11.3.7.1 Surface Interpolation, Surface Reconstction

Chapter Contents (Back)
Surface Interpolation. Surface Reconstruction.

Grimson, W.E.L.[W. Eric L.],
A Computational Theory of Visual Surface Interpolation,
Royal(B-298), 1982, pp. 395-427. BibRef 8200
And: MIT AI Memo-613, June 1981.
See also From Images to Surfaces: A Computational Study of the Human Early Visual System. BibRef

Grimson, W.E.L.[W. Eric L.],
Surface Consistency Constraints in Vision,
CVGIP(24), No. 1, October 1983, pp. 28-51.
Elsevier DOI BibRef 8310

Grimson, W.E.L.[W. Eric L.],
An Implementation of a Computational Theory of Visual Surface Interpolation,
CVGIP(22), No. 1, April 1983, pp. 39-69.
Elsevier DOI The Grimson depth algorithm, how to do the interpolation.
See also Computer Implementation of a Theory of Human Stereo Vision, A. BibRef 8304

Grimson, W.E.L.,
Binocular Shading and Visual Surface Reconstruction,
CVGIP(28), No. 1, October 1984, pp. 19-43.
Elsevier DOI BibRef 8410
And: MIT AI Memo-697, August 1982. BibRef
And:
On the Reconstruction of Visible Surfaces,
IU84(195-223). BibRef

Grimson, W.E.L.[W. Eric L.],
Differential Geometry, Surface Patches and Convergence Methods,
MIT AI Memo-510, February 1979. BibRef 7902

Grimson, W.E.L.[W. Eric L.],
The Implicit Constraints of the Primal Sketch,
MIT AI Memo-663, October 1981. Primal Sketch. BibRef 8110

Brady, M.[Michael], and Horn, B.K.P.[Berthold K.P.],
Rotationally Symmetric Operators for Surface Interpolation,
CVGIP(22), No. 1, April 1983, pp. 70-94.
Elsevier DOI BibRef 8304
Earlier: DARPA82(154-167). BibRef
And: MIT AI Memo-654, November 1981. What are rotationally symmetric operators and how do they work. BibRef

Shirman, L., Sequin, C.,
Local Surface Interpolation with Bezier Patches,
CADG(4), 1987, pp. 279-295. BibRef 8700

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

Yaou, M.H., Chang, W.T.,
Fast Surface Interpolation Using Multiresolution Wavelet Transform,
PAMI(16), No. 7, July 1994, pp. 673-688.
IEEE DOI 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

Carr, J.C., Fright, W.R., Beatson, R.K.,
Surface interpolation with radial basis functions for medical imaging,
MedImg(16), No. 1, February 1997, pp. 96-107.
IEEE Top Reference. 0205
BibRef

Guo, B., Liu, J.,
Direct Visible Surface Interpolation,
CVIU(72), No. 3, December 1998, pp. 328-339.
DOI Link BibRef 9812

Treece, G.M., Prager, R.W., Gee, A.H., Berman, L.H.,
Surface interpolation from sparse cross sections using region correspondence,
MedImg(19), No. 11, November 2000, pp. 1106-1114.
IEEE Top Reference. 0110

See also Engineering a freehand 3D ultrasound system. BibRef

Pedersini, F.[Federico], Sarti, A., Tubaro, S.,
Visible Surface Reconstruction with Accurate Localization of Object Boundaries,
CirSysVideo(10), No. 2, March 2000, pp. 278.
IEEE Top Reference. 0003
BibRef
Earlier:
Combined surface interpolation and object segmentation for automatic 3D scene reconstruction,
ICIP98(II: 963-966).
IEEE DOI 9810
BibRef
Earlier:
Combined Motion and Edge Analysis for a Layer-Based Representation of Image Sequences,
ICIP96(I: 921-924).
IEEE DOI BibRef
Earlier:
Synthesis of virtual views using non-Lambertian reflectivity models and stereo matching,
ICIP95(II: 358-361).
IEEE DOI 9510
BibRef

Solem, J.E.[Jan Erik], Heyden, A.[Anders],
Reconstructing Open Surfaces from Image Data,
IJCV(69), No. 3, September 2006, pp. 267-275.
Springer DOI 0606
BibRef
Earlier:
Reconstructing open surfaces from unorganized data points,
CVPR04(II: 653-660).
IEEE DOI 0408
BibRef

