Books & Book Chapters

Books

Younes L. (2010). “Shapes and Diffeomorphisms”. Applied Mathematical Sciences, Antman S.S., J.E. Marsden and L. Sirovich, Heidelberg, Dordrecht, London, New York, Springer, 438.

Vidal R., Y. Ma and S. Sastry (2010). “Generalized Principal Component Analysis”. Springer.

Vidal R., A. Heyden and Y. Ma (2007). “Dynamical Vision”. Lecture Notes in Computer Science #4358, Springer.

Grenander U. and M. I. Miller (2007). “Pattern Theory from Representation to Inference”. Oxford, UK, Oxford University Press.

Vidal R. (2006). “Segmentation of Dynamic Scenes Taken by a Central Panoramic Camera”. Imaging Beyond the Pinhole Camera, New York, Springer-Verlag.

Gangaputra S. and D. Geman (2006). “The Trace Model for Object Detection and Tracking”. Lecture Notes in Computer Science, Ponce J., Berlin, Springer-Verlag, 401-420.

Younes L. (2003). “Invariance, Deformations et Reconnaissance de formes”. New York, Springer, Berlin.

Snyder D. L. and M. I. Miller (1991). “Random Point Processes in Time and Space”. New York, Springer-Verlag.

Book Chapters

Trouve A. and L. Younes (2011). “Shape Spaces”. Handbook of Mathematical Methods in Imaging, Scherzer O., Springer, 1309-1362.

Mac Gabhann F., M.O. Stefanini and A.S. Popel (2011). “Simulating therapeutics using multiscale models of the VEGF receptor system in cancer”. Modeling Tumor Vasculature: Molecular, Cellular, and Tissue Level Aspects and Implications, Jackson T.L., Springer, 37-54.

Vadakkumpadan F., V. Gurev, J. Constantino, H. Arevalo and N.A. Trayanova (2010). “Modeling of Whole-Heart Electrophysiology and Mechanics: Towards Patient-Specific Simulations”. Patient-Specific Modeling of the Cardiovascular System: Technology-Driven Personalized Medicine, Kerckhoffs R., Springer, pp. 145-165.

Qutub A.A., F. Mac Gabhann, E.D. Karagiannis and A.S. Popel (2009). “In silico modeling of angiogenesis at multiple scales: From nanoscale to organ system. (Review)”. Multiscale Modeling of Particle Interactions: Applications in Biology and Nanotechnology, King M.R. and D.J. Gee, Hoboken, New Jersey, Wiley, 287-320.

Lee N.A., C. Priebe, J. T. Ratnanather and M. I. Miller (2007). “Validation off alternating kernel mixture method based segmentation off the human brain”. Frontiers in the Convergence of Bioscience and Information Technologies, 2007. FBIT 2007, Jeju City.

Winslow R. L., J. L. Greenstein and P. A. Helm (2006). “Biophysical Models of the Cardiovascular System”. Systems Biology Volume II: Networks, Models, and Applications, Rigoutsos I. and G. Stephanopoulos, Oxford University Press, 265-296.

Glaunes J., A. Trouve and L. Younes (2006). “Modeling Planar Shape Variation via Hamiltonian Flows of Curves”. Statistics and Analysis of Shapes, Krim H. and A. Yezzi, New York, Springer Birkhauser , 335-361.

Bober M. and R. L. Winslow (2006). “Developing Computational Resources in Cardiac Gene Expression”. Methods in Molecular Biology, vol 366: Cardiac Gene Expression: Methods and Protocols, Zhang J. and G. Rokosh, Totowa, NJ., Humana Press Inc., 253-263.

Winslow R. L., R. Hinch and J. L. Greenstein (2005). “Mechanisms and Models of cardiac Excitation-Contraction Coupling”. Synapses and Muscle, Sneyd J. and A. Friedman, Springer-Verlag, 97-131.

Winslow R. L. (2005). “Chapter 16: Cellular Models”. Databasing the Brain: From Data to Knowledge, Koslow S. and S. Subramaniam, Hoboken, NJ, John Wiley and Sons, Ltd..

Mittal R. and G. Iaccarino (2005). “Immersed Boundary Methods”. Annual Review of Fluid Mechanics, 239-61.

Madhusudhan M., M. Marti-Renom, N. Eswar, B. John, U. Pieper, R. Karchin, M. Shen and A. Sali (2005). “Comparative Protein Structure Modeling”. The Proteomics Protocols Handbook , Walker J. M., Totowa, N.J., Humana Press Inc., 831-860.

Winslow R. L. (2004). “Proteomics Section Editor”. The Wiley Interscience Encyclopedia of Genetics, Genomics, Proteomics and Bioinformatics, Jorde L. B., P. F. R. Little, M. Dunn and S. Subramaniam, Chichester, UK, John Wiley and Sons, Ltd..

Trayanova N., F. Aguel, C. Larson and C. Haro (2004). “Modeling cardiac defibrillation: An inquiry into post-shock dynamics”. Cardiac Electrophysiology: From Cell to Bedside, Philadelphia, Saunders, 282-291.

Mittal R. (2004). “Computational Biohydrodynamics: Trends, Challenges and Recent Advances”. IEEE Journal of Oceanic Engineering, 595-604.

Winslow R. L. (2003). “Modeling Cardiac Function”. Complex Systems in Biomedicine, Deisboeck T., T. Kepler and Y. Kresh, New York, Kluwer Academic Press.

Geman D. (2003). “Coarse-to-Fine Classification and Scene Labeling”. Nonlinear Estimation and Classification: Lecture Notes in Statistics, Denison D. D., M. Hansen, C. C. Holmes, B. Mallick and B. Yu, New York, Springer-Verlag, 31-48.

Trayanova N., J. Eason, C. Anderson and F. Aguel (2002). “Computer modeling of defibrillation II: Why does the shock fail?”. Quantitative Cardiac Electrophysiology, Cabo C. and D. Rosenbaum, New York, Marcel Dekker, 235-256.

Trayanova N. (2001). “Induction of reentry and defibrillation: The role of virtual electrodes”. Computer Simulation and Experimental Assessment of Cardiac Function, Virag N., L. Kappenberger and O. Blanc, New York, Futura Publishing Co, 165-172.

Srivastava A., A. D. Lanterman, U. Grenander, M. Loizeaux and M. I. Miller (2001). “Monte Carlo Techniques for Automated Target Recognition”. Sequential Monte Carlo Methods in Practice, New York, Springer-Verlag, 533-552.

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