Marr, D., and
Nishihara, H.K.,
Representation and Recognition of the Spatial Organization
of Three-Dimensional Shapes,
RoyalP(B-200), 1978, pp. 269-294.
Primal Sketch.
BibRef
7800
Earlier:
MIT AI Memo-377, August 1976.
BibRef
And:
Representation and Recognition of Three-Dimensional Shapes,
MIT AI Memo-416, 1977.
Descriptions, Generalized Cylinders.
Recognition. Hierarchical description method is proposed.
BibRef
Marr, D., and
Nishihara, H.K.,
Spatial Disposition of Axes in a Generalized Cylinder Representation
of Objects that Do Not Encompass the Viewer,
MIT AI Memo-341, December 1975.
BibRef
7512
Shafer, S.A.[Steven A.], and
Kanade, T.[Takeo],
The Theory of Straight Homogeneous Generalized Cylinders,
DARPA83(210-218).
BibRef
8300
And:
The Theory of Straight Homogeneous Generalized Cylinders and
a Taxonomy of Generalized Cylinders,
CMU-CS-TR-83-105, January 1983.
All you ever wanted to know about them.
BibRef
Brady, M.,
Criteria for Representation of Shapes,
HMV83(39-84).
BibRef
8300
Brady, M.,
Finding the Axis of an Egg,
IJCAI79(85-97).
BibRef
7900
Rao, K.G.[Kashipati G.],
Medioni, G.,
Generalized Cones: Useful Geometric Properties,
CVIP92(185-208).
BibRef
9200
Rao, K.G.[Kashipati G.], and
Medioni, G.G.,
Useful Geometric Properties of the Generalized Cone,
CVPR88(276-281).
IEEE Abstract. IEEE Top Reference. More on the description.
BibRef
8800
Zerroug, M., and
Nevatia, R.,
Three-Dimensional Descriptions Based on the Analysis of the Invariant and
Quasi-Invariant Properties of Some Curved-Axis Generalized Cylinders,
PAMI(18), No. 3, March 1996, pp. 237-253.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9603
USC Computer Vision
PDF Version.
BibRef
Earlier:
Quasi-Invariant Properties and 3-D Shape Recovery of
Non-Straight, Non-Constant Generalized Cylinders,
CVPR93(96-103).
IEEE Abstract. IEEE Top Reference.
BibRef
And:
DARPA93(725-735).
Generalized Cylinder Generation. Various projective properties of generalized cylinders.
PRCGCs and Cricular PRGCs.
Followed by a system that actually extracts them.
See also Shape From Contour: Straight Homogeneous Generalized Cylinders and Constant Cross-Section Generalized Cylinders.
BibRef
Ponce, J.,
Chelberg, D.M.[David M.], and
Mann, W.B.[Wallace B.],
Invariant Properties of Straight Homogeneous
Generalized Cylinders and Their Contours,
PAMI(11), No. 9, September 1989, pp. 951-966.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
8909
Earlier:
Invariant Properties of the
Projections of Straight Homogeneous Generalized Cylinders,
ICCV87(631-635).
BibRef
Earlier:
Analytical Properties Of Generalized Cylinders And Their Projections,
DARPA87(340-350).
A rigorous study of GC and their properties.
BibRef
Ponce, J.,
Straight Homogeneous Generalized Cylinders:
Differential Geometry and Uniqueness Results,
IJCV(4), No. 1. January 1990, pp. 79-106.
BibRef
9001
Earlier:
CVPR88(327-334).
IEEE Abstract. IEEE Top Reference.
BibRef
And:
DARPA88(1064-1073).
More theory.
BibRef
Ponce, J.[Jean], and
Healey, G.[Glenn],
Using Generic Geometric and Physical Models For Representing Solids,
DARPA88(488-503).
BibRef
8800
Soroka, B.I.,
Generalized Cones from Serial Sections,
CGIP(15), No. 2, February 1981, pp. 154-166.
BibRef
8102
Earlier:
Generalized Cylinders from Parallel Slices,
PRIP79(421-426).
BibRef
Soroka, B.I.,
Understanding Objects from Slices,
Ph.D.Computer Science, 1979.
BibRef
7900
UPenn
BibRef
Soroka, B.I.[Barry I.],
Andersson, R.L.[Russell L.],
Bajcsy, R.K.[Ruzena K.],
Generalised cylinders from local aggregation of sections,
PR(13), No. 5, 1981, pp. 353-363.
WWW Version.
