11.14.3.1 Image Based Rendering, Stereo Views

Chapter Contents (Back)
Image Based Rendering. Stereo Image Based Rendering.

Izquierdo, M.E.[M. Ebroul], Kruse, S.[Silko],
Image Analysis for 3D Modeling, Rendering, and Virtual View Generation,
CVIU(71), No. 2, August 1998, pp. 231-253.
DOI Link BibRef 9808

Izquierdo, M.E.[M. Ebroul], Ohm, J.R.[Jens-Rainer],
Image-based rendering and 3D modeling: A complete framework,
SP:IC(15), No. 10, August 2000, pp. 817-858.
Elsevier DOI 0008
2D from 2 or more cameras. BibRef

Izquierdo, M.E.,
Computational experiments with area-based stereo for image-based rendering,
3DPVT02(168-171).
IEEE DOI 0206
BibRef

Fogel, S.V.[Sergei Valentinovich],
Method and apparatus for constructing intermediate images for a depth image from stereo images using velocity vector fields,
US_Patent5,764,871, Jun 9, 1998
WWW Link. BibRef 9806

Fogel, S.V.[Sergei V.],
Generation of depth image through interpolation and extrapolation of intermediate images derived from stereo image pair using disparity vector fields,
US_Patent5,530,774, Jun 25, 1996
WWW Link. BibRef 9606

Scharstein, D.,
View Synthesis Using Stereo Vision,
Springer-Verlag1999. BibRef 9900 LNCS1583, 1999. ISBN 3-540-66159-X.
Springer DOI Survey, Stereo. Survey, Image Based Rendering. Image based rendering and stereo. BibRef

Pollard, S., Pilu, M., Hayes, S., Lorusso, A.,
View synthesis by trinocular edge matching and transfer,
IVC(18), No. 9, June 2000, pp. 749-757.
Elsevier DOI 0004
BibRef
Earlier: BMVC98(xx-yy). BibRef
And:
View Synthesis by Edge Matching and Transfer,
WACV98(168-173).
IEEE DOI 3 images. BibRef

Park, J.H.[Joon Hong], Park, H.W.[Hyun Wook],
Fast view interpolation of stereo images using image gradient and disparity triangulation,
SP:IC(18), No. 5, May 2003, pp. 401-416.
Elsevier DOI 0304
BibRef
And: ICIP03(I: 381-384).
IEEE DOI 0312
Gradient selects node points for triangulation of the stereo info. BibRef

Zhang, L., Wang, D., Vincent, A.,
Adaptive Reconstruction of Intermediate Views from Stereoscopic Images,
CirSysVideo(16), No. 1, January 2006, pp. 102-113.
IEEE DOI 0601
BibRef
Earlier:
An Adaptive Object-based Reconstruction of Intermediate Views from Stereoscopic Images,
ICIP01(III: 923-926).
IEEE DOI 0108
BibRef

Zhang, L.[Liang], Tam, W.J.[Wa James], Wang, D.M.[De-Min],
Stereoscopic image generation based on depth images,
ICIP04(V: 2993-2996).
IEEE DOI 0505
BibRef

Zhang, L.,
Fast Stereo Matching Algorithm for Intermediate View Reconstruction of Stereoscopic Television Images,
CirSysVideo(16), No. 10, October 2006, pp. 1259-1270.
IEEE DOI 0611
BibRef

Oh, J.D., Park, R.H.,
Reconstruction of Intermediate Views from Stereoscopic Images Using Disparity Vectors Estimated by the Geometrical Constraint,
CirSysVideo(16), No. 5, May 2006, pp. 638-641.
IEEE DOI 0605
BibRef

Park, J., Park, H.,
A Mesh-Based Disparity Representation Method for View Interpolation and Stereo Image Compression,
IP(15), No. 7, July 2006, pp. 1751-1762.
IEEE DOI 0606
BibRef

McCann, J., Pollard, N.S.,
Real-time gradient-domain painting,
TOG(27), 2008, pp. 1.
DOI Link BibRef 0800

Mansouri, A.R., Konrad, J.[Janusz],
Bayesian Winner-Take-All Reconstruction of Intermediate Views from Stereoscopic Images,
IP(9), No. 10, October 2000, pp. 1710-1722.
IEEE DOI 0010
BibRef

Stasinski, R.[Ryszard], Konrad, J.[Janusz],
Improved POCS reconstruction of stereoscopic views,
SP:IC(17), No. 9, October 2002, pp. 689-704.
Elsevier DOI 0211
BibRef
Earlier: A1, Only:
POCS-based Image Reconstruction from Irregularly-spaced Samples,
ICIP00(Vol II: 315-318).
IEEE DOI 0008
POCS: projection onto convex sets. Between the 2 stereo views. BibRef

