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Survey, Mesh Compression. 3D mesh compression; Single-rate mesh coding; Progressive mesh coding; MPEG-4
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0508
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0905
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Earlier:
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3D mesh; Dynamic mesh coding; Animation coding; DPCM; Spatial
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See also Efficient Prediction Structures for Multiview Video Coding.
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0610
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0602
BibRef
Earlier:
Surface model generation from range images of industrial environments,
3DPVT04(868-871).
IEEE DOI
0412
BibRef
Earlier:
Geometric and Topological Lossy Compression of Dense Range Images,
ICIP00(Vol II: 423-426).
IEEE DOI
0008
BibRef
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JVCIR(18), No. 4, August 2007, pp. 341-353.
Elsevier DOI
0711
Mesh geometry compression; Entropy constrained vector quantization;
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1003
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3D dynamic meshes; Data compression; Computer animation
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SIViP(2), No. 3, September 2008, pp. xx-yy.
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0804
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0905
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MIRAGE07(389-399).
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0703
BibRef
Earlier:
3-D Dynamic Mesh Compression using Wavelet-Based Multiresolution
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ICIP06(529-532).
IEEE DOI
0610
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PR(43), No. 1, January 2010, pp. 267-279.
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0909
3D mesh; Compression; Segmentation; Principle plane analysis; k-means
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JVCIR(20), No. 7, October 2009, pp. 439-449.
Elsevier DOI
0909
3-D mesh coding; Scalable coding; Rate-distortion optimization;
Singular value decomposition; SNR scalability; Temporal scalability;
Bit plane coding; Mesh sequence
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Ahmad, S.,
Hamzaoui, R.,
Al-Akaidi, M.,
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MultMed(11), No. 7, November 2009, pp. 1381-1387.
IEEE DOI
0911
BibRef
Abdallah, E.E.[Emad E.],
Ben Hamza, A.[Abdessamad],
Bhattacharya, P.[Prabir],
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SIViP(3), No. 4, December 2009, pp. xx-yy.
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0911
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Guan, W.,
Cai, J.,
Zhang, J.,
Zheng, J.,
Progressive Coding and Illumination and View Dependent Transmission of
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CirSysVideo(20), No. 4, April 2010, pp. 575-586.
IEEE DOI
1003
BibRef
Denis, L.[Leon],
Satti, S.M.[Shahid M.],
Munteanu, A.[Adrian],
Cornelis, J.P.H.[Jan P.H.],
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MultMed(12), No. 8, 2010, pp. 773-789.
IEEE DOI
1011
BibRef
Earlier:
Context-conditioned composite coding of 3D meshes based on wavelets on
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ICIP09(3509-3512).
IEEE DOI
0911
BibRef
Florea, R.,
Munteanu, A.[Adrian],
Lu, S.P.,
Schelkens, P.[Peter],
Wavelet-Based L_infty Semi-regular Mesh Coding,
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1702
codecs
BibRef
Satti, S.M.[Shahid M.],
Denis, L.[Leon],
Munteanu, A.[Adrian],
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Schelkens, P.[Peter],
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ACIVS10(I: 267-278).
Springer DOI
1012
BibRef
Bici, M.O.[M. Oguz],
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Multiple description coding of animated meshes,
SP:IC(25), No. 10, November 2010, pp. 729-744.
Elsevier DOI
1101
BibRef
Earlier:
Distributed 3D dynamic mesh coding,
ICIP08(2432-2435).
IEEE DOI
0810
BibRef
Earlier:
Multiple Description Scalar Quantization Based 3D Mesh Coding,
ICIP06(553-556).
IEEE DOI
0610
Multiple description coding; Animated meshes; 3D dynamic meshes; Time
consistent mesh sequence; Subsampling; Scalable coding
BibRef
Bici, M.O.[M. Oguz],
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Elsevier DOI
1109
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And:
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ICIP10(3413-3416).
IEEE DOI
1009
Compression; Animated meshes; 3D dynamic meshes; Time consistent mesh
sequence; Predictive coding; Weighted prediction; Animated mesh
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Bici, M.O.[M. Oguz],
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Vertex partitioning based Multiple Description Coding of 3D dynamic
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3DTV09(1-4).
