11.8.4 Nonrigid, Deformable Motion Analysis and Tracking

Kambhamettu, C., Goldgof, D.B., Terzopoulos, D., Huang, T.S.,
Nonrigid Motion Analysis,
HPRIP-CV94(405-430). BibRef 9400

Huang, W.C., and Goldgof, D.B.,
Adaptive-Size Meshes for Rigid and Nonrigid Shape Analysis and Synthesis,
PAMI(15), No. 6, June 1993, pp. 611-616.
IEEE Abstract.
IEEE DOI Link BibRef 9306
Earlier:
Adaptive-Size Physically-Based Models for Nonrigid Motion Analysis,
CVPR92(833-835).
IEEE Abstract. BibRef
And:
Nonrigid Motion Analysis Using Nonlinear Finite Element Modeling,
SPIE(2031), 1993, pp. 404-414. Physics Based Vision. BibRef

Huang, W.C., Goldgof, D.B., Tsap, L.V.,
Nonlinear Finite Element Methods for Nonrigid Motion Analysis,
PBMCV95(SESSION 3) BibRef 9500

Huang, W.C., Goldgof, D.B.,
Analysis of Intensity and Range Image Sequences Using Adaptive-Size Meshes,
JVCIR(4), 1993, pp. 364-381. BibRef 9300

Huang, W.C., Goldgof, D.B.,
Sampling and Surface Reconstruction with Adaptive-Size Meshes,
SPIE(1708), 1992, pp. 760-770 BibRef 9200

Tsap, L.V.[Leonid V.], Goldgof, D.B.[Dmitry B.], Sarkar, S.[Sudeep], Huang, W.C.[Wen-Chen],
Efficient Nonlinear Finite Element Modeling of Nonrigid Objects via Optimization of Mesh Models,
CVIU(69), No. 3, March 1998, pp. 330-350.
WWW Version. See also Gesture-Tracking in Real Time with Dynamic Regional Range Computation. BibRef 9803

Tsap, L.V.[Leonid V.], Goldgof, D.B.[Dmitry B.], Sarkar, S.[Sudeep],
Model-based force-driven nonrigid motion recovery from sequences of range images without point correspondences,
IVC(17), No. 14, 17 November 1999, pp. 997-1007.
WWW Version. 9911
BibRef
Earlier:
Model-based nonrigid motion recovery from sequences of range images without point correspondences,
ICIP98(II: 218-222).
IEEE DOI Link 9810
BibRef

Tsap, L.V.[Leonid V.], Goldgof, D.B.[Dmitry B.], and Sarkar, S.[Sudeep],
Nonrigid Motion Analysis Based on Dynamic Refinement of Finite Element Models,
PAMI(22), No. 5, May 2000, pp. 526-543.
IEEE Abstract.
IEEE DOI Link 0008
BibRef
Earlier: CVPR98(728-734).
IEEE Abstract. Given initial model, sparse correspondences, recover dense motion vectors. BibRef

Tsap, L.V.[Leonid V.], Goldgof, D.B.[Dmitry B.], Sarkar, S.[Sudeep],
Fusion of physically-based registration and deformation modeling for nonrigid motion analysis,
IP(10), No. 11, November 2001, pp. 1659-1669.
IEEE DOI Link 0201
BibRef

Tsap, L.V.[Leonid V.], Goldgof, D.B.[Dmitry B.], Sarkar, S.[Sudeep],
Multiscale Combination of Physically-based Registration and Deformation Modeling,
CVPR00(II: 422-429).
IEEE Abstract.
IEEE DOI Link 0005
BibRef

Zhang, Y.[Yong], Goldgof, D.B.[Dmitry B.], Sarkar, S.[Sudeep], Tsap, L.V.[Leonid V.],
A sensitivity analysis method and its application in physics-based nonrigid motion modeling,
IVC(25), No. 3, March 2007, pp. 262-273.
WWW Version. 0701
BibRef
Earlier:
Tracking objects using recovered physical motion parameters,
ICPR02(II: 10-13).
IEEE DOI Link 0211
BibRef
Earlier:
Model-based Nonrigid Motion Analysis Using Natural Feature Adaptive Mesh,
ICPR00(Vol III: 831-835).
IEEE DOI Link 0009
Sensitivity analysis; Physical modeling; Nonrigid motion; Elastic parameters BibRef

