Basri, R.,
Viewer-Centered Representations in Object Recognition:
A Computational Approach,
HPRCV97(Chapter V:4).
(Massachusetts Inst. Tech)
BibRef
9700
Seibert, M.C., and
Waxman, A.M.,
Adaptive 3-D Object Recognition from Multiple Views,
PAMI(14), No. 2, February 1992, pp. 107-124.
IEEE Abstract. IEEE Top Reference.
WWW Version. Given a sequence of views, accumulate the recognition and transformation
parameters. At any time, the highest one is the winner, but it can change
as new views are added. Uses unoccluded objects.
BibRef
9202
Gigus, Z.,
Canny, J., and
Seidel, R.,
Efficiently Computing and Representing Aspect Graphs of
Polyhedral Objects,
PAMI(13), No. 6, June 1991, pp. 542-551.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9106
Earlier:
ICCV88(30-39).
IEEE Abstract. IEEE Top Reference. Partition the viewing space and generate representative views of objects.
BibRef
Laurentini, A.,
Comments on: Efficiently Computing and Representing Aspect Graphs of
Polyhedral Objects,
PAMI(18), No. 1, January 1996, pp. 57-58.
IEEE Abstract. IEEE Top Reference.
WWW Version. See
See also Efficiently Computing and Representing Aspect Graphs of Polyhedral Objects.
BibRef
9601
Reeves, A.P., and
Taylor, R.W.,
Identification of Three-Dimensional Objects Using Range Information,
PAMI(11), No. 4, April 1989, pp. 403-410.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
8904
Earlier:
with
Prokop, R.J.,
Shape Analysis of Three Dimensional Objects Using Range Information,
CVPR85(452-457).
Moments. Cornell Univ.
Synthetic range data. Moment based feature vector classification.
Models for all (icosahedron) view points are computed.
See also Three-Dimensional Shape Analysis Using Moments and Fourier Descriptors.
BibRef
Kriegman, D.J.,
Computing Stable Poses of Piecewise Smooth Objects,
CVGIP(55), No. 2, March 1992, pp. 109-118.
WWW Version.
BibRef
9203
Earlier:
CADBV91(66-75).
Restrict the pose because the object is on a plane. Solve
polynomial equations for surfaces represented as algebraic equations.
BibRef
Kriegman, D.J., and
Ponce, J.,
Computing Exact Aspect Graphs of Curved Objects: Solids of Revolution,
IJCV(5), No. 2, November 1990, pp. 119-135.
BibRef
9011
And:
3DWS89(116-122).
BibRef
Pae, S.I.[Sung-Il],
Ponce, J.[Jean],
Toward a Scale-Space Aspect Graph: Solids of Revolution,
CVPR99(II: 196-201).
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9900
Petitjean, S.,
Ponce, J., and
Kriegman, D.J.,
Computing Exact Aspect Graphs of Curved Objects:
Algebraic Surfaces,
IJCV(9), No. 3, 1992, pp. 231-255.
BibRef
9200
Earlier: A2, A1, A3:
ECCV92(599-614).
WWW Version.
BibRef
And:
Computing Exact Aspect Graphs of Curved Objects: Parametric Patches,
AAAI-90(1074-1079).
BibRef
And:
UIUCDCS-R-90-1579, University of Illinois, 1990.
BibRef
Petitjean, S.,
The Enumerative Geometry of Projective Algebraic-Surfaces and the
Complexity of Aspect Graphs,
IJCV(19), No. 3, August 1996, pp. 261-287.
BibRef
9608
Earlier:
On the Enumerative Geometry of Aspect Graphs,
ECCV94(A:421-426).
WWW Version. Exact results for the degrees of visual event surfaces with piecewise-smooth
algebraic objects.
BibRef
Petitjean, S.[Sylvain],
Algebraic Geometry and Computer Vision:
Polynomial Systems, Real and Complex Roots,
JMIV(10), No. 3, May 1999, pp. 191-220.
WWW Version.
BibRef
9905
Earlier:
Algebraic Geometry and Object Representation in Computer Vision,
ORCV94(155-165).
WWW Version.
9412
BibRef
Petitjean, S.[Sylvain],
Geometrie enumerative et contacts de varietes lineares:
Application aux graphes d'aspects objets courbes,
Ph.D.Thesis, Institut National Polytechnique de Lorraine, 1995.
BibRef
9500
Plantinga, H., and
Dyer, C.R.,
The Asp: A Continuous Viewer-Centered Representation
for 3D Object Recognition,
ICCV87(626-630).
BibRef
8700
Plantinga, H., and
Dyer, C.R.,
Visibility, Occlusion, and the Aspect Graph,
IJCV(5), No. 2, November 1990, pp. 137-160.
BibRef
9011
And: TR 736, CSD,
Univ. of WisconsinDecember 1987.
Contrast this with Ikeuchi's approach.
