11.3.5 Spline Based Models, B-Splines

Bookstein, F.L.,
Principal Warps: Thin-Plate Splines and the Decomposition of Deformations,
PAMI(11), No. 6, June 1989, pp. 567-585.
IEEE Abstract. IEEE Top Reference.
WWW Version. Eigen Snakes. How to interpolate surfaces over sparse data. And use for recognition. BibRef 8906

Barsky, B.A., Greenberg, D.P.,
Determining a Set of B-Spline Control Vertices to Generate an Interpolating Surface,
CGIP(14), No. 3, November 1980, pp. 203-226.
WWW Version. BibRef 8011

Harada, K., Nakamae, E.,
An Isotropic Four-Point Interpolation Based on Cubic Splines,
CGIP(20), No. 3, November 1982, pp. 283-287.
WWW Version. BibRef 8211

Tan, S.T., Chan, K.C.,
Bi-Quadratic B-Spline Surfaces Generated from Arbitrary Polyhedral Meshes: A Constructive Approach,
CVGIP(39), No. 2, August 1987, pp. 144-166.
WWW Version. BibRef 8708

Cheng, F., Goshtasby, A.,
A Parallel B-Spline Surface Fitting Algorithm,
TOG(8), 1989, pp. 41-50. BibRef 8900

Sinha, S.S., and Schunck, B.G.,
A Two-Stage Algorithm for Discontinuity-Preserving Surface Reconstruction,
PAMI(14), No. 1, January 1992, pp. 36-55.
IEEE Abstract. IEEE Top Reference.
WWW Version. BibRef 9201
Earlier:
Surface Approximation Using Weighted Splines,
CVPR91(44-49).
IEEE Abstract. IEEE Top Reference. BibRef
And:
Discontinuity Preserving Surface Reconstruction,
CVPR89(229-234).
IEEE Abstract. IEEE Top Reference. BibRef
And:
A Robust Method for Surface Reconstruction,
Robust90(xx). Robust Technique. Functional Minimization. Adds a weighted bicubic spline with regularization that adapts across discontinuities. BibRef

Sinha, S.S.[Saravajit S.],
Differential Properties from Adaptive Thin-Plate Splines,
SPIE(1570), 1991, pp. 64-74. BibRef 9100

Sullivan, S.[Steve], and Ponce, J.[Jean],
Automatic Model Construction and Pose Estimation from Photographs Using Triangular Splines,
PAMI(20), No. 10, October 1998, pp. 1091-1097.
IEEE Abstract. IEEE Top Reference.
WWW Version. Pose Estimation. BibRef 9810
Earlier:
Automatic Model Construction, Pose Estimation, and Object Recognition from Photographs using Triangular Splines,
ICCV98(510-516).
IEEE DOI may work or IEEE-CS DOI may work.
WWW Version. Spline object models. Combine silhouettes from registered images. Likewise, estimate the pose given the model and one image. BibRef

Cohen, F.S.[Fernand S.], Ibrahim, W.[Walid], Pintavirooj, C.[Chuchart],
Ordering and Parameterizing Scattered 3D Data for B-Spline Surface Approximation,
PAMI(22), No. 6, June 2000, pp. 642-648.
IEEE Abstract. IEEE Top Reference.
WWW Version. 0008 BibRef

Gallo, G.[Giovanni], Spagnuolo, M.[Michela], Spinello, S.[Salvatore],
Fuzzy B-Splines: A Surface Model Encapsulating Uncertainty,
GM(62), No. 1, January 2000, pp. 40-55. 0003 BibRef

Gu, Y.H.[Yu-Hua], Tjahjadi, T.[Tardi],
Coarse-to-fine planar object identification using invariant curve features and B-spline modeling,
PR(33), No. 9, September 2000, pp. 1411-1422.
WWW Version. 0005 BibRef

Turner, M.[Mick], Hancock, E.R.[Edwin R.],
A Bayesian framework for 3D surface estimation,
PR(34), No. 4, April 2001, pp. 903-922.
WWW Version. 0101 BibRef
Earlier:
Surface Reconstruction with an EM-Like Relaxation Operator,
ICPR96(II: 166-170).
IEEE DOI may work or IEEE-CS DOI may work. 9608 BibRef
Earlier:
Bayesian extraction of differential surface structure,
CAIP95(784-789).
WWW Version. 9509 BibRef
And:
A Bayesian Approach to 3D Surface Fitting and Refinement,
BMVC95(xx-yy).
PDF Version. 9509(Univ. of York, UK) BibRef

Sengupta, K.[Kuntal], Burman, P.[Prabir], Gupta, S.[Sumit],
Least Committed Splines in 3D Modelling of Free Form Objects from Intensity Images,
JMIV(17), No. 2, September 2002, pp. 175-186.
WWW Version. 0211 BibRef

Xiao, Y.J.[Yi Jun], Li, Y.F.,
Optimized stereo reconstruction of free-form space curves based on a nonuniform rational B-spline model,
JOSA-A(22), No. 9, September 2005, pp. 1746-1762.
WWW Version. 0601 BibRef

Soldea, O., Elber, G., Rivlin, E.,
Global Segmentation and Curvature Analysis of Volumetric Data Sets Using Trivariate B-Spline Functions,
PAMI(28), No. 2, February 2006, pp. 265-278.
IEEE DOI may work or IEEE-CS DOI may work. 0601 BibRef

Bouma, H.[Henri], Vilanova, A.[Anna], Bescós, J.O.[Javier Oliván], ter Haar Romeny, B.M.[Bart M.], Gerritsen, F.A.[Frans A.],
Fast and Accurate Gaussian Derivatives Based on B-Splines,
SSVM07(406-417).
WWW Version. 0705 BibRef