Lhuillier, M.[Maxime], Quan, L.[Long],
Image-based rendering by joint view triangulation,
CirSysVideo(13), No. 11, November 2003, pp. 1051-1063.
IEEE Abstract. 0311
BibRef
Earlier:
Edge-Constrained Joint View Triangulation for Image Interpolation,
CVPR00(II: 218-224).
IEEE DOI 0005
BibRef
Earlier:
Image Interpolation by Joint View Triangulation,
CVPR99(II: 139-145).
IEEE DOI BibRef

Lhuillier, M., Quan, L.[Long],
Surface reconstruction by integrating 3d and 2d data of multiple views,
ICCV03(1313-1320).
IEEE DOI 0311
BibRef

Lhuillier, M., Quan, L., Shum, H.Y., Tsui, H.T.,
Relief Mosaics by Joint View Triangulation,
CVPR01(I:785-790).
IEEE DOI 0110
Deals with some motion paralax. BibRef

Evers-Senne, J.F., Koch, R.,
Image-based rendering of complex scenes from a multi-camera rig,
VISP(152), No. 4, August 2005, pp. 470-480.
DOI Link 0512
BibRef

Yao, J.[Jian], Cham, W.K.[Wai-Kuen],
3D modeling and rendering from multiple wide-baseline images by match propagation,
SP:IC(21), No. 6, July 2006, pp. 506-518.
Elsevier DOI 0606
BibRef
Earlier:
An efficient image-based rendering method,
ICPR04(I: 88-91).
IEEE DOI 0409
Image-based modeling and rendering; Multiple wide-baseline images; Match propagation BibRef

Yao, J.[Jian], Cham, W.K.[Wai-Kuen],
Robust Multi-View Feature Matching from Multiple Unordered Views,
PR(40), No. 11, November 2007, pp. 3081-3099.
Elsevier DOI 0707
BibRef
Earlier:
Image-Based Modeling and Rendering from Multiple Views: A Multiple Cues Based Propagation Approach,
ICIP05(III: 9-12).
IEEE DOI 0512
BibRef
Earlier:
Clustering-based match propagation for image-based rendering from multiple images,
ICIP04(V: 2969-2972).
IEEE DOI 0505
Organization of unordered views; Two-view matching; multi-view matching BibRef

Li, H.D.[Hong-Dong], Hartley, R.I.[Richard I.],
Inverse tensor transfer with applications to novel view synthesis and multi-baseline stereo,
SP:IC(21), No. 9, October 2006, pp. 724-738.
Elsevier DOI 0611
BibRef
Earlier:
Inverse Tensor Transfer for Novel View Synthesis,
ICIP05(II: 97-100).
IEEE DOI 0512
Image transfer; Trifocal tensor; Novel view synthesis; Multi-view geometry BibRef

Li, H.D.[Hong-Dong], Hartley, R.I.[Richard I.],
Conformal spherical representation of 3D genus-zero meshes,
PR(40), No. 10, October 2007, pp. 2742-2753.
Elsevier DOI 0707
BibRef
Earlier:
New 3D Fourier Descriptors for Genus-Zero Mesh Objects,
ACCV06(I:734-743).
Springer DOI 0601
Conformal mapping; Shape invariant; Spherical harmonics; Shape representation BibRef

Li, H.D.[Hong-Dong], Hartley, R.I.[Richard I.], Burkhardt, H.[Hans],
Discrete Conformal Shape Representation and Reconstruction of 3D Mesh Objects,
CIAP05(535-542).
Springer DOI 0509
BibRef

Zitnick, C.L.[C. Lawrence], Kang, S.B.[Sing Bing],
Stereo for Image-Based Rendering using Image Over-Segmentation,
IJCV(75), No. 1, October 2007, pp. 49-65.
Springer DOI 0709
Kanade special issue. BibRef

Taguchi, Y.[Yuichi], Wilburn, B.[Bennett], Zitnick, C.L.[C. Lawrence],
Stereo reconstruction with mixed pixels using adaptive over-segmentation,
CVPR08(1-8).
IEEE DOI 0806
BibRef

Lee, E.K.[Eun-Kyung], Ho, Y.S.[Yo-Sung],
Generation of high-quality depth maps using hybrid camera system for 3-D video,
JVCIR(22), No. 1, January 2011, pp. 73-84.
Elsevier DOI 1101
Depth map generation; Depth camera; Multi-view camera system; 3-D video; 3-D TV; Multi-view video; Stereo matching; View synthesis See also Temporally consistent depth video filter using temporal outlier reduction. BibRef

