8.7.2.1 Tracking Applied to Heart Images

Chapter Contents (Back)
Deformable Curves. Contour Matching. Cardiac Motion. Heart.
See also Deformable Models, Cardiac Motion Models for Volumes, Left Ventricle.

Dumay, A.C.M., Claessens, M.N.A.J., Roos, C., Gebrands, J.J., and Reiber, J.H.C.,
Object Delineation in Noisy Images by a Modified Policy-Iteration Method,
PAMI(14), No. 9, September 1992, pp. 952-958.
IEEE DOI Examples on heart images. BibRef 9209

Manhaeghe, C.[Carlos], Lemahieu, I.[Ignace], Vogelaers, D.[Dirk], and Colardyn, F.[Francis],
Automatic Initial Estimation of the left Ventricular Myocardial Midwall in Emission Tomograms Using Kohonen Maps,
PAMI(16), No. 3, March 1994, pp. 259-266.
IEEE DOI BibRef 9403

Figueiredo, M.A.T.[Mário A.T.], and Leitao, J.M.N.,
Bayesian Estimation of Ventricular Contours in Angiographic Images,
MedImg(11), No. 3, September 1992, pp. 416-129.
IEEE Top Reference. BibRef 9209

Figueiredo, M.A.T., Leitao, J.M.N., Jain, A.K.[Anil K.],
Unsupervised Contour Representation and Estimation Using B-Splines and a Minimum Description Length Criterion,
IP(9), No. 6, June 2000, pp. 1075-1087.
IEEE DOI 0006
BibRef
Earlier:
Adaptive B-Splines and Boundary Estimation,
CVPR97(724-730).
IEEE DOI 9704
Snakes. BibRef

Ruiz, E.E.S., Fairhurst, M.C.,
Improved Approach to Boundary Location in 2-Dimensional Echocardiographic Images,
VISP(142), No. 3, June 1995, pp. 121-127. BibRef 9506

Reinhardt, J.M.[Joseph M.], Wang, A.J.[Andrien J.], Weldon, T.P.[Thomas P.], Higgins, W.E.[William E.],
Cue-Based Segmentation of 4D Cardiac Image Sequences,
CVIU(77), No. 2, February 2000, pp. 251-262.
DOI Link 0003
BibRef

McEachen, II, J.C.[John C.], and Duncan, J.S.[James S.],
Shape-Based Tracking of Left Ventricular Wall Motion,
MedImg(16), No. 3, June 1997, pp. 270-283.
IEEE Top Reference. BibRef 9706

McEachen, II, J.C., and Duncan, J.S.[James S.],
Shape-Based Tracking of Naturally Occurring Annuli in Image Sequences,
CVPR93(613-614).
IEEE DOI BibRef 9300

McEachen, II, J.C.[John C.], Meyer, F.G.[Francois G.], Constable, R.T.[R. Todd], Nehorai, A.[Arye], Duncan, J.S.[James S.],
A Recursive Filter for Phase Velocity Assisted Shape-Based Tracking of Cardiac Non-Rigid Motion,
ICCV95(653-658).
IEEE DOI Tracking contours. BibRef 9500

Meyer, F.G.[Francois G.], Constable, R.T.[R. Todd], Sinusas, A.J.[Albert J.], and Duncan, J.S.[James S.],
Dense Non-Rigid Motion Tracking from a Sequence of Velocity Fields,
CVPR96(839-844).
IEEE DOI BibRef 9600

McEachen, II, J.C., Nehorai, A., Duncan, J.S.,
Multiframe Temporal Estimation of Cardiac Nonrigid Motion,
IP(9), No. 4, April 2000, pp. 651-665.
IEEE DOI 0004
BibRef

Shi, P.C.[Peng-Cheng], Sinusas, A.J., Constable, R.T., Ritman, E., Duncan, J.S.,
Point-tracked quantitative analysis of left ventricular surface motion from 3-D image sequences,
MedImg(19), No. 1, January 2000, pp. 36-50.
IEEE Top Reference. 0110
BibRef

