Keith Price Bibliography Surface Registration, Matching, Patch Based, Planar Patches, Planes

12.3.4.1.4 Surface Registration, Matching, Patch Based, Planar Patches, Planes

Chapter Contents (Back)
Matching, Surfaces. Surface Matching.

Bolle, R.M., Califano, A., and Kjeldsen, R.,
A Complete and Extendable Approach to Visual Recognition,
PAMI(14), No. 5, May 1992, pp. 534-548.
IEEE DOI Link Hough. Recognition, Indexing. Compute surfaces, patches, intersection curves from a depth map and index into the object model database. BibRef 9205

Fisher, R.B.,
Geometric Constraints from Planar Surface Patch Matching,
IVC(8), No. 2, May 1990, pp. 148-154.
WWW Version. BibRef 9005 Edinburgh BibRef

Fisher, R.B.,
Identity Independent Object Segmentation in 2 1/2D Sketch Data,
ECAI86(148-153), July 1986. region grouping from range data BibRef 8607 Edinburgh BibRef

Dorai, C.[Chitra], Wang, G.[Gang], Jain, A.K.[Anil K.], Mercer, C.[Carolyn],
Registration and Integration of Multiple Object Views for 3D Model Construction,
PAMI(20), No. 1, January 1998, pp. 83-89.
IEEE DOI Link 9803
BibRef
Earlier: A1, A3, A2, A4:
From Images to Models: Automatic 3D Object Model Construction from Multiple Views,
ICPR96(I: 770-774).
IEEE DOI Link 9608
(Michigan State Univ., USA) Seamless integration to get one surface. Several (9 in an example) 3-D views taken around the object. BibRef

Dorai, C., Weng, J., Jain, A.K.,
Optimal Registration of Object Views Using Range Data,
PAMI(19), No. 10, October 1997, pp. 1131-1138.
IEEE DOI Link 9710
BibRef
Earlier:
Optimal Registration of Multiple Range Views,
ICPR94(A:569-571).
IEEE DOI Link Compute the transform to match. BibRef

Dorai, C.[Chitra], Jain, A.K.[Anil K.],
COSMOS: A Representation Scheme for 3D Free-Form Objects,
PAMI(19), No. 10, October 1997, pp. 1115-1130.
IEEE DOI Link 9710
BibRef
Earlier:
Recognition of 3D free-form objects,
ICPR96(I: 697-701).
IEEE DOI Link 9608
BibRef
Earlier:
Cosmos: A Representation Scheme for Free-Form Surfaces,
ICCV95(1024-1029).
IEEE DOI Link And pose estimation. Represent surfaces from range data with a series of patches that capture curvature, etc. Maximal surface patches of constant shape index. Mapped onto the sphere based on orientations. BibRef

Dorai, C., Jain, A.K.,
Shape Spectrum Based View Grouping and Matching of 3D Free-Form Objects,
PAMI(19), No. 10, October 1997, pp. 1139-1145.
IEEE DOI Link 9710
BibRef
Earlier:
Shape spectra based view grouping for free-form objects,
ICIP95(III: 340-343).
IEEE DOI Link 9510
BibRef
Earlier:
View Organization and Matching of Free-Form Objects,
SCV95(25-30).
IEEE Top Reference. Michigan State University. Construct view aspects of free form objects. Database of 3200 views of 10 objects, in a test only about a quarter of the views were examined. BibRef

vanden Wyngaerd, J.[Joris], Van Gool, L.J.[Luc J.],
Automatic Crude Patch Registration: Toward Automatic 3D Model Building,
CVIU(87), No. 1-3, July 2002, pp. 8-26.
WWW Version. 0301
BibRef
And:
Coarse Registration of Surface Patches with Local Symmetries,
ECCV02(II: 572 ff.).
HTML Version. 0205
BibRef
And:
Combining texture and shape for automatic crude patch registration,
3DIM03(179-186).
IEEE Abstract. 0311
Find planar regions and match. BibRef

vanden Wyngaerd, J., Van Gool, L.J., Koch, R., Proesmans, M.,
Invariant-based Registration of Surface Patches,
ICCV99(301-306).
IEEE DOI Link BibRef 9900