IEEE DOI
0905
BibRef
Bici, M.O.[M. Oguz],
Norkin, A.[Andrey],
Akar, G.B.[Gozde Bozdagi],
Gotchev, A.[Atanas],
Astola, J.T.[Jaakko T.],
Multiple Description Coding of 3D Geometry with Forward Error Correction
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3DTV07(1-4).
IEEE DOI
0705
BibRef
Courbet, C.[Clement],
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Streaming compression of hexahedral meshes,
VC(26), No. 6-8, June 2010, pp. 1113-1122.
WWW Link.
1101
BibRef
Ahn, J.K.[Jae-Kyun],
Lee, D.Y.[Dae-Youn],
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R-D optimized progressive compression of 3D meshes using prioritized
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VC(27), No. 6-8, June 2011, pp. 769-779.
WWW Link.
1107
BibRef
Lee, D.Y.[Dae-Youn],
Ahn, J.K.[Jae-Kyun],
Ahn, M.[Minsu],
Kim, J.D.K.[James Do Kyoon],
Kim, C.Y.[Chang-Yeong],
Kim, C.S.[Chang-Su],
3D mesh compression based on dual-ring prediction and MMSE prediction,
ICIP11(905-908).
IEEE DOI
1201
BibRef
Earlier: A2, A1, A3, A4, A5, A6:
Progressive compression of 3D triangular meshes using topology-based
Karhunen-Ločve transform,
ICIP10(3417-3420).
IEEE DOI
1009
BibRef
Lee, H.[Ho],
Dikici, Ç.[Çagatay],
Lavoué, G.[Guillaume],
Dupont, F.[Florent],
Joint reversible watermarking and progressive compression of 3D meshes,
VC(27), No. 6-8, June 2011, pp. 781-792.
WWW Link.
1107
BibRef
Lee, H.[Ho],
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Rate-distortion optimization for progressive compression of 3D mesh
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VC(27), No. 2, February 2011, pp. 137-153.
WWW Link.
1203
BibRef
Tung, T.[Tony],
Matsuyama, T.[Takashi],
Topology Dictionary for 3D Video Understanding,
PAMI(34), No. 8, August 2012, pp. 1645-1657.
IEEE DOI
1206
BibRef
Earlier:
3D video performance segmentation,
ICIP10(25-28).
IEEE DOI
1009
BibRef
Earlier:
Topology dictionary with Markov model for 3D video content-based
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CVPR09(469-476).
IEEE DOI
0906
3D video understanding.
BibRef
Tung, T.[Tony],
Matsuyama, T.[Takashi],
Invariant shape descriptor for 3D video encoding,
VC(31), No. 3, March 2015, pp. 311-324.
WWW Link.
1503
BibRef
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Segment-Wise Coherent Mesh Series,
3DV14(633-640)
IEEE DOI
1503
Histograms
BibRef
Tung, T.[Tony],
Schmitt, F.[Francis],
Matsuyama, T.[Takashi],
Topology matching for 3D video compression,
CVPR07(1-8).
IEEE DOI
0706
Each frame is 3-D mesh.
BibRef
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Morán, F.[Francisco],
Manjunatha, S.[Shankar],
Objective and subjective evaluation of static 3D mesh compression,
SP:IC(28), No. 2, February 2013, pp. 181-195.
Elsevier DOI
1302
3D mesh compression; Surface distance; Texture compression; Objective
error; Subjective error
BibRef
Ahn, J.K.,
Koh, Y.J.,
Kim, C.S.,
Efficient Fine-Granular Scalable Coding of 3D Mesh Sequences,
MultMed(15), No. 3, 2013, pp. 485-497.
IEEE DOI
1303
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Triangle mesh compression along the Hamiltonian cycle,
VC(29), No. 6-8, June 2013, pp. 717-727.
WWW Link.
1306
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VC(30), No. 10, October 2014, pp. 1077-1091.
WWW Link.
1410
BibRef
Doumanoglou, A.,
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Toward Real-Time and Efficient Compression of Human Time-Varying
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CirSysVideo(24), No. 12, December 2014, pp. 2099-2116.
IEEE DOI
1412
data compression for MPEG-4 application.
BibRef
Chaieb, F.[Faten],
Sebai, D.[Dorsaf],
Ghorbel, F.[Faouzi],
Tuned depth signal analysis on merged transform domain for view
synthesis in free viewpoint systems,
IET-IPR(9), No. 3, 2015, pp. 192-201.