Shi, P.C.[Peng-Cheng], Robinson, G.[Glynn], Constable, R.T.[R. Todd], Sinusas, A.J.[Albert J.], Duncan, J.S.[James S.],
A Model-Based Integrated Approach to Track Myocardial Deformation Using Displacement and Velocity Constraints,
ICCV95(687-692).
IEEE DOI Also some related papers in the snakes section. BibRef 9500

Shi, P.C., Robinson, G., Chakraborty, A., Staib, L.H., Constable, R.T., Sinusas, A.J., Duncan, J.S.,
A Unified Framework to Assess Myocardial Function from 4D Images,
CVRMed95(XX-YY) BibRef 9500

Papademetris, X., Sinusas, A.J., Dione, D.P., Constable, R.T., Duncan, J.S.,
Estimation of 3-d left ventricular deformation from medical images using biomechanical models,
MedImg(21), No. 7, July 2002, pp. 786-799.
IEEE Top Reference. 0210

See also Local Shape Registration Using Boundary-Constrained Match of Skeletons.
See also Nonrigid Intraoperative Cortical Surface Tracking Using Game Theory. BibRef

Zhu, Y.[Yun], Papademetris, X.[Xenophon], Sinusas, A.J.[Albert J.], Duncan, J.S.[James S.],
Segmentation of the Left Ventricle From Cardiac MR Images Using a Subject-Specific Dynamical Model,
MedImg(29), No. 3, March 2010, pp. 669-687.
IEEE DOI 1003
BibRef
Earlier:
Segmentation of left ventricle from 3D cardiac MR image sequences using a subject-specific dynamical model,
CVPR08(1-8).
IEEE DOI 0806
BibRef
And:
Integrated segmentation and motion analysis of cardiac MR images using a subject-specific dynamical model,
MMBIA08(1-8).
IEEE DOI 0806
BibRef

Meijering, E.H.W., Niessen, W.J., Viegever, M.A.,
Retrospective Motion Correction in Digital Subtraction Angiography: A Review,
MedImg(18), No. 1, January 1999, pp. 2-21.
IEEE Top Reference. 0110
BibRef

Close, R.A., Whiting, J.S.,
Comments on 'Retrospective motion correction in digital subtraction angiography: a review',
MedImg(18), No. 6, June 1999, pp. 556. 0110
BibRef

Tagare, H.D.,
Shape-based nonrigid correspondence with application to heart motion analysis,
MedImg(18), No. 7, July 1999, pp. 570-579.
IEEE Top Reference. 0110
BibRef

Chan, R.C., Karl, W.C., Lees, R.S.,
A new model-based technique for enhanced small-vessel measurements in X-ray cine-angiograms,
MedImg(19), No. 3, March 2000, pp. 243-255.
IEEE Top Reference. 0110
BibRef
Earlier:
Quality Enhancement of Arterial Measurements Based on a More Accurate Stochastic Model of X-Ray Cine-Angiography,
ICIP97(III: 508-511).
IEEE DOI BibRef

Weisenseel, R.A., Karl, W.C., Chan, R.C.,
Shared-boundary fusion for estimation of noisy multi-modality atherosclerotic plaque imagery,
ICIP02(III: 157-160).
IEEE DOI 0210
BibRef

Suter, D., Chen, F.,
Left ventricular motion reconstruction based on elastic vector splines,
MedImg(19), No. 4, April 2000, pp. 295-305.
IEEE Top Reference. 0110
BibRef

Mishra, A., Dutta, P.K., Ghosh, M.K.,
Non-rigid cardiac motion quantification from 2D image sequences based on wavelet synthesis,
IVC(19), No. 13, November 2001, pp. 929-939.
Elsevier DOI 0111
BibRef

Sarry, L., Boire, J.Y.,
Three-dimensional tracking of coronary arteries from biplane angiographic sequences using parametrically deformable models,
MedImg(20), No. 12, December 2001, pp. 1341-1351.
IEEE Top Reference. 0201
BibRef

Mignotte, M.[Max], Meunier, J.[Jean], Tardif, J.C.[Jean-Claude],
Endocardial Boundary Estimation and Tracking in Echocardiographic Images using Deformable Template and Markov Random Fields,
PAA(4), No. 4 2001, pp. 256-271.
Springer DOI 0202
BibRef