Shin, M.C.[Min C.], Balasubramanian, R.[Ramprasad], Goldgof, D.B.[Dmitry B.], Kim, C.[Carlos],
Framework of Integrating 2D Points and Curves for Tracking of 3D Nonrigid Motion and Structure,
ICPR00(Vol III: 823-826).
IEEE DOI Link 0009
Examples track surface patches. BibRef

Koch, R.,
Dynamic 3-D Scene Analysis through Synthesis Feedback Control,
PAMI(15), No. 6, June 1993, pp. 556-568.
IEEE Abstract.
IEEE DOI Link Face analysis and reconstruction. BibRef 9306

Penna, M.A.[Michael A.],
The Incremental Approximation of Nonrigid Motion,
CVGIP(60), No. 2, September 1994, pp. 141-156.
WWW Version. BibRef 9409

Penna, M.A.[Michael A.],
The Motion Analysis of Nonrigid Membranes,
CVIU(75), No. 3, September 1999, pp. 281-306. BibRef 9909

Chen, S.S.[Su-Shing], and Penna, M.A.[Michael A.],
Shape and Motion of Nonrigid Bodies,
CVGIP(36), No. 2/3, November/December 1986, pp. 175-207.
WWW Version. BibRef 8611
Earlier: A1 only:
Structure-from-Motion without the Rigidity Assumption,
CVWS85(105-112). Derivation and discussion of equations. BibRef

Chen, S.S.[Su-Shing], and Penna, M.A.[Michael A.],
Motion Analysis of Deformable Objects,
ACVIP1988, Chapter 6 pp. 179-220. BibRef 8800

Penna, M.A.,
Non-rigid Motion Analysis: Isometric Motion,
CVGIP(56), No. 3, November 1992, pp. 366-380.
WWW Version. Given the shape of the object, derive the motion and isometric shape changes in the object. BibRef 9211

Mishra, S.K., Goldgof, D.B., Kambhamettu, C.,
Estimating Nonrigid Motion from Point and Line Correspondences,
PRL(15), No. 6, June 1994, pp. 559-566. See also Curvature-Based Approach to Point Correspondence Recovery in Conformal Nonrigid Motion. BibRef 9406

Chou, W.S., Chen, Y.C.,
Estimation of the Velocity Field of Two-Dimensional Deformable Motion,
PR(26), No. 2, February 1993, pp. 351-364.
WWW Version. BibRef 9302

Beattie, R.S., Elder, S.C.,
Sonar Image Motion Distortion Estimation And Correction Using Covariance Function Modeling,
IVC(12), No. 8, October 1994, pp. 531-535.
WWW Version. BibRef 9410

Chen, C.W., and Huang, T.S.[Thomas S.],
Non-Rigid Object Motion and Deformation Estimation for Three-Dimensional Data,
IJIST(2), 1990, pp. 385-394. See also Uniqueness and Estimation of Three-Dimensional Motion Parameters of Rigid Objects with Curved Surfaces. BibRef 9000

Chen, S.S., Zhao, A.G.,
Image Representation of Moving Nonrigid Objects,
JVCIR(1), 1990, pp. 199-207. BibRef 9000

Polana, R.[Ramprasad], and Nelson, R.C.[Randal C.],
Detection and Recognition of Periodic, Nonrigid Motion,
IJCV(23), No. 3, June-July 1997, pp. 261-282.
WWW Version. 9708
BibRef
Earlier: A2, A1:
Recognition of Nonrigid Motion,
ARPA94(II:1219-1224). BibRef
Earlier:
Low Level Recognition of Human Motion,
Non-Rigid94(XX-YY). BibRef

Polana, R.[Ramprasad], and Nelson, R.C.[Randal C.],
Detecting Activities,
JVCIR(5), 1994, pp. 172-180. BibRef 9400
Earlier: ICPR94(A:815-818).
IEEE DOI Link BibRef
Earlier: CVPR93(2-7).
IEEE Abstract. BibRef
And: DARPA93(569-574). Recognizing activities. Finding repeated motions. BibRef

Barron, J.L., Eagleson, R.,
Recursive Estimation of Time-Varying Motion and Structure Parameters,
PR(29), No. 5, May 1996, pp. 797-818.
WWW Version. 9605
BibRef