DOI Link
1504
BibRef
And: A2, A1, A3:
Progressive edge-preserving depth maps coding based on sparse
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3DTV12(1-4).
IEEE DOI
1212
discrete cosine transforms
BibRef
Sebai, D.[Dorsaf],
Chaieb, F.[Faten],
Ghorbel, F.[Faouzi],
Edge-aware wedgelet estimation for depth maps compression,
ELCVIA(15), No. 1, 2016, pp. 14-26.
DOI Link
1605
BibRef
Sebai, D.[Dorsaf],
Chaieb, F.[Faten],
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ICIP12(1309-1312).
IEEE DOI
1302
BibRef
Mamou, K.[Khaled],
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Ghorbel, F.[Faouzi],
Multi-resolution 3D Mesh Coding in MPEG,
VCIP11(1-4).
IEEE DOI
1201
BibRef
Earlier:
Shape approximation for efficient progressive mesh compression,
ICIP10(3425-3428).
IEEE DOI
1009
BibRef
Toueti, M.,
Zaid, A.O.,
Intraband Wavelet-based coding of arbitrary triangular meshes,
VCIP14(315-318)
IEEE DOI
1504
image coding
BibRef
Maglo, A.[Adrien],
Lavoué, G.[Guillaume],
Dupont, F.[Florent],
Hudelot, C.[Céline],
3D Mesh Compression: Survey, Comparisons, and Emerging Trends,
Surveys(47), No. 3, April 2015, pp. Article No 44.
DOI Link
1506
Survey, Mesh Compression. 3D meshes are commonly used to represent virtual surface and volumes.
However, their raw data representations take a large amount of space.
Hence, 3D mesh compression has been an active research topic since the
mid 1990s.
BibRef
Hwang, S.S.,
Kim, W.,
Yoo, J.,
Kim, S.D.,
Visual Hull-Based Geometric Data Compression of a 3-D Object,
CirSysVideo(25), No. 7, July 2015, pp. 1151-1160.
IEEE DOI
1507
Cameras
BibRef
Bayazit, U.[Ulug],
Alper, M.E.[Muzaffer E.],
View-dependent 3-D mesh coding by rate allocation with the image
rendering-based distortion measures,
SIViP(10), No. 5, May 2016, pp. 877-885.
WWW Link.
1608
BibRef
Lalos, A.S.,
Nikolas, I.,
Vlachos, E.,
Moustakas, K.,
Compressed Sensing for Efficient Encoding of Dense 3D Meshes Using
Model-Based Bayesian Learning,
MultMed(19), No. 1, January 2017, pp. 41-53.
IEEE DOI
1612
Computational modeling
BibRef
Krivokuca, M.[Maja],
Abdulla, W.H.[Waleed Habib],
Wünsche, B.C.[Burkhard Claus],
Progressive Compression of 3D Mesh Geometry Using Sparse Approximations
from Redundant Frame Dictionaries,
ETRI(39), No. 1, February 2017, pp. 1-12.
DOI Link
1702
BibRef
Earlier:
Sparse Approximations of 3D Mesh Geometry Using Frames as
Overcomplete Dictionaries,
BD3DCV13(660-667)
IEEE DOI
1403
computational geometry
BibRef
Lalos, A.S.[Aris S.],
Vasilakis, A.A.[Andreas A.],
Dimas, A.[Anastasios],
Moustakas, K.[Konstantinos],
Adaptive compression of animated meshes by exploiting orthogonal
iterations,
VC(33), No. 6-8, June 2017, pp. 811-821.
Springer DOI
1706
BibRef
Shen, Q.Q.[Qi-Qi],
Sheng, Y.[Yun],
Chen, C.K.[Cong-Kun],
Zhang, G.X.[Gui-Xu],
Ugail, H.[Hassan],
A PDE patch-based spectral method for progressive mesh compression andm
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1810
BibRef
Khalil, J.E.[J. El_Sayeh],
Munteanu, A.,
Lambert, P.,
Scalable Wavelet-Based Coding of Irregular Meshes With Interactive
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CirSysVideo(29), No. 7, July 2019, pp. 2067-2081.
IEEE DOI
1907
Encoding, Wavelet transforms, Decoding, Memory management, Codecs,
Scalability, Irregular mesh coding, region-of-interest coding,
random access
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Chen, C.J.[Cheng-Ju],
Xia, Q.[Qing],
Li, S.[Shuai],
Qin, H.[Hong],
Hao, A.[Aimin],
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Vidal, V.[Vincent],
Dubouchet, L.[Lucas],
Lavoué, G.[Guillaume],
Alliez, P.[Pierre],
Progressive Compression of Triangle Meshes,
IPOL(13), 2023, pp. 1-21.
