11.3.4 Reconstruction, Hierarchical, Multi-Grid Approaches

Szeliski, R.S.,
Fast Surface Interpolation Using Hierarchical Basis Functions,
PAMI(12), No. 6, June 1990, pp. 513-528.
IEEE Abstract. IEEE Top Reference.
WWW Version. BibRef 9006
Earlier: CVPR89(222-228).
IEEE Abstract. IEEE Top Reference. Thin plate with discontinuities interpolation method using hierarchical basis conjugate gradient. See: See also Physically-Based Adaptive Preconditioning for Early Vision. BibRef

Weiss, I.,
Shape Reconstruction on a Varying Mesh,
PAMI(12), No. 4, April 1990, pp. 345-362.
IEEE Abstract. IEEE Top Reference.
WWW Version. BibRef 9004
Earlier: DARPA87(749-765). Proposes a general theory for any implementation. No real data in final paper. BibRef

Jones, G.A., Princen, J.P., Illingworth, J., and Kittler, J.V.,
Robust estimation of shape parameters,
BMVC90(xx-yy).
PDF Version. 9009
BibRef

Jones, G.A., Princen, J.P., Illingworth, J., and Kittler, J.V.,
Depth Data Segmentation Using Robust Estimation in a Hierarchical Data Structure,
VF91(313-321). Algorithm to fit surfaces to depth data. BibRef 9100

Yaou, M.H., Chang, W.T.,
Fast Surface Interpolation Using Multiresolution Wavelet Transform,
PAMI(16), No. 7, July 1994, pp. 673-688.
IEEE Abstract. IEEE Top Reference.
WWW Version. Biorthogonal wavelet basis used for preconditioning. See also: See also Physically-Based Adaptive Preconditioning for Early Vision. BibRef 9407

Hsieh, H.C., Chang, W.T.,
Analog Computation Structure for Surface Reconstruction,
JVCIR(2), 1991, pp. 381-394. BibRef 9100

Das, S.[Subhodev], Ahuja, N.,
Active Surface Estimation: Integrating Coarse-to-Fine Image Acquisition and Estimation from Multiple Cues,
AI(83), No. 2, June 1996, pp. 241-266.
WWW Version. 9607
BibRef
Earlier:
Multiresolution Image Acquisition and Surface Reconstruction,
ICCV90(485-488).
IEEE DOI Link BibRef
And:
Integrated Multiresolution Image Acquisition and Surface Reconstruction from Active Stereo,
DARPA90(418-422). BibRef
Earlier:
Integrating Multiresolution Image Acquisition and Coarse-to-Fine Surface Reconstruction from Stereo,
3DWS89(9-15). See also Performance Analysis of Stereo, Vergence, and Focus as Depth Cues for Active Vision. BibRef

Johnson, T., and Livadas, P.E.,
A Parallel Algorithm for Surface-Based Object Reconstruction,
JMIV(4), 1994, pp. 389-400. BibRef 9400

Voigtmann, A., Becker, L., Hinrichs, K.,
Hierarchical Model for Multiresolution Surface Reconstruction,
GMIP(59), No. 5, September 1997, pp. 333-348. 9712
BibRef

Fieguth, P.W.[Paul W.], Karl, W.C.[William C.], Willsky, A.S.[Alan S.],
Efficient Multiresolution Counterparts to Variational Methods for Surface Reconstruction,
CVIU(70), No. 2, May 1998, pp. 157-176.
WWW Version. BibRef 9805

Fieguth, P.W.[Paul W.], Karl, W.C.[William C.], Willsky, A.S.[Alan S.], Wunsch, C.I.,
Multiresolution Optimal Interpolation and Statistical Analysis of Topex/Poseidon Satellite Altimetry,
GeoRS(33), No. 2, March 1995, pp. 280-292.
IEEE Top Reference. BibRef 9503

Fieguth, P.W.[Paul W.], Willsky, A.S.[Alan S.], Karl, W.C.[William C.],
Multiresolution stochastic imaging of satellite oceanographic altimetric data,
ICIP94(II: 1-5).
IEEE DOI Link 9411
BibRef

Rasche, V., Proksa, R., Sinkus, R., Bornert, P., Eggers, H.,
Resampling of data between arbitrary grids using convolution interpolation,
MedImg(18), No. 5, May 1999, pp. 385-392.
IEEE Top Reference. 0110
BibRef

Boyer, K.L.[Kim L.], Srikantiah, R.[Ravi], Flynn, P.J.[Patrick J.],
Saliency Sequential Surface Organization for Free-Form Object Recognition,
CVIU(88), No. 3, December 2002, pp. 152-188.
WWW Version. 0301
BibRef
Earlier:
Multiscale surface organization and description for free form object recognition,
ICPR02(III: 569-572).
IEEE DOI Link 0211
BibRef

Yu, Y.K.[Ying Kin], Wong, K.H.[Kin Hong], Chang, M.M.Y.[Michael Ming Yuen],
Recursive Three-Dimensional Model Reconstruction Based on Kalman Filtering,
SMC-B(35), No. 3, June 2005, pp. 587-592.
IEEE DOI Link 0508
BibRef