Nastar, C.[Chahab], Ayache, N.[Nicholas],
Frequency-Based Nonrigid Motion Analysis: Application to Four Dimensional Medical Images,
PAMI(18), No. 11, November 1996, pp. 1067-1079.
IEEE Abstract.
IEEE DOI Link 9612
BibRef
Earlier:
Time representation of deformations: Combining vibration modes and Fourier analysis,
ORCV94(263-275).
Springer DOI Link 9412
BibRef

Nastar, C., and Ayache, N.J.,
Fast Segmentation, Tracking, and Analysis of Deformable Objects,
ICCV93(275-279).
IEEE DOI Link BibRef 9300
And:
Physically Based Analysis of Deformations in 3D Images,
SPIE(2031), 1993, pp. 182-192 Physics Based Vision. BibRef

Nastar, C.,
Vibration Modes for Nonrigid Motion Analysis in 3D Images,
ECCV94(A:231-236).
Springer DOI Link BibRef 9400

Lee, C.W., Hasegawa, O., Wongwarawipat, W., Dohi, H., Ishizuka, M.,
Realistic Image Synthesis of a Deformable Living Thing Based on Motion Understanding,
JVCIR(2), 1991, pp. 345-354. BibRef 9100

Dohi, H., Ishizuka, M.,
A 3-D vision system incorporating solid modeler and geometric reasoning,
ICPR90(I: 185-187).
IEEE DOI Link 9006
BibRef

Chaudhuri, S., Chatterjee, S.,
Motion Analysis of a Homogeneously Deformable Object Using Subset Correspondences,
PR(24), No. 8, 1991, pp. 739-745.
WWW Version. See also Recursive Estimation of Motion Parameters. BibRef 9100

Chaudhuri, S., and Chatterjee, S.,
Estimation of Motion Parameters for a Deformable Object from Range Data,
CVPR89(291-295).
IEEE Abstract. Given matches, range, Rotation only plus deformation, find the parameters. BibRef 8900

Chaudhuri, S., and Chatterjee, S.,
An Efficient, Linear, Sequential Formulation for Motion Estimation from Noisy Data,
Robust90(xx). BibRef 9000

Collin, B., Zavidovique, B.,
Deformation Detection with Frequency-Modulation,
PR(29), No. 8, August 1996, pp. 1385-1399.
WWW Version. 9608
BibRef

Denney, Jr., T.S., Prince, J.L.,
Optimal Brightness Functions for Optical Flow Estimation of Deformable Motion,
IP(3), No. 2, March 1994, pp. 178-191.
IEEE DOI Link BibRef 9403

Sato, Y., Moriyama, M., Hanayama, M., Naito, H., Tamura, S.,
Acquiring 3D Models of Nonrigid Moving-Objects from Time and Viewpoint Varying Image Sequences: A Step Toward Left-Ventricle Recovery,
PAMI(19), No. 3, March 1997, pp. 253-259.
IEEE Abstract.
IEEE DOI Link 9704
Time-varying 3-D shapes with a known cycle. Integrate apparent contours from different viewpoints. BibRef

Smith, P.W., Nandhakumar, N., Ramadorai, A.K.,
A Vision-Based Framework for the Discovery-Driven Manipulation of Nonrigid Objects,
AdvRob(11), No. 1, 1997, pp. 75-94. 9708
BibRef

Smith, P.W., Nandhakumar, N.,
Projective Recovery of Structure from Nonrigid Motion Using Temporal Fusion,
OptEng(36), No. 3, March 1997, pp. 755-766. 9704
BibRef

Smith, P.W., Nandhakumar, N., Ramadorai, A.K.,
Representation of Deformable Object Structure and Motion for Autonomous Manipulation Using Relative Elasticity,
SCV95(200-205).
IEEE Top Reference. University of Virginia. BibRef 9500

Domingo, J., Ayala, G., Simo, A., de Ves, E., Martinez-Costa, L., Marco, P.,
Irregular Motion Recovery in Fluorescein Angiograms,
PRL(18), No. 8, August 1997, pp. 805-821. 9801
BibRef

Aggarwal, J.K., Cai, Q., Liao, W., Sabata, B.,
Nonrigid Motion Analysis: Articulated and Elastic Motion,
CVIU(70), No. 2, May 1998, pp. 142-156.
WWW Version. BibRef 9805