Lee, E.K.[Eun-Kyung], Kang, Y.S.[Yun-Suk], Jung, Y.K.[Young-Kee], Ho, Y.S.[Yo-Sung],
Three-dimensional video generation using foreground separation and disocclusion detection,
3DTV10(1-4).
IEEE DOI 1006
BibRef

Hannuksela, M.M.[Miska M.], Rusanovskyy, D., Su, W., Chen, L., Li, R., Aflaki, P.[Payman], Lan, D., Joachimiak, M., Li, H., Gabbouj, M.[Moncef],
Multiview-Video-Plus-Depth Coding Based on the Advanced Video Coding Standard,
IP(22), No. 9, 2013, pp. 3449-3458.
IEEE DOI 1307
H.264/AVC;three-dimensional video;video coding See also Nonlinear Depth Map Resampling for Depth-Enhanced 3-D Video Coding. BibRef

El-Yamany, N.A.[Noha A.], Ugur, K.[Kemal], Hannuksela, M.M.[Miska M.], Gabbouj, M.[Moncef],
Evaluation of depth compression and view synthesis distortions in multiview-video-plus-depth coding systems,
3DTV10(1-4).
IEEE DOI 1006
BibRef

Quan, J.J.[Jun-Jian], Hannuksela, M.M.[Miska M.], Li, H.Q.[Hou-Qiang],
Asymmetric spatial scalability in stereoscopic video coding,
3DTV11(1-4).
IEEE DOI 1105
BibRef

Zhang, J.[Jun], Hannuksela, M.M.[Miska M.], Li, H.Q.[Hou-Qiang],
Joint multiview video plus depth coding,
ICIP10(2865-2868).
IEEE DOI 1009
BibRef

Hsu, H.A.[Hsiao-An], Chiang, C.K.[Chen-Kuo], Lai, S.H.[Shang-Hong],
Spatio-Temporally Consistent View Synthesis From Video-Plus-Depth Data With Global Optimization,
CirSysVideo(24), No. 1, January 2014, pp. 74-84.
IEEE DOI 1402
Markov processes BibRef

Wei, C.H.[Chen-Hao], Lai, S.H.[Shang-Hong], Chiang, C.K.[Chen-Kuo],
Video synthesis from stereo videos with iterative depth refinement,
JVCIR(47), No. 1, 2017, pp. 48-61.
Elsevier DOI 1706
View, synthesis BibRef


Flynn, J.[John], Neulander, I.[Ivan], Philbin, J.[James], Snavely, N.[Noah],
Deep Stereo: Learning to Predict New Views from the World's Imagery,
CVPR16(5515-5524)
IEEE DOI 1612
BibRef

Seitner, F., Nezveda, M., Gelautz, M., Braun, G., Kapeller, C., Zellinger, W., Moser, B.,
Trifocal system for high-quality inter-camera mapping and virtual view synthesis,
IC3D15(1-8)
IEEE DOI 1603
cameras BibRef

Jorissen, L., Goorts, P., Rogmans, S., Lafruit, G., Bekaert, P.,
Multi-camera epipolar plane image feature detection for robust view synthesis,
3DTV-CON15(1-4)
IEEE DOI 1508
Cameras BibRef

Lu, D.[Dawei], Ma, H.D.[Hua-Dong], Liu, L.[Liang], Fu, H.Y.[Hui-Yuan],
Patch-Based Disparity Remapping for Stereoscopic Images,
MMMod15(I: 498-509).
Springer DOI 1501
BibRef

Audu, A.I.[Abdulkadir Iyyaka], Sadka, A.H.[Abdul Hamid],
Computation of virtual environment from stereo-panoramic view,
3DTV-CON13(1-4)
IEEE DOI 1309
Stereo vision BibRef

Sinha, S.N.[Sudipta N.], Steedly, D.[Drew], Szeliski, R.[Richard],
Piecewise Planar Stereo for Image-based Rendering,
ICCV09(1881-1888).
IEEE DOI 0909
BibRef

Kubota, A.[Akira], Hamanaka, T.[Tomohito], Hatori, Y.[Yoshinori],
View Interpolation using defocused stereo images: A space-invariant filtering approach,
ICIP09(2349-2352).
IEEE DOI 0911
BibRef

Breznan, M.[Martin],
Hybrid Method of 3-D Image Reconstruction from Stereo Pictures,
3DTV08(189-192).
IEEE DOI 0805
BibRef

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Depth and Range for View Synthesis, Image Based Rendering, IBR .


Last update:Sep 21, 2020 at 13:40:48