
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Srivastava, A.[Anuj],
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0501
Planar shapes, cluster images by shapes of boundaries.
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Jain, A.[Aastha],
Joshi, S.H.[Shantanu H.],
Kaziska, D.[David],
Statistical Shape Models Using Elastic-String Representations,
ACCV06(I:612-621).
Springer DOI Link
0601
BibRef
Srivastava, A.[Anuj],
Liu, W.[Wei],
Joshi, S.H.[Shantanu H.],
Modeling spatial patterns of shapes,
ICIP08(1144-1147).
IEEE DOI Link
0810
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Description and recognition of object contours using arc length and
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PRL(26), No. 7, 15 May 2005, pp. 855-864.
WWW Version.
0506
BibRef
Xie, J.[Jun],
Heng, P.A.[Pheng-Ann],
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PR(41), No. 5, May 2008, pp. 1773-1784.
WWW Version.
0711
Shape skeleton; Saliency structure; Shape matching; Shape modeling;
Optimal matching
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0804
Shape similarity; Parts of visual form; Detection of contour parts
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Yang, X.W.[Xing-Wei],
Liu, W.Y.[Wen-Yu],
Contour Grouping with Partial Shape Similarity,
PSIVT09(167-178).
Springer DOI Link
0901
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Shotton, J.D.J.[Jamie D.J.],
Blake, A.[Andrew],
Cipolla, R.[Roberto],
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IEEE DOI Link
0806
BibRef
Earlier:
Contour-Based Learning for Object Detection,
ICCV05(I: 503-510).
IEEE DOI Link
0510
Local contour features.
BibRef
Shotton, J.D.J.,
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BMVC08(xx-yy).
PDF Version.
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PR(42), No. 3, March 2009, pp. 370-385.
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0811
Skeletal shape matching; Shape similarity; Disconnected skeleton
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GbRPR09(21-30).
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0905
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Bandera, A.,
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Antunez, E.,
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0909
Planar shape recognition; Adaptive curvature function; Incremental analysis
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Ochoa, D.[Daniel],
Gautama, S.[Sidharta],
Vintimilla, B.[Boris],
Contour Energy Features for Recognition of Biological Specimens in
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ICIAR07(1061-1070).
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0708
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And:
Detection of Individual Specimens in Populations Using Contour Energies,
ACIVS07(575-586).
Springer DOI Link
0708
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Schmidt, F.R.[Frank R.],
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0710
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Schmidt, F.R.[Frank R.],
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Cremers, D.[Daniel],
Efficient planar graph cuts with applications in Computer Vision,
CVPR09(351-356).
IEEE DOI Link
0906
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Schmidt, F.R.[Frank R.],
Töppe, E.[Eno],
Cremers, D.[Daniel],
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DAGM07(446-455).
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And:
Efficient Shape Matching Via Graph Cuts,
EMMCVPR07(39-54).
Springer DOI Link Or:
PDF Version.
0708
BibRef
Schmidt, F.R.[Frank R.],
Clausen, M.[Michael],
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Shape Matching by Variational Computation of Geodesics on a Manifold,
DAGM06(142-151).
Springer DOI Link
0610
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Kise, K.[Koichi],
Noguchi, K.[Kazuto],
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ICPR08(1-4).
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0812
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Kise, K.[Koichi],
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Iwamura, M.[Masakazu],
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An Approach Towards Making the Physical World Clickable,
ICPR06(IV: 813-816).
WWW Version.
0609
BibRef
Li, Z.[Zheng],
Luo, X.N.[Xiao-Nan],
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Multi-Resolution Curve Alignment Based on Salient Features,
ICPR06(II: 357-360).
WWW Version.
0609
BibRef
Wang, T.[Tao],
Basu, A.[Anup],
Iterative Estimation of 3D Transformations for Object Alignment,
ISVC06(I: 212-221).
Springer DOI Link
0611
BibRef
Earlier:
Automatic Estimation of 3D Transformations using Skeletons for Object
Alignment,
ICPR06(I: 51-54).
WWW Version.
0609
BibRef
Deriche, R.,
Faugeras, O.D.,
2-D Curve Matching Using High Curvature Points:
Application to Stereo Vision,
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IEEE DOI Link
BibRef
9000
Chapter on Registration, Matching and Recognition Using Points, Lines, Regions, Areas, Surfaces continues in
Region Properties for Matching .