Devlaminck, V.,
A Functional for Compressible or Incompressible Elastic Deformation Estimation,
SPLetters(7), No. 7, July 1999, pp. 162.
IEEE Top Reference. BibRef 9907
Earlier:
Weighting Coefficient Determination in a Displacement Estimation Functional Using the Dynamical Similarity Principle,
ICIP97(III: 622-625).
IEEE DOI Link BibRef

Devlaminck, V., Dubus, J.P.,
Estimation of Compressible or Incompressible Deformable Motions for Density Images,
ICIP96(I: 125-128).
IEEE DOI Link BibRef 9600

Toklu, C., Tekalp, A.M., Erdem, A.T.,
Semi-Automatic Video Object Segmentation in the Presence of Occlusion,
CirSysVideo(10), No. 4, June 2000, pp. 624-629.
IEEE Top Reference. 0006
BibRef

Toklu, C., Erdem, A.T., Tekalp, A.M.,
Two-Dimensional Mesh-Based Mosaic Representation for Manipulation of Video Objects with Occlusion,
IP(9), No. 9, September 2000, pp. 1617-1630.
IEEE DOI Link 0008
BibRef

Toklu, C., Tekalp, A.M., and Erdem, A.T.,
Simultaneous Alpha Map Generation and 2-D Mesh Tracking for Multimedia Applications,
ICIP97(I: 113-116).
IEEE DOI Link BibRef 9700

Erdem, A.T.[A. Tanju], Toklu, C.[Candemir],
Method for region tracking in an image sequence using a two-dimensional mesh,
US_Patent5,982,909, Nov 9, 1999
WWW Version. BibRef 9911

Toklu, C., Erdem, A.T.[A. Tanju], Sezan, M.I.[M. Ibrahim], Tekalp, A.M.[A. Murat],
2-D mesh tracking for synthetic transfiguration,
ICIP95(III: 536-539).
IEEE DOI Link 9510
BibRef

Erdem, A.T.[A. Tanju],
Method for generating a personalized 3-D face model,
US_Patent6,664,956, December 16, 2003.
WWW Version. BibRef 0312

Tekalp, A.M., van Beek, P., Toklu, C., Gunsel, B.,
Two-Dimensional Mesh-Based Visual-Object Representation for Interactive Synthetic/Natural Digital Video,
PIEEE(86), 1998, pp. 1029-1051. BibRef 9800

Celasun, I., Ilgaz, E., Tekalp, A.M., van Beek, P.J.L., Zhuang, N.,
Optimal hierarchical design of 2D dynamic meshes for videos,
ICIP98(II: 899-903).
IEEE DOI Link 9810
BibRef

Fu, Y., Erdem, A.T., Tekalp, A.M.,
Tracking Visible Boundary of Objects Using Occlusion Adaptive Motion Snake,
IP(9), No. 12, December 2000, pp. 2051-2060.
IEEE DOI Link 0011
BibRef

van Beek, P., Tekalp, A.M., Zhuang, N., Celasun, I., Xia, M.,
Hierarchical 2-D Mesh Representation, Tracking, and Compression for Object-Based Video,
CirSysVideo(9), No. 2, March 1999, pp. 353.
IEEE Top Reference. BibRef 9903

van Beek, P., Tekalp, A.M., and Puri, A.,
2-D Mesh Geometry and Motion Compression for Efficient Object-Based Video Representation,
ICIP97(III: 440-443).
IEEE DOI Link BibRef 9700

Celasun, I., Tekalp, A.M.,
Optimal 2-D Hierarchical Content-Based Mesh Design and Update for Object-Based Video,
CirSysVideo(10), No. 7, October 2000, pp. 1135-1153.
IEEE Top Reference. 0010
BibRef

Celasun, I.[Isil], Tekalp, A.M.[A. Murat], Gökçetekin, M.H.[Mete H.], Harmanci, D.M.[Derin M.],
2-D mesh-based video object segmentation and tracking with occlusion resolution,
SP:IC(16), No. 10, August 2001, pp. 949-962.
WWW Version. 0001
Object-based video; Video object segmentation; Object tracking; Mesh-based occlusion detection BibRef