BibRef
Korn, M.R., and
Dyer, C.R.,
3-D Multiview Object Representations for Model-Based Object Recognition,
PR(20), No. 1, 1987, pp. 91-103.
WWW Version.
BibRef
8700
Rieger, J.H.,
Rohr, K.,
Semi-Algebraic Solids in 3-Space: A Survey of Modeling Schemes
and Implications for View Graphs,
IVC(12), No. 7, September 1994, pp. 395-410.
WWW Version.
Survey, 3D.
BibRef
9409
Rieger, J.H.,
The Geometry of View Space of Opaque Objects Bounded by Smooth Surfaces,
AI(44), No. 1-2, July 1990, pp. 1-40.
WWW Version. This discusses how to compute the viewspace of objects.
BibRef
9007
Rieger, J.H.,
Global Bifurcation Sets and Stable Projections of
Nonsingular Algebraic Sets,
IJCV(7), No. 3, April 1992, pp. 171-194.
More on the generation of viewgraphs.
BibRef
9204
Rieger, J.H.,
On the Complexity and Computation of View Graphs of Piecewise-Smooth
Algebraic Surfaces,
TRFBI-HH-M-228/93, Universitat Hamburg, 1993.
BibRef
9300
Wiskott, L.,
von der Malsburg, C.,
A Neural System for the Recognition of Partially Occluded
Objects in Cluttered Scenes: A Pilot Study,
PRAI(7), 1993, pp. 935-948.
BibRef
9300
Yuan, X.B.,
Lu, S.W.,
Resolving View Sensitivity With Surface Locality,
PR(29), No. 9, September 1996, pp. 1485-1493.
WWW Version.
Topological Structure.
Geometric Uncertainty.
Disambiguating Features.
Range Images.
BibRef
9609
Yuan, X.B.,
Lu, S.W.,
Feature Mapping and View Planning with Localized Surface Parameters,
JMIV(7), No. 2, March 1997, pp. 163-174.
WWW Version.
9705
BibRef
Malik, R.[Raashid], and
Whangbo, T.[Taegkeun],
Angle Densities and Recognition of 3D Objects,
PAMI(19), No. 1, January 1997, pp. 52-57.
IEEE Abstract. IEEE Top Reference.
WWW Version.
9702
BibRef
Earlier:
Using Angle Densities for 3-D Recognition,
SPIE(2354), October 1994, pp. 308-319.
You cannot use uniform distributions of view in a view sphere.
BibRef
Malik, R.[Raashid],
Polyhedral Object Recognition Using View Density,
SMC-C91(I:111-116).
BibRef
9100
Whangbo, T.[Taegkeun],
3-D Object Recognition Using Angle View Densities,
Ph.D.Thesis, EECS, Stevens Institute, May 1995.
BibRef
9505
Weinshall, D.,
Werman, M.,
On View Likelihood and Stability,
PAMI(19), No. 2, February 1997, pp. 97-108.
IEEE Abstract. IEEE Top Reference.
WWW Version.
9703How likely is a view to occur (i.e. a typical or characteristic view),
and how little the image changes with small viewpoint changes are the same.
Choose the most likely among all feasible solutions.
BibRef
Weinshall, D.,
Werman, M.,
Tishby, N.,
Stability and Likelihood of Views of Three Dimensional Objects,
ECCV94(A:24-35).
WWW Version.
BibRef
9400
Gdalyahu, Y.[Yoram],
Weinshall, D.[Daphna], and
Werman, M.[Michael],
Canonical Views, or the Stability and Likelihood of Images
of 3D Objects,
ARPA94(II:967-971).
BibRef
9400
Weinshall, D.[Daphna], and
Werman, M.[Michael],
A Computational Theory of Canonical Views,
ARPA96(1001-1006).
BibRef
9600
Weinshall, D.[Daphna],
Werman, M.,
Disambiguation Techniques for Recognition in Large Databases
and for Under-Constrained Reconstruction,
SCV95(425-430).
IEEE Top Reference. The Hebrew University of Jerusalem.
uses 4 kinds of matching, points, angles, cooluding countous, and shaded
images of surfaces.
BibRef
9500
Shimshoni, I.[Ilan],
Ponce, J.[Jean],
Finite-Resolution Aspect Graphs Of Polyhedral Objects,
PAMI(19), No. 4, April 1997, pp. 315-327.
IEEE Abstract. IEEE Top Reference.
WWW Version.
9705
BibRef
Earlier:
WQV93(140-150).
Computing the aspect graph of a polyhedral object using an orthographic camera
with limited spatial resolution. This combines some different views under
normal projection and results in accidental views in a finite area of space.
See also Probabilistic 3D Object Recognition.
BibRef
Zhou, G.Q.,
Primitive Recognition Using Aspect-Interpretation Model-Matching in
Both CAD-Based and LP-Based Measurement Systems,
PandRS(52), No. 2, April 1997, pp. 74-84.