DOI Link
2301
Code, Mesh Compression.
See also Compressed progressive meshes.
BibRef
Nishimura, H.[Hitoshi],
Kato, H.[Haruhisa],
Kawamura, K.[Kei],
Hierarchical Arithmetic Coding of Displacements for Dynamic Mesh
Compression,
ICIP23(2850-2854)
IEEE DOI
2312
BibRef
Khalil, J.E.[J. El_Sayeh],
Munteanu, A.,
Lambert, P.,
3D Mesh coding with predefined region-of-interest,
ICIP17(1422-1426)
IEEE DOI
1803
Codecs, Decoding, Encoding, Geometry, Image coding, Wavelet transforms,
Region-of-Interest, irregular mesh coding,
wavelet-based coding
BibRef
Peyrot, J.L.,
Duval, L.,
Schneider, S.,
Payan, F.,
Antonini, M.,
(H)exaShrink: Multiresolution compression of large structured
hexahedral meshes with discontinuities in geosciences,
ICIP16(1101-1105)
IEEE DOI
1610
Geology
BibRef
Lincoln, L.,
Gonzalez, R.,
Plane-Tree Low-Bitrate Mesh Compression,
DICTA15(1-5)
IEEE DOI
1603
computer graphics
BibRef
Mendes, C.M.[Caroline Mazetto],
Apaza-Aguero, K.[Karl],
Silva, L.[Luciano],
Bellon, O.R.P.[Olga R.P.],
Data-driven progressive compression of colored 3D mesh,
ICIP15(2490-2494)
IEEE DOI
1512
Cubic Cell Complexes; Progressive Compression; Texture Mapping
BibRef
Schiopu, I.,
Saarinen, J.P.,
Tabus, Z.,
Lossy-to-lossless progressive coding of depth-map images using
competing constant and planar models,
IC3D15(1-7)
IEEE DOI
1603
BibRef
Earlier: A1, A3, Only:
Parametrizations of planar models for region-merging based lossy
depth-map compression,
3DTV-CON15(1-4)
IEEE DOI
1508
image coding.
Computational modeling
BibRef
Kouno, S.[Shingo],
Amano, M.[Masayuki],
Kawanaka, A.[Akira],
Compression of 3-D Polygon Mesh Geometry Data by Wavelets with
Structuring Surrounding Vertices Remeshing,
ISVC14(I: 569-578).
Springer DOI
1501
BibRef
EL-Leithy, S.[Shymaa],
Self-organizing maps based 3D normal mesh compression,
WSSIP14(143-146)
1406
Neurons
BibRef
Biagi, L.,
Brovelli, M.,
Zamboni, G.,
A New Multi-Resolution Algorithm To Store and Transmit Compressed DTM,
ISPRS12(XXXIX-B4:7-12).
DOI Link
1209
BibRef
Tejera, M.[Margara],
Hilton, A.[Adrian],
Compression Techniques for 3D Video Mesh Sequences,
AMDO12(12-25).
Springer DOI
1208
BibRef
Carnero, J.[Javier],
Molina-Abril, H.[Helena],
Real, P.[Pedro],
Triangle Mesh Compression and Homological Spanning Forests,
CTIC12(108-116).
Springer DOI
1206
BibRef
Sanchez, D.F.[David Fuentes],
Scasso, R.P.[Rafael Pages],
Burgos, F.M.[Francisco Moran],
Multi-resolution texture coding for multi-resolution 3D meshes,
VCIP11(1-4).
IEEE DOI
1201
BibRef
Zhang, L.[Lei],
Ji, X.Y.[Xiang-Yang],
Dai, Q.H.[Qiong-Hai],
Zhang, N.[Naiyao],
Cascaded quantization based progressive 3D mesh compression,
3DTV11(1-4).
IEEE DOI
1105
BibRef
Petrík, O.[Oldrich],
Váa, L.[Libor],
Finding Optimal Parameter Configuration for a Dynamic Triangle Mesh
Compressor,
AMDO10(31-42).