0309
BibRef
Soroka, B.I., and
Bajcsy, R.K.,
Generalized Cylinders from Serial Sections,
ICPR76(734-735).
BibRef
7600
Soroka, B.I., and
Bajcsy, R.K.,
A Program for Describing Complex Three-Dimensional Objects Using
Generalized Cylinders as Primitives,
PRIP78(331-339).
BibRef
7800
And:
Steps Toward the Representation of Complex Three-Dimensional Objects,
IJCAI77(596).
Introduced the concept of slices for the descriptions.
BibRef
Roberts, K.[Kenneth],
Equivalent Descriptions of Generalized Cylinders,
CVPR85(402-404).
BibRef
8500
And:
DARPA85(506-508). (Columbia U.)
Discussion of one part of Shafer's theory and description method.
BibRef
Grape, G.R.[Gunnar Rutger],
Model based (Intermediate-Level) Computer Vision,
Ph.D.Thesis (CS), May, 1973.
BibRef
7305
Stanford AI-Memo 201,
and
BibRef
STAN-CS-73-366.
Graphics representations (generalized cones) for complex
objects. Not the projections to generate the description.
BibRef
Shani, U., and
Ballard, D.H.,
Splines as Embeddings for Generalized Cylinders,
CVGIP(27), No. 2, August 1984, pp. 129-156.
A more precise non digital representation of cylinders. Nothing shocking.
BibRef
8408
Piegl, L.,
Infinite Control Points:
A Method for Representing Surfaces of Revolution Using Boundary Data,
IEEE_CGA(7), No. 3, 1987, pp. 45-55.
BibRef
8700
Coquillart, S.,
A Control-Point-Based Sweeping Technique,
IEEE_CGA(7), No. 11, 1987, pp. 36-45.
BibRef
8700
Weld, J.D.,
Leu, M.C.,
Geometric Representation of Swept Volumes with Application to
Polyhedral Objects,
IJRR(9), No. 5, 1990, pp. 105-117.
BibRef
9000
Blackmore, D.,
Leu, M.C.,
Analysis of Swept Volumes via Lie Groups and Differential Equations,
IJRR(11), 1992, pp. 516-537.
BibRef
9200
Kvien, K.,
Shift of the Shadow Boundary in Images of Circular-Cylinders,
OptComm(141), No. 3-4, September 1 1997, pp. 107-112.
9708
BibRef
Pan, X.[Xiang],
Lane, D.M.[David M.],
Representation and recovery of 3D curved objects using generalized
cylinders and the extended Gaussian image,
PRL(20), No. 7, July 1999, pp. 675-687.
BibRef
9907
Yushkevich, P.[Paul],
Fletcher, P.T.[P. Thomas],
Joshi, S.[Sarang],
Thall, A.[Andrew],
Pizer, S.M.[Stephen M.],
Continuous medial representations for geometric object modeling in 2D
and 3D,
IVC(21), No. 1, January 2003, pp. 17-27.
WWW Version.
0301
BibRef
Cao, L.L.[Liang-Liang],
Liu, J.Z.[Jian-Zhuang],
Tang, X.[Xiaoou],
Degen Generalized Cylinders and Their Properties,
ECCV06(I: 83-94).
WWW Version.
0608
BibRef
Sun, X.N.[Xue-Nan],
Liang, X.Z.[Xue-Zhang],
Dong, Z.L.[Zai-Li],
Tian, X.J.[Xiao-Jun],
Analysis and improvement of Marr's algorithm for image reconstruction,
ICARCV04(I: 80-84).
WWW Version.
0412Function on circular domain -- cylinders.
BibRef
Sato, Y.,
Ohya, J., and
Ishii, K.,
Smoothed Local Generalized Cones: An Axial Representation of 3D Shapes,
CVPR92(56-62).
IEEE Abstract. IEEE Top Reference.
BibRef
9200
Ponce, J.,
Chelberg, D.,
Kriegman, D.J.,
Mann, W.,
Geometric Modelling with Generalized Cylinders,
CVWS87(268-270).
BibRef
8700
Naeve, A., and
Eklundh, J.O.,
Generalized Cylinders: What Are They?,
AVFP94
BibRef
9400
And:
ISRN KTH/NA/P-94/15-SE.
BibRef
Chien, R.T., and
Chang, Y.H.,
Recognition of Curved Objects and Object Assemblies,
ICPR74(496-510).
BibRef
7400
Miyamoto, E.,
Binford, T.O.,
Display Generated by a Generalized Cone Representation,
CGPR75(385-387).
BibRef
7500
Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Generalized Cylinders -- Generation .