Ben Salah, M.[Mohamed], Mitiche, A.[Amar], Ben Ayed, I.[Ismail],
Multiregion Image Segmentation by Parametric Kernel Graph Cuts,
IP(20), No. 2, February 2011, pp. 545-557.
IEEE DOI 1102
BibRef
Earlier:
Image partitioning with kernel mapping and graph cuts,
ICIP10(245-248).
IEEE DOI 1009
BibRef

Ben Salah, M.[Mohamed], Ben Ayed, I.[Ismail], Mitiche, A.[Amar],
Active Curve Recovery of Region Boundary Patterns,
PAMI(34), No. 5, May 2012, pp. 834-849.
IEEE DOI 1204
Via variational level set, active curve match with boundaries. BibRef

Ben Salah, M., Ben Ayed, I., Yuan, J.[Jing], Zhang, H.[Hong],
Convex-Relaxed Kernel Mapping for Image Segmentation,
IP(23), No. 3, March 2014, pp. 1143-1153.
IEEE DOI 1403
convex programming BibRef

Ben Salah, M., Ben Ayed, I., Yuan, J.[Jing], Zhang, H.[Hong], Zhang, H.,
Convex relaxation for image segmentation by kernel mapping,
ICIP12(289-292).
IEEE DOI 1302
BibRef

Ben Ayed, I.[Ismail], Punithakumar, K.[Kumaradevan], Li, S.[Shuo],
Distribution Matching with the Bhattacharyya Similarity: A Bound Optimization Framework,
PAMI(37), No. 9, September 2015, pp. 1777-1791.
IEEE DOI 1508
Active contours BibRef

Ben Ayed, I.[Ismail], Chen, H.M.[Hua-Mei], Punithakumar, K.[Kumaradevan], Ross, I.[Ian], Li, S.[Shuo],
Graph cut segmentation with a global constraint: Recovering region distribution via a bound of the Bhattacharyya measure,
CVPR10(3288-3295).
IEEE DOI 1006
BibRef

Punithakumar, K.[Kumaradevan], Ben Ayed, I.[Ismail], Islam, A.[Ali], Ross, I.[Ian], Li, S.[Shuo],
Tracking Endocardial Boundary and Motion via Graph Cut Distribution Matching and Multiple Model Filtering,
ACCV09(III: 172-182).
Springer DOI 0909
BibRef

Dong, S.[Shunjie], Pan, Z.X.[Zi-Xuan], Fu, Y.[Yu], Xu, D.W.[Dong-Wei], Shi, K.Y.[Kuang-Yu], Yang, Q.Q.[Qian-Qian], Shi, Y.[Yiyu], Zhuo, C.[Cheng],
Partial Unbalanced Feature Transport for Cross-Modality Cardiac Image Segmentation,
MedImg(42), No. 6, June 2023, pp. 1758-1773.
IEEE DOI 2306
Image segmentation, Training, Noise measurement, Task analysis, Probabilistic logic, Generative adversarial networks, cardiac segmentation BibRef

Hu, X.R.[Xin-Rong], Wang, C.[Corey], Shi, Y.[Yiyu],
Contrastive Image Synthesis and Self-supervised Feature Adaptation for Cross-Modality Biomedical Image Segmentation,
CVAMD23(2329-2338)
IEEE DOI 2401
BibRef


Zhao, Z.[Zhou], Puybareau, É.[Élodie], Boutry, N.[Nicolas], Géraud, T.[Thierry],
Do not Treat Boundaries and Regions Differently: An Example on Heart Left Atrial Segmentation,
ICPR21(7447-7453)
IEEE DOI 2105
Heart, Training, Image segmentation, Shape, Heart beat, Magnetic resonance imaging BibRef

Burden, A., Cote, M., Albu, A.B.,
Fast and Accurate Tracking of Highly Deformable Heart Valves with Locally Constrained Level Sets,
CRV17(109-116)
IEEE DOI 1804
biomechanics, cardiology, deformation, image motion analysis, image segmentation, medical image processing, video analysis BibRef