Aanęs, H.[Henrik], Solem, J.E.[Jan Erik],
Overlapping Constraint for Variational Surface Reconstruction,
SCIA05(551-556).
Springer DOI 0506
BibRef

Solem, J.E.[Jan Erik], Aanęs, H.[Henrik], Heyden, A.[Anders],
Variational Surface Interpolation from Sparse Point and Normal Data,
PAMI(29), No. 1, January 2007, pp. 181-184.
IEEE DOI 0701
Formulation to include sparse cues (specularities, contours) with dense matching to generate more accurate and compelet surfaces.
See also PDE Based Shape from Specularities. BibRef

Solem, J.E.[Jan Erik], Kahl, F.[Fredrik], Heyden, A.[Anders],
Visibility Constrained Surface Evolution,
CVPR05(II: 892-899).
IEEE DOI 0507
BibRef

Overgaard, N.C.[Niels C.], Solem, J.E.[Jan Erik],
Separating Rigid Motion for Continuous Shape Evolution,
ELCVIA(6), No. 2, September 2007, pp. 1-8.
DOI Link 0709
BibRef
Earlier: A2, A1:
A Geometric Formulation of Gradient Descent for Variational Problems with Moving Surfaces,
ScaleSpace05(419-430).
Springer DOI 0505
BibRef

Solem, J.E., Kahl, F.,
Surface reconstruction from the projection of points, curves and contours,
3DPVT04(301-307).
IEEE DOI 0412
BibRef

Li, F.[Feng], Zhu, H.H.[Hai-Hong], Luo, Z.W.[Zhen-Wei], Shen, H.[Hang], Li, L.[Lin],
An Adaptive Surface Interpolation Filter Using Cloth Simulation and Relief Amplitude for Airborne Laser Scanning Data,
RS(13), No. 15, 2021, pp. xx-yy.
DOI Link 2108
BibRef


Zhang, L.[Ling], Zhang, C.M.[Cai-Ming], Zhou, Y.F.[Yuan-Feng], Li, X.M.[Xue-Mei],
Surface Interpolation to Image with Edge Preserving,
ICPR14(1055-1060)
IEEE DOI 1412
Image edge detection BibRef

Li, W.T.[Wei-Tao], Zhou, Y.F.[Yuan-Feng], Zhong, L.[Li], Li, X.M.[Xue-Mei], Zhang, C.M.[Cai-Ming],
Surface Construction with Fewer Patches,
ISVC12(II: 716-725).
Springer DOI 1209
BibRef

Hussain, M.Z.[Malik Zawwar], Hussain, M.[Maria],
Convex Surface Interpolation,
GMP08(xx-yy).
Springer DOI 0804
visualization of 3-D data. BibRef

Özkan, C.[Coskun],
Surface Interpolation by Adaptive Neuro-fuzzy Inference System Based Local Ordinary Kriging,
ACCV06(I:196-205).
Springer DOI 0601
BibRef

Boult, T.E., and Lerner, M.,
Energy-Based Segmentation of Very Sparse Range Surfaces,
CRA90(232-237). BibRef 9000
And: DARPA90(565-572). Fit smooth surfaces to points, handle holes, gaps, etc. BibRef

Boult, T.E.[Terrance E.], and Kender, J.R.,
Visual Surface Reconstruction Using Sparse Depth Data,
CVPR86(68-76). BibRef 8600
Earlier:
On Surface Reconstruction Using Sparse Depth Data,
DARPA85(197-208). Survey, Surface Reconstruction. Surface Reconstruction, Survey. General survey of the techniques, the paper discusses the implementation using splines. Gets better when the data is sparse, dense data takes too long. BibRef

Boult, T.E.[Terrance E.],
Visual Surface Interpolation: A Comparison of Two Methods,
DARPA85(466-478). BibRef 8500

Liao, W., Aggarwal, J.K.,
Curve and Surface Interpolation Using Rational Radial Basis Functions,
ICPR96(IV: 8-13).
IEEE DOI 9608
(Univ. of Texas, Austin, USA) BibRef

Burt, P.J.,
Moment Images, Polynomial Fit Filters, and the Problem of Surface Interpolation,
CVPR88(144-152).
IEEE DOI BibRef 8800

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Surfaces, Hierarchical Reconstruction, Multi-Grid Reconstruction Approaches .


Last update:Mar 16, 2024 at 20:36:19