Rothganger, F.[Fred], Lazebnik, S.[Svetlana], Schmid, C.[Cordelia], Ponce, J.[Jean],
3D Object Modeling and Recognition Using Local Affine-Invariant Image Descriptors and Multi-View Spatial Constraints,
IJCV(66), No. 3, March 2006, pp. 231-259.
Springer DOI Link
PDF Version. 0604
BibRef
Earlier:
3D Object Modeling and Recognition from Photographs and Image Sequences,
CLOR06(105-126).
Springer DOI Link 0711
BibRef
Earlier:
3D object modeling and recognition using affine-invariant patches and multi-view spatial constraints,
CVPR03(II: 272-277).
IEEE Abstract.
Postscript Version. 0307
Multi-view constraints associated with groups of patches are combined with a normalized representation of their appearance. Thus combine multiple views and recognize from any viewpoint. See also Discriminative Framework for Texture and Object Recognition Using Local Image Features, A. See also Segmenting, Modeling, and Matching Video Clips Containing Multiple Moving Objects. BibRef

Lazebnik, S., Schmid, C., Ponce, J.,
Affine-invariant local descriptors and neighborhood statistics for texture recognition,
ICCV03(649-655).
IEEE DOI Link 0311
BibRef

Ponce, J.[Jean], Rothganger, F.[Frederick], Lazebnik, S.[Svetlana], McHenry, K.[Kenton], Schmid, C.[Cordelia], Mahamud, S.[Shyjan], Hebert, M.[Martial],
3D Photography from Photographs and Video Clips,
CREST03(153-182). 0309
BibRef

Brenner, C.[Claus], Dold, C.[Christoph], Ripperda, N.,
Coarse orientation of terrestrial laser scans in urban environments,
PandRS(63), No. 1, January 2008, pp. 4-18.
WWW Version. 0711
Terrestrial laser scanning; Orientation; Registration; Coarse alignment; Initial values BibRef

Dold, C.[Christoph], Brenner, C.[Claus],
Analysis of Score Functions for the Automatic Registration of Terrestrial Laser Scans,
ISPRS08(B5: 417 ff).
PDF Version. 0807
BibRef
Earlier: A2, A1:
Automatic Relative Orientation of Terrestrial Laser Scans Using Planar Structures and Angle Constraints,
Laser07(84).
PDF Version. 0709
BibRef
Earlier: A1, A2:
Registration of terrestrial laserscanning data using planar patches and image data,
IEVM06(xx-yy).
PDF Version. 0609
BibRef

Dold, C.,
Extended Gaussian images for the registration of terrestrial scan data,
Laser05(xx-yy).
PDF Version. 0509
BibRef

Hinterstoisser, S.[Stefan], Lepetit, V.[Vincent], Benhimane, S.[Selim], Fua, P.[Pascal], Navab, N.[Nassir],
Learning Real-Time Perspective Patch Rectification,
IJCV(91), No. 1, January 2011, pp. 107-130.
WWW Version. 1101
BibRef
Earlier: A1, A3, A5, A4, A2:
Online learning of patch perspective rectification for efficient object detection,
CVPR08(1-8).
IEEE DOI Link 0806
BibRef
And: A1, A3, A2, A4, A5
Simultaneous Recognition and Homography Extraction of Local Patches with a Simple Linear Classifier,
BMVC08(xx-yy).
PDF Version. 0809
BibRef

Hinterstoisser, S.[Stefan], Kutter, O.[Oliver], Navab, N.[Nassir], Fua, P.[Pascal], Lepetit, V.[Vincent],
Real-time learning of accurate patch rectification,
CVPR09(2945-2952).
IEEE DOI Link 0906
BibRef

Bigdelou, A.[Ali], Ladikos, A.[Alexander], Navab, N.[Nassir],
Incremental Visual Hull Reconstruction,
BMVC09(xx-yy).
PDF Version. 0909
BibRef

Ladikos, A.[Alexander], Benhimane, S.[Selim], Navab, N.[Nassir],
Efficient visual hull computation for real-time 3D reconstruction using CUDA,
CVGPU08(1-8).
IEEE DOI Link 0806
BibRef