Springer DOI
1007
BibRef
Rus, J.[Jan],
Váa, L.[Libor],
Analysing the Influence of Vertex Clustering on PCA-Based Dynamic Mesh
Compression,
AMDO10(55-66).
Springer DOI
1007
BibRef
Nakagawa, S.[Suguru],
Yamasaki, T.[Toshihiko],
Aizawa, K.[Kiyoharu],
Deformation-based data reduction of Time-Varying Meshes for displaying
on mobile terminals,
3DTV10(1-4).
IEEE DOI
1006
BibRef
Sarkis, M.[Michel],
Zia, W.[Waqar],
Diepold, K.[Klaus],
Fast Depth Map Compression and Meshing with Compressed Tritree,
ACCV09(II: 44-55).
Springer DOI
0909
BibRef
Mamou, K.[Khaled],
Zaharia, T.[Titus],
Preteux, F.[Francoise],
A Triangle-Fan-based approach for low complexity 3D mesh compression,
ICIP09(3513-3516).
IEEE DOI
0911
BibRef
Demir, B.[Begum],
Erturk, S.[Sarp],
Urhan, O.[Oguzhan],
Improved quality multiple description 3D mesh coding with optimal
filtering,
ICIP09(3541-3544).
IEEE DOI
0911
BibRef
Aviles, M.[Marcos],
Moran, F.[Francisco],
Static 3D triangle mesh compression overview,
ICIP08(2684-2687).
IEEE DOI
0810
BibRef
Stefanoski, N.[Nikolce],
Ostermann, J.[Jorn],
Spatially and temporally scalable compression of animated 3D meshes
with MPEG-4 / FAMC,
ICIP08(2696-2699).
IEEE DOI
0810
BibRef
Mamou, K.,
Zaharia, T.,
Preteux, F.,
FAMC: The MPEG-4 standard for Animated Mesh Compression,
ICIP08(2676-2679).
IEEE DOI
0810
BibRef
Marpe, D.[Detlev],
Kirchhoffer, H.[Heiner],
Muller, K.[Karsten],
Wiegand, T.[Thomas],
Efficient representation and coding of prediction residuals and
parameters in frame-based animated mesh compression,
ICIP08(2680-2683).
IEEE DOI
0810
BibRef
Kammoun, A.[Aymen],
Payan, F.[Frederic],
Antonini, M.[Marc],
Optimized Butterfly-based lifting scheme for semi-regular meshes,
ICIP11(1269-1272).
IEEE DOI
1201
BibRef
Mamou, K.,
Zaharia, T.,
Preteux, F.,
Kamoun, A.,
Payan, F.,
Antonini, M.,
Two optimizations of the MPEG-4 FAMC standard for enhanced compression
of animated 3D meshes,
ICIP08(1764-1767).
IEEE DOI
0810
BibRef
Mamou, K.,
Stefanoski, N.,
Kirchhoffer, H.[Heiner],
Muller, K.,
Zaharia, T.,
Preteux, F.,
Marpe, D.[Detlev],
Ostermann, J.,
The New MPEG-4/FAMC Standard for Animated 3D Mesh Compression,
3DTV08(97-100).
IEEE DOI
0805
BibRef
Stefanoski, N.[Nikolce],
Ostermann, J.[Joern],
Vasa, L.[Libor],
Compression of 3D Meshes: Applications, Approaches, Standards,
3DTV08(11-14).
IEEE DOI
0805
BibRef
Park, T.J.[Tae-Jung],
Lee, H.Y.[Hae-Young],
Kim, C.H.[Chang-Hun],
Progressive Compression of Geometry Information with Smooth
Intermediate Meshes,
IbPRIA07(II: 89-96).
Springer DOI
0706
BibRef
Kose, K.[Kivanc],
Cetin, A.E.[A. Enis],
Gudukbay, U.[Ugur],
Onural, L.[Levent],
Connectivity-Guided Adaptive Lifting Transform for Image Like
Compression of Meshes,
3DTV07(1-4).
IEEE DOI
0705
BibRef
Park, S.B.[Sung-Bum],
Kim, C.S.[Chang-Su],
Lee, S.U.[Sang-Uk],
Multiple Description Coding of Plane-Based 3-D Surfaces,
ICIP07(V: 97-100).
IEEE DOI
0709
BibRef
Earlier:
Error resilient coding of 3-D meshes,
ICIP03(I: 773-776).
