Agudo, A.[Antonio],
Moreno-Noguer, F.[Francesc],
Calvo, B.[Begona],
Montiel, J.M.M.[José María Martínez],
Sequential Non-Rigid Structure from Motion Using Physical Priors,
PAMI(38), No. 5, May 2016, pp. 979-994.
IEEE DOI
1604
See also Combining Local-Physical and Global-Statistical Models for Sequential Deformable Shape from Motion. Cameras
BibRef
Agudo, A.[Antonio],
Moreno-Noguer, F.[Francesc],
Calvo, B.[Begoña],
Montiel, J.M.M.[José María Martínez],
Real-time 3D reconstruction of non-rigid shapes with a single moving
camera,
CVIU(153), No. 1, 2016, pp. 37-54.
Elsevier DOI
1612
Deformable shape and camera motion recovery
BibRef
Lladó, X.[Xavier],
del Bue, A.[Alessio],
Agapito, L.[Lourdes],
Non-rigid metric reconstruction from perspective cameras,
IVC(28), No. 9, September 2010, pp. 1339-1353.
Elsevier DOI
1007
BibRef
Earlier: A2, A1, A3:
Segmentation of Rigid Motion from Non-rigid 2D Trajectories,
IbPRIA07(I: 491-498).
Springer DOI
0706
BibRef
Earlier: A2, A1, A3:
Non-Rigid Metric Shape and Motion Recovery from Uncalibrated Images
Using Priors,
CVPR06(I: 1191-1198).
IEEE DOI
0606
Non-rigid structure from motion, Motion segmentation;
Self-calibration, Non-linear optimization, Deformable model
BibRef
Agudo, A.[Antonio],
Montiel, J.M.M.[José M. Martínez],
Agapito, L.[Lourdes],
Calvo, B.[Begoña],
Modal Space: A Physics-Based Model for Sequential Estimation of
Time-Varying Shape from Monocular Video,
JMIV(57), No. 1, January 2017, pp. 75-98.
Springer DOI
1701
BibRef
Earlier:
Online Dense Non-Rigid 3D Shape and Camera Motion Recovery,
BMVC14(xx-yy).
HTML Version.
1410
BibRef
Earlier: A1 A3, A4, A2:
Good Vibrations:
A Modal Analysis Approach for Sequential Non-rigid Structure from Motion,
CVPR14(1558-1565)
IEEE DOI
1409
BibRef
Earlier: A1, A4, A2, Only:
Finite Element based sequential Bayesian Non-Rigid Structure from
Motion,
CVPR12(1418-1425).
IEEE DOI
1208
BibRef
Agudo, A.[Antonio],
Moreno-Noguer, F.[Francesc],
Force-Based Representation for Non-Rigid Shape and Elastic Model
Estimation,
PAMI(40), No. 9, September 2018, pp. 2137-2150.
IEEE DOI
1808
BibRef
Earlier:
Recovering Pose and 3D Deformable Shape from Multi-instance Image
Ensembles,
ACCV16(IV: 291-307).
Springer DOI
1704
Shape, Force, Deformable models, Trajectory, Solid modeling,
force space
BibRef
Agudo, A.[Antonio],
Moreno-Noguer, F.[Francesc],
A scalable, efficient, and accurate solution to non-rigid structure
from motion,
CVIU(167), 2018, pp. 121-133.
Elsevier DOI
1804
Probabilistic trajectory space, Time-varying scenes,
Non-rigid structure from motion, Low-rank representation, Factorization
See also Combining Local-Physical and Global-Statistical Models for Sequential Deformable Shape from Motion.
BibRef
Agudo, A.[Antonio],
Moreno-Noguer, F.[Francesc],
Deformable Motion 3D Reconstruction by Union of Regularized Subspaces,
ICIP18(2930-2934)
IEEE DOI
1809
BibRef
Earlier:
DUST: Dual Union of Spatio-Temporal Subspaces for Monocular Multiple
Object 3D Reconstruction,
CVPR17(1513-1521)
IEEE DOI
1711
Shape, Cameras, Trajectory, Strain, Sparse matrices,
Union of Regularized Subspaces.
Motion segmentation, Shape, Tracking.
BibRef
del Bue, A.[Alessio],
Adaptive Non-rigid Registration and Structure from Motion from Image
Trajectories,
IJCV(103), No. 2, June 2013, pp. 226-239.
WWW Link.
1306
BibRef
Earlier:
Adaptive Metric Registration of 3D Models to Non-rigid Image
Trajectories,
ECCV10(III: 87-100).
Springer DOI
1009
BibRef
del Bue, A.[Alessio],
Agapito, L.[Lourdes],
Non-Rigid Stereo Factorization,
IJCV(66), No. 2, Feburary 2006, pp. 193-207.
Springer DOI
0604
BibRef
del Bue, A.[Alessio],
Smeraldi, F.[Fabrizio],
Agapito, L.[Lourdes],
Non-rigid structure from motion using ranklet-based tracking and
non-linear optimization,
IVC(25), No. 3, March 2007, pp. 297-310.
Elsevier DOI
0701
BibRef
Earlier:
Non-Rigid Structure from Motion using non-Parametric Tracking and
Non-Linear Optimization,
Non-Rigid04(8).
WWW Link.
0502
Non-rigid structure for motion, Rank features, Ranklets, Point tracking
Extend non-rigid factorization approaches.
BibRef
Smeraldi, F.[Fabrizio],
Fast algorithms for the computation of Ranklets,
ICIP09(3969-3972).
