12.3.1.7 Features for Contour Matching

Browse, R.A.,
Feature-Based Tactile Object Recognition,
PAMI(9), No. 6, November 1987, pp. 779-786. Tactile Sensing. BibRef 8711

Sclaroff, S.[Stan], and Pentland, A.P.,
Modal Matching for Correspondence and Recognition,
PAMI(17), No. 6, June 1995, pp. 545-561.
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.,
A Modal Framework for Correspondence and Description,
ICCV93(308-313).
IEEE DOI Link BibRef 9300
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. BibRef 9400

Chang, Y.L., Leou, J.J.,
A Model-Based Approach to Representation and Matching of Object Shape Patterns,
PRL(13), 1992, pp. 707-714. BibRef 9200

Tieng, Q.M.[Quang Minh], Boles, W.W.,
Recognition of 2D Object Contours Using the Wavelet Transform Zero-Crossing Representation,
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 9512
Earlier:
Complex Daubechies wavelet based affine invariant representation for object recognition,
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 Zero-Crossings,
JMIV(13), No. 1, August 2000, pp. 5-16.
WWW Version. 0006
BibRef

Tieng, Q.M.[Quang Minh], Boles, W.W., 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. BibRef 9012

Ventura, J.A., Wan, W.H.,
Accurate Matching of 2-Dimensional Shapes Using the Minimal Tolerance Zone Error,
IVC(15), No. 12, December 1997, pp. 889-899.
WWW Version. 9802
BibRef

Bandera, A., Urdiales, C., Arrebola, F., Sandoval, F.,
2D object recognition based on curvature functions obtained from local histograms of the contour chain code,
PRL(20), No. 1, January 1999, pp. 49-55. BibRef 9901

Urdiales, C., Bandera, A., Sandoval, F.,
Non-parametric planar shape representation based on adaptive curvature functions,
PR(35), No. 1, January 2002, pp. 43-53.
WWW Version. 0111
BibRef

Yang, H.S., Lee, S.U., Lee, K.M.,
Recognition of 2D Object Contours Using Starting-Point-Independent Wavelet Coefficient Matching,
JVCIR(9), 1998, pp. 171-181. BibRef 9800

Paragios, N.[Nikos], Rousson, M.[Mikael], Ramesh, V.[Visvanathan],
Non-rigid registration using distance functions,
CVIU(89), No. 2-3, February-March 2003, pp. 142-165.
WWW Version. 0304
BibRef
Earlier:
Matching Distance Functions: A Shape-to-Area Variational Approach for Global-to-Local Registration,
ECCV02(II: 775 ff.).
HTML Version. 0205
BibRef

Klassen, E.[Eric], Srivastava, A.[Anuj], Mio, W.[Washington], Joshi, S.H.[Shantanu H.],
Analysis of Planar Shapes Using Geodesic Paths on Shape Spaces,
PAMI(26), No. 3, March 2004, pp. 372-383.
IEEE Abstract. IEEE Top Reference. 0402
Shapes are elements of infinite-dimesnional space, dirrerence using lengths of geodesics connecting them. BibRef

Klassen, E.[Eric], Srivastava, A.[Anuj],
Geodesics Between 3D Closed Curves Using Path-Straightening,
ECCV06(I: 95-106).
Springer DOI Link 0608
BibRef

Srivastava, A.[Anuj], Joshi, S.H.[Shantanu H.], Mio, W.[Washington], Liu, X.W.[Xiu-Wen],
Statistical Shape Analysis: Clustering, Learning, and Testing,
PAMI(27), No. 4, April 2005, pp. 590-602.
IEEE Abstract. IEEE Top Reference. 0501
Planar shapes, cluster images by shapes of boundaries. BibRef

Srivastava, A.[Anuj], 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
BibRef

Xu, D.[Dong], Xu, W.L.[Wen-Li],
Description and recognition of object contours using arc length and tangent orientation,
PRL(26), No. 7, 15 May 2005, pp. 855-864.
WWW Version. 0506
BibRef

Xie, J.[Jun], Heng, P.A.[Pheng-Ann], Shah, M.[Mubarak],
Shape matching and modeling using skeletal context,
PR(41), No. 5, May 2008, pp. 1773-1784.
WWW Version. 0711
Shape skeleton; Saliency structure; Shape matching; Shape modeling; Optimal matching Matching with symmetry features. BibRef