Gokcetekin, M., Harmanci, M., Celasun, I.,
Mesh-based Segmentation and Update for Object-based Video,
ICIP00(Vol I: 343-346).
IEEE Abstract. 0008
BibRef

Toklu, C., Tekalp, A.M., Erdem, A.T., and Sezan, M.I.,
2D Mesh Based Tracking of Deformable Objects with Occlusion,
ICIP96(I: 933-936).
IEEE DOI Link 9610
BibRef

Kumar, S.[Senthil], Goldgof, D.[Dmitry],
Recovery of Global Nonrigid Motion: A Model-Based Approach without Point Correspondences,
JOSA-A(17), No. 9, September 2000, pp. 1617-1626. 0008
BibRef
Earlier: CVPR96(594-599).
IEEE Abstract.
IEEE DOI Link BibRef

Lu, C.L.[Cong-Lin], Cao, Y.[Yan], Mumford, D.[David],
Surface Evolution under Curvature Flows,
JVCIR(13), No. 1/2, March/June 2002, pp. 65-81.
WWW Version. 0204
BibRef

Kambhamettu, C., Goldgof, D.B.,
Curvature-Based Approach to Point Correspondence Recovery in Conformal Nonrigid Motion,
CVGIP(60), No. 1, July 1994, pp. 26-43.
WWW Version. BibRef 9407
Earlier:
Point Correspondence Recovery in Non-Rigid Motion,
CVPR92(222-227).
IEEE Abstract. Find matching points with changing volumes. BibRef

Kumar, S., Kambhamettu, C., Goldgof, D., Sallam, M.[Maha],
Model Based Estimation of Point Correspondences between Boundaries Undergoing Nonrigid Motion,
ICIP96(I: 359-362).
IEEE DOI Link 9610
digital mammography application BibRef

Kambhamettu, C., Goldgof, D.B., He, M.,
Determination of Motion Parameters and Estimation of Point Correspondences in Small Nonrigid Deformations,
CVPR94(943-946).
IEEE Abstract. BibRef 9400
Earlier:
On a Study of Invariant Features in Nonrigid Transformations,
WQV93(118-127). BibRef

Kambhamettu, C.[Chandra], Goldgof, D.B.[Dmitry B.], He, M.[Matthew], Laskov, P.[Pavel],
3D nonrigid motion analysis under small deformations,
IVC(21), No. 3, March 2003, pp. 229-245.
WWW Version. 0301
BibRef

Laskov, P.[Pavel], Kambhamettu, C.[Chandra],
Curvature-Based Algorithms for Nonrigid Motion and Correspondence Estimation,
PAMI(25), No. 10, October 2003, pp. 1349-1354.
IEEE Abstract. 0310
BibRef
Earlier:
Comparison of 3D Algorithms for Non-rigid Motion and Correspondence Estimation,
BMVC01(Poster Session 1).
HTML Version. University of Delaware 0110
Use Gaussian curvature for motion estimation without correspondence. BibRef

Yezzi, A.J.[Anthony J.], Soatto, S.[Stefano],
Deformotion: Deforming Motion, Shape Average and the Joint Registration and Approximation of Structures in Images,
IJCV(53), No. 2, July 2003, pp. 153-167.
WWW Version. 0304
BibRef
Earlier: A2, A1:
DEFORMOTION: Deforming Motion, Shape Average and the Joint Registration and Segmentation of Images,
ECCV02(III: 32 ff.).
HTML Version.
PDF Version. 0205
Separation of the global motion from the local deformations, using a shape average concept. See also Modified Curvature Motion for Image Smoothing and Enhancement. BibRef

Yezzi, A.J., Soatto, S.,
Structure from motion for scenes without features,
CVPR03(I: 525-532).
IEEE Abstract. 0307
BibRef

You, L.H.[Li-Hua], Zhang, J.J.,
Fast generation of 3-D deformable moving surfaces,
SMC-B(33), No. 4, August 2003, pp. 616-625.
IEEE Abstract. 0308
BibRef

Vedula, S., Baker, S., Rander, P., Collins, R.T., Kanade, T.,
Three-Dimensional Scene Flow,
PAMI(27), No. 3, March 2005, pp. 475-480.
IEEE Abstract. 0501
BibRef
Earlier: ICCV99(722-729).
IEEE DOI Link 3-D motion of points in the world. As in OF, only normal flow can be computed directly from image measurements. Scene flow from OF and constrain structure from inconsistent optical flows in multiple cameras. BibRef