IEEE DOI
0911
BibRef
Llado, X.[Xavier],
del Bue, A.[Alessio],
Oliver, A.[Arnau],
Salvi, J.[Joaquim],
Agapito, L.[Lourdes],
Reconstruction of non-rigid 3D shapes from stereo-motion,
PRL(32), No. 7, 1 May 2011, pp. 1020-1028.
Elsevier DOI
1101
Structure from motion, Stereo-motion, Non-rigid structure
BibRef
Gay, P.[Paul],
Rubino, C.[Cosimo],
Crocco, M.[Marco],
del Bue, A.[Alessio],
Factorization based structure from motion with object priors,
CVIU(172), 2018, pp. 124-137.
Elsevier DOI
1812
Structure from motion, Object detection, Affine camera,
Probabilistic matrix factorization, Scene semantic
BibRef
del Bue, A.[Alessio],
A factorization approach to structure from motion with shape priors,
CVPR08(1-8).
IEEE DOI
0806
BibRef
And:
Extracting Average Shapes from Occluded Non-Rigid Motion,
IbPRIA07(II: 218-225).
Springer DOI
0706
BibRef
Paladini, M.[Marco],
del Bue, A.[Alessio],
Xavier, J.[João],
Agapito, L.[Lourdes],
Stošic, M.[Marko],
Dodig, M.[Marija],
Optimal Metric Projections for Deformable and Articulated
Structure-from-Motion,
IJCV(96), No. 2, February 2012, pp. 252-276.
WWW Link.
1201
BibRef
Earlier: A1, A2, A5, A6, A3, A4:
Factorization for non-rigid and articulated structure using metric
projections,
CVPR09(2898-2905).
IEEE DOI
0906
BibRef
del Bue, A.[Alessio],
Xavier, J.[João],
Agapito, L.[Lourdes],
Paladini, M.[Marco],
Bilinear Modeling via Augmented Lagrange Multipliers (BALM),
PAMI(34), No. 8, August 2012, pp. 1496-1508.
IEEE DOI
1206
BibRef
Earlier:
Bilinear Factorization via Augmented Lagrange Multipliers,
ECCV10(IV: 283-296).
Springer DOI
1009
rigid, non-rigid, and articulated Structure from Motion, photometric
stereo, and 2D-3D non-rigid registration.
Unified approach with missing data. Constrained optimization.
BibRef
Nesgaard-Jensen, S.H.[Sebastian Hoppe],
Brix-Doest, M.E.[Mads Emil],
Aanæs, H.[Henrik],
del Bue, A.[Alessio],
A Benchmark and Evaluation of Non-Rigid Structure from Motion,
IJCV(129), No. 4, April 2021, pp. 882-899.
Springer DOI
2104
BibRef
Fayad, J.[Joao],
Russell, C.[Chris],
Agapito, L.[Lourdes],
Automated articulated structure and 3D shape recovery from point
correspondences,
ICCV11(431-438).
IEEE DOI
1201
BibRef
Earlier: A2, A1, A3:
Energy based multiple model fitting for non-rigid structure from motion,
CVPR11(3009-3016).
IEEE DOI
1106
BibRef
Fayad, J.[Joao],
del Bue, A.[Alessio],
Agapito, L.[Lourdes],
Aguiar, P.[Pedro],
Non-rigid structure from motion using quadratic deformation models,
BMVC09(xx-yy).
PDF File.
0909
BibRef
Liu-Yin, Q.[Qi],
Yu, R.[Rui],
Agapito, L.[Lourdes],
Fitzgibbon, A.W.[Andrew W.],
Russell, C.[Chris],
Better Together: Joint Reasoning for Non-rigid 3D Reconstruction with
Specularities and Shading,
BMVC16(xx-yy).
HTML Version.
1805
BibRef
Yu, R.[Rui],
Russell, C.[Chris],
Campbell, N.D.F.[Neill D. F.],
Agapito, L.[Lourdes],
Direct, Dense, and Deformable:
Template-Based Non-rigid 3D Reconstruction from RGB Video,
ICCV15(918-926)
IEEE DOI
1602
Cameras
BibRef
Garg, R.[Ravi],
Roussos, A.[Anastasios],
Agapito, L.[Lourdes],
Dense Variational Reconstruction of Non-rigid Surfaces from Monocular
Video,
CVPR13(1272-1279)
IEEE DOI
1309
3D reconstruction
BibRef
Pitelis, N.[Nikolaos],
Russell, C.[Chris],
Agapito, L.[Lourdes],
Learning a Manifold as an Atlas,
CVPR13(1642-1649)
IEEE DOI
1309
3D reconstruction of human motion from single image.
set of overlapping "charts" to describe local structure.
BibRef
Russell, C.[Chris],
Yu, R.[Rui],
Agapito, L.[Lourdes],
Video Pop-up: Monocular 3D Reconstruction of Dynamic Scenes,
ECCV14(VII: 583-598).
Springer DOI
1408
BibRef
Fayad, J.[João],
Agapito, L.[Lourdes],
del Bue, A.[Alessio],
Piecewise Quadratic Reconstruction of Non-Rigid Surfaces from Monocular
Sequences,
ECCV10(IV: 297-310).
Springer DOI
1009
BibRef
Paladini, M.[Marco],
Bartoli, A.E.[Adrien E.],
Agapito, L.[Lourdes],
Sequential Non-Rigid Structure-from-Motion with the 3D-Implicit
Low-Rank Shape Model,
ECCV10(II: 15-28).
Springer DOI
1009
BibRef
Chapter on Motion Analysis -- Low-Level, Image Level Analysis, Mosaic Generation, Super Resolution, Shape from Motion continues in
Illumination Variations in Structure, Depth, and Shape from Motion .