Yu, Y.K.[Ying Kin], Wong, K.H.[Kin Hong], Hang, S.[Siu], Chang, M.M.Y.[Michael Ming Yuen],
Recursive Recovery of Position and Orientation from Stereo Image Sequences without Three-Dimensional Structures,
CVPR06(I: 1274).
IEEE DOI Link 0606
BibRef

Paris, S.[Sylvain], Sillion, F.X.[François X.], Quan, L.[Long],
A Surface Reconstruction Method Using Global Graph Cut Optimization,
IJCV(66), No. 2, Feburary 2006, pp. 141-161.
Springer DOI Link 0604
BibRef
Earlier:
A Volumetric Reconstruction Method from Multiple Calibrated Views using Global Graph Cut Optimization,
INRIARR-4843, 2003.
HTML Version. BibRef

Zeng, G.[Gang], Paris, S.[Sylvain], Quan, L.[Long], Sillion, F.X.[François X.],
Accurate and Scalable Surface Representation and Reconstruction from Images,
PAMI(29), No. 1, January 2007, pp. 141-158.
IEEE DOI Link 0701
BibRef
Earlier: CSAIL-2005-076, November 2005.
WWW Version. BibRef
Earlier:
Progressive Surface Reconstruction from Images Using a Local Prior,
ICCV05(II: 1230-1237).
IEEE DOI Link 0510
BibRef
Earlier:
Robust carving for non-Lambertian objects,
ICPR04(III: 119-122).
IEEE DOI Link 0409
See also Quasi-Dense Approach to Surface Reconstruction from Uncalibrated Images, A. BibRef

Unnikrishnan, R.[Ranjith],
Statistical Approaches to Multi-Scale Point Cloud Processing,
CMU-RI-TR-08-15, May, 2008. BibRef 0805 Ph.D.Thesis, May, 2008..
WWW Version. BibRef

Liu, X.X.[Xiao-Xiao], Jeong, J.Y.[Ja-Yeon], Levy, J.H.[Joshua H.], Saboo, R.R.[Rohit R.], Chaney, E.L.[Edward L.], Pizer, S.M.[Stephen M.],
A large-to-fine-scale shape prior for probabilistic segmentations using a deformable m-rep,
MMBIA08(1-8).
IEEE DOI Link 0806
BibRef

Lee, B.G.[Byung-Gook], Lee, J.J.[Joon Jae], Yoo, J.[Jaechil],
An efficient scattered data approximation using multilevel B-splines based on quasi-interpolants,
3DIM05(110-117).
IEEE DOI Link 0508
Hierarchical surface generation with spline models. BibRef

Scheibe, K.[Karsten], Suppa, M.[Michael], Hirschmüller, H.[Heiko], Strackenbrock, B.[Bernhard], Huang, F.[Fay], Liu, R.[Rui], Hirzinger, G.[Gerd],
Multi-scale 3D-Modeling,
PSIVT06(96-107).
Springer DOI Link 0612
BibRef

Tran, S.[Son], Davis, L.S.[Larry S.],
3D Surface Reconstruction Using Graph Cuts with Surface Constraints,
ECCV06(II: 219-231).
Springer DOI Link 0608
BibRef

He, M.Y.[Ming-Yi], Xiong, B.S.[Bang-Shu], Yu, H.J.[Hua-Jing],
Multi-resolution surface reconstruction,
ICIP04(III: 1971-1974).
IEEE DOI Link 0505
BibRef

Strauss, E., Jiménez, W., Giraldi, G.A., Silva, R., Oliveira, A.A.F.,
A Surface Reconstruction Approach Based on Multi-resolution Methods and the T-Surfaces Framework,
WSCG02(POS-65).
WWW Version.
HTML Version. 0209
BibRef

Zhang, L.,
Image-Based Multiresolution Modeling by Surface Deformation,
CMU-RI-TR-00-07, March, 2000.
PDF Version. 0102
BibRef

Maeda, M.[Makoto], Kumamaru, K.[Kousuke], Zha, H.B.[Hong-Bin], Inoue, K.[Katsuhiro],
Surface Recovery by Using Regularization Theory and Its Application to Multiresolution Analysis,
ICPR98(Vol I: 19-23).
IEEE DOI Link 9808
BibRef

Miller, J.T., Li, C.C.,
Segmentation of object surfaces using the Haar wavelet at multiple resolutions,
ICIP94(III: 475-477).
IEEE DOI Link 9411
BibRef

Choi, D.J., Kender, J.R.,
Solving the Depth Interpolation Problem on a Parallel Architecture with a Multigrid Approach,
CVPR88(189-194).
IEEE Abstract. IEEE Top Reference. BibRef 8800

Cochran, S.D., Medioni, M.,
Implementation of a Multiresolution Surface Reconstruction Algorithm,
USC_ISG108, 1985. BibRef 8500

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Spline Based Models, B-Splines .