11.12 Representations from Spheres

Badler, N.I., O'Rourke, J., and Toltzis, H.,
A Spherical Representation of a Human Body for Visualizing Movement,
PIEEE(67), 1979, pp. 1397-1403. BibRef 7900

O'Rourke, J., and Badler, N.I.,
Decomposition of Three-Dimensional Objects into Spheres,
PAMI(1), No. 3, July 1979, pp. 295-305. BibRef 7907
And: Correction: PAMI(1), No. 4, October 1979, pp. 417. BibRef
Earlier: A2, A1: PRAI-78(157-159). BibRef

Badler, N.I., and Bajcsy, R.,
3D Representation for Computer Graphics and Computer Vision,
Computer Graphics(12), 1978, pp. 153-160. BibRef 7800

Mohr, R.,
A Refinement of a Spherical Decomposition Algorithm,
PAMI(4), No. 1, January 1982, pp. 51. BibRef 8201

Mohr, R., and Bajcsy, R.,
Packing Volumes by Spheres,
PAMI(5), No. 1, January 1983, pp. 111-116. BibRef 8301

Knapman, J.,
Dupin's Cyclide and the Cyclide Patch,
IVC(5), No. 2, May 1987, pp. 167-173.
WWW Version. Implicit surfaces. The Dupin Cyclides can be looked at in various ways. They are the envelope of spheres touching three other fixed spheres. They are also the envelope of spheres with centres on a conic and touching a sphere. Every Dupin Cyclide is the inverse of a Torus. BibRef 8705

Hebert, M., Ikeuchi, K., Delingette, H.,
A Spherical Representation for Recognition of Free-Form Surfaces,
PAMI(17), No. 7, July 1995, pp. 681-690.
IEEE Abstract. IEEE Top Reference.
WWW Version. Generate descriptions from range images. Recognition using similarity of shperical distributions (no search). Generate a mesh description, transform to a shperical form (Spherical Attribut Image -- SAI). BibRef 9507

Delingette, H., and Ikeuchi, K.,
A Spherical Representation for the Recognition of Curved Objects,
ICCV93(103-112).
WWW Version. BibRef 9300
And: DARPA93(831-838). BibRef
And:
Representation and Recognition of Free-Form Surfaces,
CMU-CS-TR-92-214, CMU CS Dept., November 1992. Functional Minimization. The initial shape is deformed until it fits. Then describe a mapping between the mesh and the spherical mesh BibRef

Kumar, M.A., Chatterji, B.N., Mukherjee, J., and Das, P.P.,
Representation of 2D and 3D Binary Images Using Medial Circles and Spheres,
PRAI(10), 1996, pp. 365-387. BibRef 9600

Matej, S., Lewitt, R.M.,
Practical considerations for 3-D image reconstruction using spherically symmetric volume elements,
MedImg(15), No. 1, February 1996, pp. 68-78.
IEEE Top Reference. 0203 BibRef

Borgefors, G., Nystrom, I.,
Efficient Shape Representation by Minimizing the Set of Centers of Maximal Discs/Spheres,
PRL(18), No. 5, May 1997, pp. 465-471. 9708 BibRef

Weistrand, O.[Ola],
Parameterizations of digital surfaces homeomorphic to a sphere using discrete harmonic functions,
PRL(27), No. 16, December 2006, pp. 1934-1941.
WWW Version. 0611Shape; Shape approximation; Digital surface; Surface parameterization BibRef

Baxansky, A.[Artemy], Kiryati, N.[Nahum],
Calculating geometric properties of three-dimensional objects from the spherical harmonic representation,
PR(40), No. 2, February 2007, pp. 756-770.
WWW Version. 0611Spherical harmonics; Three-dimensional shape analysis; Star shaped objects; Moments; Fourier series on spheres BibRef

Rivera-Rovelo, J.[Jorge], Bayro-Corrochano, E.[Eduardo],
Medical image segmentation, volume representation and registration using spheres in the geometric algebra framework,
PR(40), No. 1, January 2007, pp. 171-188.
WWW Version. 0611 BibRef
Earlier:
Non-Rigid Alignment and Real-Time Tracking Using the Geometric Algebra Framework,
ICPR06(IV: 675-678).
WWW Version. 0609 BibRef
Earlier:
Segmentation and Volume Representation Based on Spheres for Non-rigid Registration,
CVBIA05(449-458).
WWW Version. 0601Image segmentation; Volumetric data representation; Marching cubes; Non-rigid registration; Delaunay tetrahedrization; Conformal geometric algebra BibRef

Penna, M.A.[Michael A.], Dines, K.A.[Kris A.],
A Simple Method for Fitting Sphere-Like Surfaces,
PAMI(29), No. 9, September 2007, pp. 1673-1678.
WWW Version. 0709Fit spheres to sparse, scattered, data points. BibRef

Spillmann, J.[Jonas], Becker, M.[Markus], Teschner, M.[Matthias],
Efficient updates of bounding sphere hierarchies for geometrically deformable models,
JVCIR(18), No. 2, April 2007, pp. 101-108.
WWW Version. 0711Physically-based modeling; Collision detection; Point-based models; Shape matching; Deformable objects BibRef

Wijewickrema, S.N.R.[Sudanthi N.R.], Paplinski, A.P.[Andrew P.], Esson, C.E.[Charles E.],
Reconstruction of Spheres using Occluding Contours from Stereo Images,
ICPR06(I: 151-154).
WWW Version. 0609 BibRef

Donoser, M.[Michael], Bischof, H.[Horst],
3D Segmentation by Maximally Stable Volumes (MSVs),
ICPR06(I: 63-66).
WWW Version. 0609 BibRef

Strand, R.[Robin],
A Classification of Centres of Maximal Balls in Z3,
SCIA05(1057-1065).
WWW Version. 0506 BibRef

Adan, M., Adan, A., Cerrada, C., Merchan, P., Salamanca, S.,
Weighted cone-curvature: Applications for 3D shapes similarity,
3DIM03(458-465).
IEEE Abstract. IEEE Top Reference. 0311 BibRef

Bischoff, S., Kobbelt, L.,
Ellipsoid decomposition of 3D-models,
3DPVT02(480-488).
WWW Version. 0206 BibRef

Salamanca, S.[Santiago], Cerrada, C.[Carlos], Adán, A.[Antonio],
HWM: a New Spherical Representation Structure for Modeling Partial Views of an Object,
ICPR00(Vol III: 770-773).
WWW Version.
HTML Version. 0009 BibRef

Adan, A., Salamanca, S., Cerrada, C., Merchan, P.,
Reconstruction of spherical representation models from multiple partial models,
3DPVT02(532-535).
WWW Version. 0206 BibRef

Ahn, J.H.[Jeong-Hwan], Ho, Y.S.[Yo-Sung],
An Efficient Geometry Compression Method for 3D Objects in the Spherical Coordinate System,
ICIP99(II:482-486).
IEEE Abstract. IEEE Top Reference. BibRef 9900

Fekete, G., Davis, L.S.,
Property Spheres: A New Representation for 3-D Object Recognition,
CVWS84(192-201). BibRef 8400

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Other Description Techniques .