Liu, Y.H.[Yong-Huai],
Automatic 3d free form shape matching using the graduated assignment algorithm,
PR(38), No. 10, October 2005, pp. 1615-1631.
WWW Version. 0508
BibRef

Liu, Y.H.[Yong-Huai], Li, L.Z.[Long-Zhuang], Wang, Y.[Ying],
Free form shape matching using deterministic annealing and softassign,
ICPR04(II: 128-131).
IEEE DOI Link 0409
BibRef

Liu, Y.H.[Yong-Huai],
A mean field annealing approach to accurate free form shape matching,
PR(40), No. 9, September 2007, pp. 2418-2436.
WWW Version. 0705
Mean field annealing; Accurate matching; Overlapping free form shapes; Registration error minimisation; Weight equalisation; Overlapping area maximisation See also Automatic Range Image Registration in the Markov Chain. BibRef

Cao, Y.[Yan], Miller, M.I.[Michael I.], Winslow, R.L.[Raimond L.], Younes, L.[Laurent],
Large Deformation Diffeomorphic Metric Mapping of Vector Fields,
MedImg(24), No. 9, September 2005, pp. 1216-1230.
IEEE DOI Link 0509
BibRef
Earlier:
Large Deformation Diffeomorphic Metric Mapping of Fiber Orientations,
ICCV05(II: 1379-1386).
IEEE DOI Link 0510
BibRef

Glaunès, J.[Joan], Qiu, A.[Anqi], Miller, M.I.[Michael I.], Younes, L.[Laurent],
Large Deformation Diffeomorphic Metric Curve Mapping,
IJCV(80), No. 3, December 2008, pp. xx-yy.
Springer DOI Link 0810
BibRef

Guo, H.Y.[Hong-Yu], Rangarajan, A.[Anand], Joshi, S.C.[Sarang C.], Younes, L.[Laurent],
A New Joint Clustering and Diffeomorphism Estimation Algorithm for Non-Rigid Shape Matching,
Non-Rigid04(16).
HTML Version. 0502
Match 2D nonrigid shapes, apply to corpus callosum. BibRef

Garcin, L., Rangarajan, A., Younes, L.,
Non rigid registration of shapes via diffeomorphic point matching and clustering,
ICIP04(V: 3299-3302).
IEEE DOI Link 0505
BibRef

Xiao, J.[Jing], Chai, J.X.[Jin-Xiang], Kanade, T.[Takeo],
A Closed-Form Solution to Non-Rigid Shape and Motion Recovery,
IJCV(67), No. 2, April 2006, pp. 233-246.
Springer DOI Link 0605
BibRef
Earlier: CMU-RI-TR-03-16, June, 2003.
HTML Version. 0501
BibRef

Xiao, J.[Jing], Kanade, T.[Takeo],
Uncalibrated Perspective Reconstruction of Deformable Structures,
ICCV05(II: 1075-1082).
IEEE DOI Link 0510
BibRef
Earlier:
Non-rigid shape and motion recovery: degenerate deformations,
CVPR04(I: 668-675).
IEEE Abstract.
HTML Version. 0408
BibRef

Xiao, J.[Jing], Georgescu, B.[Bogdan], Zhou, X.S.[Xiang Sean], Comaniciu, D.[Dorin], Kanade, T.[Takeo],
Simultaneous Registration and Modeling of Deformable Shapes,
CVPR06(II: 2429-2436).
IEEE DOI Link 0606
BibRef

Xiao, J.[Jing],
Reconstruction, Registration, and Modeling of Deformable Object Shapes,
CMU-RI-TR-05-22, May, 2005. BibRef 0505 Ph.D.Thesis.
WWW Version. BibRef

Piao, Y.[Ying], Hayakawa, K.[Kazutaka], Sato, J.[Jun],
Space-Time Invariants for Recognizing 3D Motions from Arbitrary Viewpoints under Perspective Projection,
IEICE(E89-D), No. 7, July 2006, pp. 2268-2274.
WWW Version. 0607
BibRef

Yamada, T.[Takatsugu], Sato, J.[Jun],
Space-Time Moment Invariants and Recognition of Non-Rigid Motions from Arbitrary Viewpoints,
ICPR06(II: 990-993).
IEEE DOI Link 0609
BibRef