IEEE DOI
0312
BibRef
Earlier:
Progressive mesh compression using cosine index predictor and 2-stage
geometry predictor,
ICIP02(II: 233-236).
IEEE DOI
0210
BibRef
Yang, J.H.[Jeony-Hyu],
Kim, C.S.[Chang-Su],
Lee, S.U.[Sang-Uk],
Progressive compression of 3d dynamic mesh sequences,
ICIP04(III: 1975-1978).
IEEE DOI
0505
BibRef
Stefanoski, N.[Nikolce],
Liu, X.L.[Xiao-Liang],
Klie, P.[Patrick],
Ostermann, J.[Jorn],
Scalable Linear Predictive Coding of Time-Consistent 3D Mesh Sequences,
3DTV07(1-4).
IEEE DOI
0705
BibRef
Klie, P.[Patrick],
Okon, E.[Eugen],
Stefanoski, N.[Nikolce],
Ostermann, J.[Jorn],
A Framework for Scene-Flow Driven Creation of Time-Consistent Dynamic
3D Objects using Mesh Parametrizations,
3DTV07(1-4).
IEEE DOI
0705
BibRef
Stefanoski, N.[Nikolce],
Klie, P.[Patrick],
Liu, X.L.[Xiao-Liang],
Ostermann, J.[Jorn],
Layered Predictive Coding of Time-Consistent Dynamic 3D Meshes using a
Non-Linear Predictor,
ICIP07(V: 109-112).
IEEE DOI
0709
BibRef
Vasa, L.[Libor],
Skala, V.[Vaclav],
CODDYAC: Connectivity Driven Dynamic Mesh Compression,
3DTV07(1-4).
IEEE DOI
0705
BibRef
Earlier:
A Spatio-temporal Metric for Dynamic Mesh Comparison,
AMDO06(29-37).
Springer DOI
0607
BibRef
Mamou, K.[Khaled],
Zaharia, T.[Titus],
Preteux, F.[Francoise],
Multi-Chart Geometry Video: A Compact Representation for 3D Animations,
3DPVT06(711-718).
IEEE DOI
0606
Compression for 3D meshes.
BibRef
Chou, C.M.[Chang-Min],
Tseng, D.C.[Din-Chang],
A Geometry-Driven Hierarchical Compression Technique for Triangle
Meshes,
PSIVT06(919-928).
Springer DOI
0612
BibRef
Stefanoski, N.,
Ostermann, J.,
Connectivity-Guided Predictive Compression of Dynamic 3D Meshes,
ICIP06(2973-2976).
IEEE DOI
0610
BibRef
Alliez, P.[Pierre],
Gotsman, C.[Craig],
Recent Advances in Compression of 3D Meshes,
INRIARR-4966, 2003.
HTML Version.
BibRef
0300
Laney, D.,
Pascucci, V.,
Progressive compression of volumetric subdivision meshes,
3DPVT04(680-687).
IEEE DOI
0412
BibRef
Mallon, P.N.,
Boo, M.,
Amor, M.,
Bruguera, J.D.,
Concentric strips: algorithms and architecture for the
compression/decompression of triangle meshes,
3DPVT02(380-383).
IEEE DOI
0206
BibRef
Boulfani-Cuisinaud, Y.[Yasmine],
Antonini, M.[Marc],
Motion-Based Geometry Compensation for DWT Compression of 3D mesh
Sequences,
ICIP07(I: 217-220).
IEEE DOI
0709
Based on clustering of the input mesh geometry into groups of
vertices following the same affine motion.
BibRef
Payan, F.,
Antonini, M.,
3D multiresolution context-based coding for geometry compression,
ICIP03(I: 785-788).
IEEE DOI
0312
BibRef
Earlier:
Multiresolution 3d mesh compression,
ICIP02(II: 245-248).
IEEE DOI
0210
BibRef
And:
3D mesh wavelet coding using efficient model-based bit allocation,
3DPVT02(391-394).
IEEE DOI
0206
BibRef
Kronrod, B.,
Gotsman, C.,
Optimized compression of triangle mesh geometry using prediction trees,
3DPVT02(602-608).
IEEE DOI
0206
BibRef
Laney, D.,
Bertram, M.,
Duchaineau, M.,
Max, N.,
Multiresolution distance volumes for progressive surface compression,
3DPVT02(470-479).
IEEE DOI
0206
BibRef
Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Computer Graphics, Rendering Issues .