Drost, B.[Bertram], Ulrich, M.[Markus], Navab, N.[Nassir], Ilic, S.[Slobodan],
Model globally, match locally: Efficient and robust 3D object recognition,
CVPR10(998-1005).
IEEE DOI Link 1006
BibRef

Holzer, S.[Stefan], Hinterstoisser, S.[Stefan], Ilic, S.[Slobodan], Navab, N.[Nassir],
Distance transform templates for object detection and pose estimation,
CVPR09(1177-1184).
IEEE DOI Link 0906
BibRef

Hinterstoisser, S.[Stefan], Benhimane, S.[Selim], Navab, N.[Nassir],
N3M: Natural 3D Markers for Real-Time Object Detection and Pose Estimation,
ICCV07(1-7).
IEEE DOI Link 0710
Learn features that will be stable to use in matching. BibRef

Georgel, P.F.[Pierre Fite], Benhimane, S.[Selim], Sotke, J.[Jurgen], Navab, N.[Nassir],
Recovering the full pose from a single keyframe,
WACV09(1-7).
IEEE DOI Link 0912
See also Estimation of Location Uncertainty for Scale Invariant Features Points. BibRef

Georgel, P.F., Benhimane, S., Navab, N.,
A Unified Approach Combining Photometric and Geometric Information for Pose Estimation,
BMVC08(xx-yy).
PDF Version. 0809
BibRef

Ladikos, A., Benhimane, S., Navab, N.,
Multi-View Reconstruction using Narrow-Band Graph-Cuts and Surface Normal Optimization,
BMVC08(xx-yy).
PDF Version. 0809
BibRef

Petrelli, A.[Alioscia], di Stefano, L.[Luigi],
On the repeatability of the local reference frame for partial shape matching,
ICCV11(2244-2251).
IEEE DOI Link 1201
Local reference frame with 3D descriptors for matching with occlusions. BibRef

Al-Durgham, M.[Mohannad], Detchev, I.[Ivan], Habib, A.[Ayman],
Analysis of Two Triangle-Based Multi-Surface Registration Algorithms of Irregular Point Clouds,
Laser11(xx-yy).
PDF Version. 1109
BibRef

Ramalingam, S.[Srikumar], Taguchi, Y.[Yuichi], Marks, T.K.[Tim K.], Tuzel, O.[Oncel],
P2-pi: A Minimal Solution for Registration of 3D Points to 3D Planes,
ECCV10(V: 436-449).
Springer DOI Link 1009
BibRef

Lee, J.K.[Jae-Kyu], Ahn, S.J.[Seong-Jin], Chung, J.W.[Jin Wook],
Visibility-Based Test Scene Understanding by Real Plane Search,
ISVC08(II: 813-822).
Springer DOI Link 0812
Build planes from line features. BibRef

Hassner, T.[Tal], Basri, R.[Ronen],
Example Based 3D Reconstruction from Single 2D Images,
BP06(15).
IEEE DOI Link 0609
From database, match to patches, use model to predict. BibRef

He, W.F.[Wen-Feng], Ma, W.[Wei], Zha, H.B.[Hong-Bin],
Automatic registration of range images based on correspondence of complete plane patches,
3DIM05(470-475).
IEEE DOI Link 0508
BibRef

Nguyen, V.D., Nzomigni, V., Stewart, C.V.,
Fast and robust registration of 3D surfaces using low curvature patches,
3DIM99(201-208).
IEEE DOI Link 9910
BibRef

York, B.W.[Bryant W.], Hanson, A.R.[Allen R.], and Riseman, E.M.[Edward M.],
3D Object Representation and Matching with B-Splines and Surface Patches,
IJCAI81(648-651). BibRef 8100
Earlier:
A Surface Representation for Computer Vision,
ICPR80(124-129). BibRef

Chapter on Registration, Matching and Recognition Using Points, Lines, Regions, Areas, Surfaces continues in
Surface Registration, Sonar, Ultrasound, Acoustic .

Last update:May 16, 2012 at 20:31:07