Brand, M.[Matthew],
Modeling shape, motion, and flexion of non-rigid 3D objects in a sequence of images,
US_Patent7,006,683, Feb 28, 2006
WWW Version. BibRef 0602

Li, M.[Min], Kambhamettu, C.[Chandra], Stone, M.[Maureen],
Nonrigid motion recovery for 3D surfaces,
IVC(25), No. 3, March 2007, pp. 250-261.
WWW Version. 0701
BibRef
Earlier:
Spline-based Motion Recovery for 3D Surfaces Using Nonrigid Shape Properties,
Non-Rigid04(23).
HTML Version. 0502
Nonrigid motion; Correspondence; Spline; Shape-based methods Motion and point correspondence for 3D surfaces. Shape to recover correspondences. BibRef

Roy-Chowdhury, A.K.[Amit K.],
Towards a measure of deformability of shape sequences,
PRL(28), No. 15, 1 November 2007, pp. 2164-2172.
WWW Version. 0711
Shape sequences; Deformations; 3D modeling BibRef

Pilet, J.[Julien], Lepetit, V.[Vincent], Fua, P.[Pascal],
Fast Non-Rigid Surface Detection, Registration and Realistic Augmentation,
IJCV(76), No. 2, February 2008, pp. 109-122.
Springer DOI Link 0801
BibRef
Earlier:
Real-Time Non-Rigid Surface Detection,
CVPR05(I: 822-828).
IEEE DOI Link 0507
Award, CVPR. Detect and match surfaces, mesh model. BibRef

Salzmann, M.[Mathieu], Fua, P.[Pascal],
Reconstructing sharply folding surfaces: A convex formulation,
CVPR09(1054-1061).
IEEE DOI Link 0906
BibRef

Salzmann, M.[Mathieu], Hartley, R.I.[Richard I.], Fua, P.[Pascal],
Convex Optimization for Deformable Surface 3-D Tracking,
ICCV07(1-8).
IEEE DOI Link 0710
BibRef

Moreno-Noguer, F.[Francesc], Porta, J.M.[Josep M.], Fua, P.[Pascal],
Exploring Ambiguities for Monocular Non-Rigid Shape Estimation,
ECCV10(III: 370-383).
Springer DOI Link 1009
BibRef

Salzmann, M.[Mathieu], Fua, P.[Pascal],
Linear Local Models for Monocular Reconstruction of Deformable Surfaces,
PAMI(33), No. 1, January 2011, pp. 931-944.
IEEE DOI Link 1104
3D from single viewpoint. Resolve ambiguities based on likely deformations. BibRef

Moreno-Noguer, F.[Francesc], Salzmann, M.[Mathieu], Lepetit, V.[Vincent], Fua, P.[Pascal],
Capturing 3D stretchable surfaces from single images in closed form,
CVPR09(1842-1849).
IEEE DOI Link 0906
BibRef

Salzmann, M.[Mathieu], Moreno-Noguer, F.[Francesc], Lepetit, V.[Vincent], Fua, P.[Pascal],
Closed-Form Solution to Non-rigid 3D Surface Registration,
ECCV08(IV: 581-594).
Springer DOI Link 0810
See also Surface Deformation Models for Nonrigid 3D Shape Recovery. BibRef

Salzmann, M.[Mathieu], Lepetit, V.[Vincent], Fua, P.[Pascal],
Deformable Surface Tracking Ambiguities,
CVPR07(1-8).
IEEE DOI Link 0706
BibRef

Varol, A.[Aydin], Salzmann, M.[Mathieu], Tola, E.[Engin], Fua, P.[Pascal],
Template-free Monocular Reconstruction of Deformable Surfaces,
ICCV09(1811-1818).
IEEE DOI Link
PDF Version. 0909
BibRef

Salzmann, M.[Mathieu], Urtasun, R.[Raquel],
Combining discriminative and generative methods for 3D deformable surface and articulated pose reconstruction,
CVPR10(647-654).
IEEE DOI Link Video of talk:
WWW Version. 1006
BibRef

Liu, W.Y.[Wen-Yu], Li, H.[Hua], Zhu, G.X.[Guang-Xi],
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Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Nonrigid, Deformable Motion Tracking .