9705
BibRef
To, F.W.,
Tsang, K.M.,
Recognition of Partially Occluded Objects Using an Orthogonal Complex
AR Model Approach,
PRAI(13), No. 1, February 1999, pp. 85.
BibRef
9902
Nölle, M.[Michael],
Distribution Distance Measures Applied to 3-D Object Recognition:
A Case Study,
DAGM03(84-91).
HTML Version.
0310dissimilarity measures for probability distributions.
view-based object recognition.
BibRef
Fitzgibbon, A.W.,
Fisher, R.B.,
Practical Aspect-Graph Derivation Incorporating
Feature Segmentation Performance,
BMVC92(580-589).
viewsphere, geometric modelling
Postscript Version.
BibRef
9200
Edinburgh
BibRef
Fisher, R.B.,
Reducing Viewsphere Complexity,
ECAI90(274-276).
aspect graphs
BibRef
9000
Edinburgh
BibRef
Verri, A.,
Uras, C.,
Aspect-Based Object Recognition with Size Functions,
ICPR96(I: 682-686).
WWW Version.
9608(Univ. di Genova, I)
BibRef
Dunker, J.,
Hartmann, G.,
Stoehr, M.,
Single View Recognition and Pose Estimation of 3D Objects Using Sets
of Prototypical Views and Spatially Tolerant Contour Representations,
ICPR96(IV: 14-18).
WWW Version.
9608(Univ. of Paderborn, D)
BibRef
Herbin, S.[Stephane],
Recognizing 3D Objects by Generating Random Actions,
CVPR96(35-40).
IEEE Abstract. IEEE Top Reference.
WWW Version.
Active Vision. Simulated.
BibRef
9600
Burns, J.B., and
Riseman, E.M.,
Matching Complex Images to
Multiple 3D Objects Using View Description Networks,
CVPR92(328-334).
IEEE Abstract. IEEE Top Reference.
BibRef
9200
And:
DARPA92(675-682).
Almost an aspect graph type of match, but not quite.
BibRef
Burns, J.B.[J. Brian],
Matching 2D Images to Multiple 3D Objects Using
View Description Networks,
UMassTR-92-17, February 1992.
BibRef
9202
Ph.D.Thesis, CS.
BibRef
Burns, J.B.[J. Brian], and
Kitchen, L.J.[Leslie J.],
Recognition in 2D Images of 3D Objects from Large Model Bases
Using Prediction Hierarchies,
IJCAI87(763-766).
BibRef
8700
And:
Rapid Object Recognition From a Large Model Base Using
Prediction Hierarchies,
DARPA88(711-719).
BibRef
Munkelt, O.,
Zierl, C.,
Fast 3-D Object Recognition Using Feature Based Aspect-Trees,
ICPR94(A:854-857).
WWW Version. Find the best matching aspect using features computed from the 2D image.
BibRef
9400
Lanser, S.[Stefan],
Munkelt, O.[Olaf],
Zierl, C.[Christoph],
Robust Video-Based Object Recognition Using CAD Models,
IAS95(529-536).
BibRef
9500
Matsuo, H.,
Iwata, A.,
3-D Object Recognition Using MEGI Model from Range Data,
ICPR94(A:843-846).
WWW Version.
BibRef
9400
Matsuo, H.,
Funabashi, J.,
Iwata, A.,
3-D Object Recognition Using Adaptive Scale MEGI,
ICPR96(IV: 117-122).
WWW Version.
9608(Nagoya Institute of Technology, J)
BibRef
Bellaire, G.,
Schlüns, K.[Karsten],
Mitritz, A.,
Gwinner, K.,
Adaptive matching using object modes generated from photometric stereo
images,
CIAP95(293-298).
WWW Version.
9509Surface Normal Images
BibRef
Schutte, K.,
Boersema, G.,
Hypothesizing a 3-D Scene from a Segmented Aerial Image,
O3DMT93(452-459).
BibRef
9300
Tropf, H., and
Walter, I.,
An ATN Model for 3D Recognition of Solids in Single Views,
IJCAI83(1094-1098). (Karlsruhe)
Recognize Three-Dimensional Objects. (Aspect graphs - no.) Uses the
ATN model to build a program for object recognition.
BibRef
8300
Tropf, H.,
Analysis-by-Synthesis Search for Semantic Segmentation Applied to
Workpiece Recognition,
ICPR80(241-244).
BibRef
8000
Sripradisvarakul, T.[Thawach], and
Jain, R.[Ramesh],
Generating Aspect Graphs for Curved Objects,
3DWS89(109-115).
BibRef
8900
Watts, N.A.,
Calculating the Principal Views of a Polyhedron,
ICPR88(I: 316-322).
WWW Version.
IEEE Top Reference.
BibRef
8800
And:
Univ. of RochesterTR 234, 1987.
BibRef
Chapter on Matching and Recognition Using Volumes, High Level Vision Techniques, Invariants continues in
Aspect Graph Matching -- Bowyer .