Tong, Q., Yuan, Z., Liao, X., Zheng, M., Zhu, W., Zhang, G., Ning, M.,
A joint multi-scale convolutional network for fully automatic segmentation of the left ventricle,
ICIP17(3110-3114)
IEEE DOI 1803
Avalanche photodiodes, Convolutional neural networks, Feature extraction, Image segmentation, Manuals, Standards, Training, multi-scale representation BibRef

Liu, Y.[Yu], Zhao, Y.[Yue], Guo, S.[Shuxu], Zhang, S.X.[Shao-Xiang], Li, C.M.[Chun-Ming],
Edge Based Segmentation of Left and Right Ventricles Using Two Distance Regularized Level Sets,
ISVC15(II: 205-212).
Springer DOI 1601
BibRef

Dietenbeck, T., Barbosa, D., Alessandrini, M., d'Hooge, J., Friboulet, D., Bernard, O.,
A level-set approach for tracking objects in image sequences using a level conservation constraint: Application to cardiac sequences,
ICIP14(863-866)
IEEE DOI 1502
Active contours BibRef

Skalski, A.[Andrzej], Turcza, P.[Pawel], Zielinski, T.[Tomasz],
Displacement Calculation of Heart Walls in ECG Sequences Using Level Set Segmentation and B-Spline Free Form Deformations,
ICCVG10(II: 268-275).
Springer DOI 1009
BibRef

Gotardo, P.F.U.[Paulo F. U.], Boyer, K.L.[Kim L.], Saltz, J.[Joel], Raman, S.V.[Subha V.],
A New Deformable Model for Boundary Tracking in Cardiac MRI and Its Application to the Detection of Intra-Ventricular Dyssynchrony,
CVPR06(I: 736-743).
IEEE DOI 0606
BibRef

Sheng, C.[Chen], Xin, Y.[Yang],
Shape Image Retrieval Using Elastic Matching Combined with Snake Model,
CIAP05(511-518).
Springer DOI 0509
BibRef

Sheng, C.[Chen], Xin, Y.[Yang], Liping, Y.[Yao], Kun, S.[Sun],
Segmentation in Echocardiographic Sequences Using Shape-Based Snake Model,
CIAP05(375-382).
Springer DOI 0509
BibRef

Mignotte, M.[Max], Meunier, J.[Jean],
Deformable Template and Distribution Mixture-based Data Modeling for the Endocardial Contour Tracking in an Echographic Sequence,
CVPR99(I: 225-230).
IEEE DOI BibRef 9900

Jacob, G.[Gary], Noble, J.A.[J. Alison], and Blake, A.[Andrew],
Robust Contour Tracking in Echocardiographic Sequences,
ICCV98(408-413).
IEEE DOI BibRef 9800
And: BMVC97(xx-yy).
HTML Version. 0209
BibRef

Yamada, H., Tsutsui, K.,
Elastic Edge Sequence Matching Method for Global Extraction and Local Tracking of Echocardiogram,
ICPR96(I: 637-641).
IEEE DOI 9608
(Electrotechnical Laboratory, J) BibRef

Coatrieux, J.L., Mao, F., Toumoulin, C., Collorec, R.,
2-D and 3-D Motion Analysis in Digital Subtraction Angiography,
CVRMed95(XX-YY) BibRef 9500

Sato, Y., Chen, J., Yamamoto, S., Tamura, S., Harada, N., Shiga, T., Harino, S., Oshima, Y.,
Measuring Microcirculation Using Spatiotemporal Image Analysis,
CVRMed95(XX-YY) BibRef 9500

Baroni, M., Congiu, G., del Bimbo, A., Evangelisti, A., Vicario, E.,
Symbolic indexing of cardiological sequences through dynamic curve representations,
CIAP95(621-626).
Springer DOI 9509
BibRef

Sullivan, G.D., Worrall, A.D., Hockney, R.W., Baker, K.D.,
Active contours in medical image processing using a networked SIMD array processor,
BMVC90(xx-yy).
PDF File. 9009
BibRef

Chapter on 2-D Region Segmentation Techniques, Snakes, Active Contours continues in
Tracking Deformable Shapes .


Last update:Mar 16, 2024 at 20:36:19