Bartoli, A.E.[Adrien E.], Perriollat, M.[Mathieu], Chambon, S.[Sylvie],
Generalized Thin-Plate Spline Warps,
CVPR07(1-8).
IEEE DOI may work or IEEE-CS DOI may work. 0706 BibRef

Myles, A.[Ashish], Peters, J.[Jorg],
Fast Safe Spline Surrogates for Large Point Clouds,
3DPVT06(631-638).
IEEE DOI may work or IEEE-CS DOI may work. 0606 BibRef

Zandifar, A., Lim, S.N.[Ser-Nam], Duraiswami, R.[Ramani], Gumerov, N.A., Davis, L.S.,
Multi-level fast multipole method for thin plate spline evaluation,
ICIP04(III: 1683-1686).
IEEE DOI may work or IEEE-CS DOI may work. 0505 BibRef

Siddiqui, M., Sclaroff, S.,
Surface reconstruction from multiple views using rational B-splines and knot insertion,
3DPVT02(372-378).
IEEE DOI may work or IEEE-CS DOI may work. 0206 BibRef

Isidoro, J., Sclaroff, S.,
Stochastic mesh-based multiview reconstruction,
3DPVT02(568-577).
IEEE DOI may work or IEEE-CS DOI may work. 0206 BibRef

Maeda, M.[Makoto], Kumamaru, K., Inoue, K.,
Shapes Modeling of 3-D Objects Based on A Hybrid Representation Using Extended B-Spline Model,
ICPR02(I: 656-659).
IEEE DOI may work or IEEE-CS DOI may work. 0211 BibRef

Donato, G.[Gianluca], Belongie, S.[Serge],
Approximate Thin Plate Spline Mappings,
ECCV02(III: 21 ff.).
HTML Version. 0205 BibRef

Drapikowski, P., Nowakowski, T.,
3D object modelling in mobile robot environment using B-spline surfaces,
3DPVT02(676-679).
IEEE DOI may work or IEEE-CS DOI may work. 0206 BibRef

Maeda, M., Kumamaru, K., Inoue, K., Zha, H.,
3-D Shapes Modeling Which Has Hierarchical Structure Based on B-spline Surfaces with Non-uniform Knots,
ICPR00(Vol III: 115-118).
IEEE DOI may work or IEEE-CS DOI may work. 0009 BibRef

Douros, I., Dekker, L., Buxton, B.F.,
An Improved Algorithm for Reconstruction of the Surface of the Human Body from 3D Scanner Data using Local B-spline Patches,
MPeople99(xx-yy). BibRef 9900

Dekker, L., Douros, I., Buxton, B.F., Treleaven, P.,
Building symbolic information for 3D human body modeling from range data,
3DIM99(388-397).
IEEE DOI may work or IEEE-CS DOI may work. 9910 BibRef

Shen, X., Spann, M.,
3D Shape Modelling through a Constrained Estimation of a Bicubic B-spline Surface,
BMVC98(xx-yy). BibRef 9800

Shen, X., and Spann, M.,
3D Shape Modelling Using a Multi-Scale Surface Model,
ICIP97(II: 478-481).
IEEE DOI may work or IEEE-CS DOI may work. BibRef 9700

Chao, J.H.[Jin-Hui], Ura, K.[Kouichi], Honma, G.[Go],
Generation of 3D objects Using Lie Algebra models Based on Curvature Analysis and Comparison with B-spline Fitting,
ICIP99(IV:366-370).
IEEE Abstract. IEEE Top Reference. BibRef 9900

Stoddart, A.J., Baker, M.[Matthew],
Surface Reconstruction and Compression Using Multiresolution Arbitrary Topology G1 Continuous Splines,
ICPR98(Vol I: 788-791).
IEEE DOI may work or IEEE-CS DOI may work. 9808 BibRef

Stoddart, A.J., Baker, M.,
Reconstruction of Smooth Surfaces with Arbitrary Topology Adaptive Splines,
ECCV98(II: 241).
WWW Version. BibRef 9800

Han, S.[Song], Medioni, G.[Gerard],
Edge-Aligning Surface Fitting Using Triangular B-Splines,
DARPA97(943-950). BibRef 9700

Han, S., Medioni, G.,
Reconstructing Free-Form Surfaces from Sparse Data,
ICPR96(I: 100-104).
IEEE DOI may work or IEEE-CS DOI may work. 9608(Univ. of Southern Calif., USA) BibRef

Han, S.[Song], Medioni, G.[Gerard],
Spherical Winged B-snakes,
ICIP96(II: 389-392).
IEEE DOI may work or IEEE-CS DOI may work. BibRef 9600

Han, S., Medioni, G.,
Deformable Surface Reconstruction Coupled with Discontinuity Edge Detection,
ARPA96(1027-1032). BibRef 9600

Lou, M., Cheng, K.H.,
Calculation Method of Surface Representation Using B-Spline Mask,
ICPR88(I: 300-302).
IEEE DOI may work or IEEE-CS DOI may work.
IEEE Top Reference. BibRef 8800

Zhao, C.S., Mohr, R.[Roger], Quan, L.[Long],
Global Surface Reconstruction Through Regularized B-Spline Patches,
SPIE(2031), 1993, pp. 134-145. BibRef 9300

Zhao, C.S., Mohr, R.,
Relative 3D Regularized B-Spline Surface Reconstruction Through Image Sequences,
ECCV94(B:417-426).
WWW Version. BibRef 9400

Naik, S.M., and Jain, R.C.,
Spline-Based Surface Fitting on Range Images for CAD Applications,
CVPR88(249-253).
IEEE Abstract. IEEE Top Reference. Given the surface, fit a spline to it. BibRef 8800

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Reconstructions, Applied to Stereo Imagery .