10.6.1 Multi-View Video, Multiple Video Streams, Sequence

Ebrahimnezhad, H.[Hossein], Ghassemian, H.[Hassan],
Robust motion from space curves and 3d reconstruction from multiviews using perpendicular double stereo rigs,
IVC(26), No. 10, 1 October 2008, pp. 1397-1420.
Elsevier DOI 0804
3D reconstruction; Perpendicular double stereo; Silhouette; Structure from motion; Space curves; Unique points; Visual hull BibRef

Li, M.[Ming], Shi, L.[Li], Chen, X.D.[Xu-Dong], Du, S.D.[Si-Dan], Li, Y.[Yang],
Using Temporal Correlation to Optimize Stereo Matching in Video Sequences,
IEICE(E102-D), No. 6, June 2019, pp. 1183-1196.
WWW Link. 1906
BibRef

Chen, R.[Rui], Han, S.F.[Song-Fang], Xu, J.[Jing], Su, H.[Hao],
Visibility-Aware Point-Based Multi-View Stereo Network,
PAMI(43), No. 10, October 2021, pp. 3695-3708.
IEEE DOI 2109
BibRef
Earlier:
Point-Based Multi-View Stereo Network,
ICCV19(1538-1547)
IEEE DOI 2004
Code, Stereo.
WWW Link. Image reconstruction, Geometry, Task analysis, Aggregates, 3D deep learning. computational geometry, image motion analysis, image texture, iterative methods, Feature extraction BibRef

Anandan, P.[Padmanabhan], Irani, M.[Michal],
Method and apparatus for three-dimensional scene processing using parallax geometry of pairs of points,
US_Patent6,192,145, Feb 20, 2001
WWW Link. BibRef 0102
Earlier: A2, A1:
Parallax Geometry of Pairs of Points for 3D Scene Analysis,
ECCV96(I:17-30).
Springer DOI BibRef
And: A2, A1: David SarnoffResearch Center, TR, October 1995. Relation between the image motion of pairs of points over multiple frames. Uses the reference plane. BibRef

Son, H.[Hosung], Shin, M.J.[Min-Jung], Cho, M.J.[Min-Ji], Kim, J.S.[Joon-Soo], Yun, K.J.[Kug-Jin], Kang, S.J.[Suk-Ju],
CMVDE: Consistent Multi-View Video Depth Estimation via Geometric-Temporal Coupling Approach,
MultMed(26), 2024, pp. 9710-9721.
IEEE DOI 2410
Estimation, Feature extraction, Costs, Geometry, Couplings, Computational efficiency, Epipolar attention, multi-view stereo, video depth estimation BibRef

Conti, A.[Andrea], Poggi, M.[Matteo], Cambareri, V.[Valerio], Mattoccia, S.[Stefano],
Range-Agnostic Multi-View Depth Estimation with Keyframe Selection,
3DV24(1350-1359)
IEEE DOI 2408
Measurement, Correlation, Video sequences, Memory management, Estimation, Cameras, multi-view stereo, mvs, depth, depth perception, keyframe selection BibRef

Chen, X.[Xihao], Weng, W.M.[Wen-Ming], Zhang, Y.[Yueyi], Xiong, Z.W.[Zhi-Wei],
Depth from Asymmetric Frame-Event Stereo: A Divide-and-Conquer Approach,
WACV24(3033-3042)
IEEE DOI 2404
Costs, Brightness, Estimation, Cameras, Motion measurement, Algorithms, 3D computer vision, Algorithms, Computational photography, image and video synthesis BibRef

Xiang, L.T.[Lin-Tao], Yin, H.J.[Hu-Jun],
Self-Supervised Multi-View Stereo with Adaptive Depth Priors,
ICIP24(3568-3574)
IEEE DOI 2411
Training, Representation learning, Surface reconstruction, Adaptive systems, Structure from motion, 3D Reconstruction BibRef

Düzçeker, A.[Arda], Galliani, S.[Silvano], Vogel, C.[Christoph], Speciale, P.[Pablo], Dusmanu, M.[Mihai], Pollefeys, M.[Marc],
DeepVideoMVS: Multi-View Stereo on Video with Recurrent Spatio-Temporal Fusion,
CVPR21(15319-15328)
IEEE DOI 2111
Measurement, Geometry, Image coding, Costs, Memory management, Transforms, Streaming media BibRef

Wang, K., Shen, S.,
MVDepthNet: Real-Time Multiview Depth Estimation Neural Network,
3DV18(248-257)
IEEE DOI 1812
image motion analysis, neural nets, stereo image processing, MVDepthNet, Structure from motion and SLAM BibRef

Ji, P., Li, H., Dai, Y., Reid, I.D.[Ian D.],
Maximizing Rigidity Revisited: A Convex Programming Approach for Generic 3D Shape Reconstruction from Multiple Perspective Views,
ICCV17(929-937)
IEEE DOI 1802
convex programming, image motion analysis, image reconstruction, pose estimation, 3D reconstruction problems, 3D scene structure, BibRef

Schöps, T.[Thomas], Schönberger, J.L.[Johannes L.], Galliani, S.[Silvano], Sattler, T.[Torsten], Schindler, K.[Konrad], Pollefeys, M.[Marc], Geiger, A.[Andreas],
A Multi-view Stereo Benchmark with High-Resolution Images and Multi-camera Videos,
CVPR17(2538-2547)
IEEE DOI 1711
Benchmark testing, Cameras, Image resolution, Lasers, Robot vision systems, Videos BibRef

Locher, A.[Alex], Havlena, M.[Michal], Van Gool, L.J.[Luc J.],
Progressive 3D Modeling All the Way,
3DV16(11-18)
IEEE DOI 1701
image motion analysis BibRef

Yang, M.J.[Ming-Jin], Cao, X.[Xun], Dai, Q.H.[Qiong-Hai],
Multiview video depth estimation using spacial-temporal consistency,
BMVC10(xx-yy).
HTML Version. 1009
BibRef

Yang, L.[Lei], Song, X.W.[Xiao-Wei], Hou, C.P.[Chun-Ping], Guo, J.C.[Ji-Chang], Li, S.[Sumei], Zhou, Y.[Yuan],
An improved multiview stereo video FGS scalable scheme,
3DTV09(1-4).
IEEE DOI 0905
BibRef

Larsen, E.S.[E. Scott], Mordohai, P.[Philippos], Pollefeys, M.[Marc], Fuchs, H.[Henry],
Temporally Consistent Reconstruction from Multiple Video Streams Using Enhanced Belief Propagation,
ICCV07(1-8).
IEEE DOI 0710
BibRef
Earlier:
Simplified Belief Propagation for Multiple View Reconstruction,
3DPVT06(342-349).
IEEE DOI 0606
BibRef

Zhou, C.X.[Chun-Xiao], Tao, H.[Hai],
Dynamic depth recovery from unsynchronized video streams,
CVPR03(II: 351-358).
IEEE DOI 0307
BibRef

Tao, H.[Hai], Sawhney, H.S.[Harpreet S.], and Kumar, R.[Rakesh],
Dynamic Depth Recovery from Multiple Synchronized Video Streams,
CVPR01(I:118-124).
IEEE DOI 0110
Deal with sharp discontinuities and visibility.
See also Object Tracking with Bayesian Estimation of Dynamic Layer Representations. BibRef

Chapter on Stereo: Three Dimensional Descriptions from Two or More Views, Binocular, Trinocular continues in
Multi-View Patch, Region Based Analysis .