4.3.2.3 Morphology for Range and 3-D data

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Three-Dimensional Data.

Pitas, I., Maglara, A.,
Range Image Analysis by Using Morphological Signal Decomposition,
PR(24), No. 2, 1991, pp. 165-181.
Elsevier DOI BibRef 9100

Preston, Jr., K.[Kendall],
Three-Dimensional Mathematical Morphology,
IVC(9), No. 5, October 1991, pp. 285-295.
Elsevier DOI BibRef 9110
Earlier:
Fundamentals of three-dimensional mathematical morphology,
ICPR90(II: 422-425).
IEEE DOI 9208
3D and computer architectures to help. BibRef

Bhattacharya, P.[Prabir], Qian, K.[Kai], Lu, X.[Xun],
An Algebraic Approach for Morphological Operations on 2D and 3D Images,
PR(26), No. 12, December 1993, pp. 1785-1796.
Elsevier DOI algebraic approach, with FFT for convolutions. BibRef 9312

Verly, J.G., Delanoy, R.L.,
Adaptive Mathematical Morphology for Range Imagery,
IP(2), No. 2, April 1993, pp. 272-275.
IEEE DOI BibRef 9304
And: Correction: IP(2), No. 4, 1993, pp. 550-551.
IEEE Top Reference. BibRef

Aktouf, Z.[Zouina], Bertrand, G.[Gilles], Perroton, L.[Laurent],
A three-dimensional holes closing algorithm,
PRL(23), No. 5, March 2002, pp. 523-531.
Elsevier DOI 0202
BibRef

Luengo-Oroz, M.A., Pastor-Escuredo, D., Castro-Gonzalez, C., Faure, E., Savy, T., Lombardot, B., Rubio-Guivernau, J.L., Duloquin, L., Ledesma-Carbayo, M.J., Bourgine, P., Peyrieras, N., Santos, A.,
3D+t Morphological Processing: Applications to Embryogenesis Image Analysis,
IP(21), No. 8, August 2012, pp. 3518-3530.
IEEE DOI 1208
BibRef

Balado, J.[Jesús], van Oosterom, P.[Peter], Díaz-Vilariño, L.[Lucía], Meijers, M.[Martijn],
Mathematical morphology directly applied to point cloud data,
PandRS(168), 2020, pp. 208-220.
Elsevier DOI 2009
LiDAR, Point cloud processing, Image processing, Detection, Segmentation, Occlusion correction BibRef


Crozet, S.[Sebastien], Geraud, T.[Thierry],
A first parallel algorithm to compute the morphological tree of shapes of nD images,
ICIP14(2933-2937)
IEEE DOI 1502
Image segmentation BibRef

Carlinet, E.[Edwin], Geraud, T.[Thierry],
Getting a morphological tree of shapes for multivariate images: Paths, traps, and pitfalls,
ICIP14(615-619)
IEEE DOI 1502
Brightness BibRef

Ohn, S.Y.[Syng-Yup],
Decomposition of 3D Convex Structuring Element in Morphological Operation for Parallel Processing Architectures,
ICIAR05(676-685).
Springer DOI 0509
BibRef
And:
Neighborhood Decomposition of 3D Convex Structuring Elements for Morphological Operations,
CAIP05(644).
Springer DOI 0509
BibRef

Ohn, S.Y.[Syng-Yup], Wong, E.K.,
Morphological decomposition of convex polytopes and its application in discrete image space,
ICIP94(II: 560-564).
IEEE DOI 9411
BibRef

Rodriguez, J., Ayala, D.,
Erosion and Dilation on 2-D and 3-D Digital Images: A New Size-Independent Approach,
VMV01(xx-yy).
PDF File. 0209
BibRef

Betelu, S.[Santiago], Sapiro, G.[Guillermo], Tannenbaum, A.[Allen],
Affine Invariant Erosion of 3D Shapes,
ICCV01(II: 174-180).
IEEE DOI 0106
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Shock Filters .


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