Bai, X.[Xiang], Yang, X.W.[Xing-Wei], Latecki, L.J.[Longin Jan],
Detection and recognition of contour parts based on shape similarity,
PR(41), No. 7, July 2008, pp. 2189-2199.
WWW Version. 0804
Shape similarity; Parts of visual form; Detection of contour parts BibRef

Wu, C.Q.[Cheng-Qian], Bai, X.[Xiang], Li, Q.N.[Quan-Nan], Yang, X.W.[Xing-Wei], Liu, W.Y.[Wen-Yu],
Contour Grouping with Partial Shape Similarity,
PSIVT09(167-178).
Springer DOI Link 0901
BibRef

Shotton, J.D.J.[Jamie D.J.], Blake, A.[Andrew], Cipolla, R.[Roberto],
Multiscale Categorical Object Recognition Using Contour Fragments,
PAMI(30), No. 7, July 2008, pp. 1270-1281.
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., Blake, A., Cipolla, R.,
Efficiently Combining Contour and Texture Cues for Object Recognition,
BMVC08(xx-yy).
PDF Version. 0809
BibRef

Winn, J.[John], Shotton, J.D.J.[Jamie D.J.],
The Layout Consistent Random Field for Recognizing and Segmenting Partially Occluded Objects,
CVPR06(I: 37-44).
IEEE DOI Link 0606
BibRef

Baseski, E., Erdem, A.[Aykut], Tari, S.[Sibel],
Dissimilarity between two skeletal trees in a context,
PR(42), No. 3, March 2009, pp. 370-385.
WWW Version. 0811
Skeletal shape matching; Shape similarity; Disconnected skeleton BibRef

Erdem, A.[Aykut], Tari, S.[Sibel],
Coarse-to-Fine Matching of Shapes Using Disconnected Skeletons by Learning Class-Specific Boundary Deformations,
GbRPR09(21-30).
Springer DOI Link 0905
BibRef

Bandera, A., Marfil, R., Antunez, E.,
Affine-invariant contours recognition using an incremental hybrid learning approach,
PRL(30), No. 14, 15 October 2009, pp. 1310-1320,.
Elsevier DOI Link
WWW Version. 0909
Planar shape recognition; Adaptive curvature function; Incremental analysis BibRef

Ochoa, D.[Daniel], Gautama, S.[Sidharta], Vintimilla, B.[Boris],
Contour Energy Features for Recognition of Biological Specimens in Population Images,
ICIAR07(1061-1070).
Springer DOI Link 0708
BibRef
And:
Detection of Individual Specimens in Populations Using Contour Energies,
ACIVS07(575-586).
Springer DOI Link 0708
BibRef

Schmidt, F.R.[Frank R.], Farin, D.[Dirk], Cremers, D.[Daniel],
Fast Matching of Planar Shapes in Sub-cubic Runtime,
ICCV07(1-6).
IEEE DOI Link 0710
BibRef

Schmidt, F.R.[Frank R.], Toppe, E.[Eno], Cremers, D.[Daniel],
Efficient planar graph cuts with applications in Computer Vision,
CVPR09(351-356).
IEEE DOI Link 0906
BibRef

Schmidt, F.R.[Frank R.], Töppe, E.[Eno], Cremers, D.[Daniel], Boykov, Y.Y.[Yuri Y.],
Intrinsic Mean for Semi-metrical Shape Retrieval Via Graph Cuts,
DAGM07(446-455).
Springer DOI Link 0709
BibRef
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], Cremers, D.[Daniel],
Shape Matching by Variational Computation of Geodesics on a Manifold,
DAGM06(142-151).
Springer DOI Link 0610
BibRef

Kise, K.[Koichi], Noguchi, K.[Kazuto], Iwamura, M.[Masakazu],
Memory efficient recognition of specific objects with local features,
ICPR08(1-4).
IEEE DOI Link 0812
BibRef

Kise, K.[Koichi], Nakai, T.[Tomohiro], Iwamura, M.[Masakazu], Yokota, S.[Satoshi],
Efficient Recognition of Planar Objects Based on Hashing of Keypoints: An Approach Towards Making the Physical World Clickable,
ICPR06(IV: 813-816).
WWW Version. 0609
BibRef

Li, Z.[Zheng], Luo, X.N.[Xiao-Nan], Gao, C.Y.[Cheng-Ying],
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,
ICPR90(I: 240-242).
IEEE DOI Link BibRef 9000

Chapter on Registration, Matching and Recognition Using Points, Lines, Regions, Areas, Surfaces continues in
Region Properties for Matching .