1. Bioengineering Analysis of Muscle Mechanics and Metabolism (2003-2005), NIH, USA, PI: S. Mijailovich.
  2. MULTIMOD, International Europian project for software development of clinical information system for orthopedic clinic in Bologna, 2003-2005,  PI Dr MarcoViceconti, University of Bolognia, Italy, Coordinator for Serbia, Prof. Dr Nenad Filipovic
  3. Bilateral program of scientific and technological collaboration between Serbia and Greece, 2004-2006, Development of an Anatomical Model for the Simulation of Excitation Propagation And Cardiac Biomechanics, Coordinator in Serbia Prof. Dr Nenad Filipovic, Coordinator in Greece Prof. Dr Dimitrios I.Fotiadis
  4. Particles in Developing Lung: Bioengineering Approach, NHLBI Prime Grant 5 R01 HL070542-03. Harvard University and University of Kragujevac, 2004-2008. PI, Prof. Dr Akira Tsuda.
  5. SEE-GRID-2, South East European GRID enabled eInfrastructure Development (2006-2008), FP6, PI Dr. Ognjen Prnjat, GRNET.
  6. Development of a software-hardware system for biomechanical analysis of athletes, 451-03-0065/2012-16/186, Ministry of Education, Science and Technological Development, 2012-2013.
  7. ARTreat, Multi-level patient-specific artery and atherogenesis model for outcome prediction, decision support treatment, and virtual hand-on training, ICT-FP7 – 224297, University of Kragujevac 01.09.2008. – 31.08.2011.
  8. SIFEM, Semantic Infostructure interlinking an open source Finite Element tool and libraries with a model repository for the multi-scale Modelling and 3d visualization of the inner-ear, European Commision FP7 ICT-2011.5.2, Virtual Physiological Human, 2013-2016.
  9. INN-VIN, Innovative materials solutions for Transport, Energy and Biomedical sectors by strengthening integration and enhancing research dynamics of KMM-VIN, European Commision FP7-NMP-2011-CSA-5, 2012-2015.
  10. EMBalance, A Decision Support System incorporating a validated patient-specific, multi-scale Balance Hypermodel towards early diagnostic Evaluation and efficient Management plan formulation of Balance Disorders, European Commision, FP7-ICT-2013-10, 2012-2016.
  11. MUST, Mulit-Level Protection of Materials for Vehicles by "SMART" Nanocontainers, European Commision, FP7-NMP-2007-LARGE-1, 2008-2012.



  1. M. Kojic, S. Mijailovic, N. Zdravkovic, A numerical algorithm for stress integration of a fiber-fiber kinetics model with Coulomb friction for connective tissue,  Computational Mechanics, Vol. 21, No. 2, pp. 189-198, 1998.
  2. M. Kojic, S. Mijailovic, N. Zdravkovic, Modelling of muscle behavior by the finite element method using Hill's three-element model,  Int. J. Num. Meth. Engng., Vol. 43, pp. 941-953, 1998.
  3. M. Kojic, N. Filipovic, S. Vulovic, S. Mijailovic, A finite element solution procedure for porous medium with fluid flow and electromechanical coupling, Comm. Num. Meth. Engng, Vol. 14, pp. 381-392, 1998.
  4. S. Radlovic, M. Kojic, Z. Petrovic, I. Vlastelica, B. Stojanovic, Finite element method application in implantology, Stom. Glasnik (Serbian), Vol. 45, 137-140, 1998.
  5. M. Kojic, N. Filipovic, S. Mijailovic, A large strain finite element analysis of cartilage deformation with electrokinetic coupling, Comp. Meth. Appl. Mech. Engng., Vol. 190, pp.  2447-2464,  2001.
  6. S. Mijailovich, M. Kojic, M. Zivkovic, B. Fabry, J. Fredberg, A finite element model of cell deformation during magnetic bead twisting, J. Appl. Physiol., Vol. 93, pp. 1429-1436, 2002.
  7. M. Kojic, N. Zdravkovic, S. Mijailovic, A numerical stress calculation procedure for a fiber-fiber kinetics model with Coulomb and viscous friction of connective tissue, Computational Mechanics, Vol. 30, pp. 185-195, 2003.
  8. N. Filipovic, M. Kojic,  Computer simulations of blood flow with mass transport through the carotid artery bifurcation, Theoret. Appl. Mech. (Serbian), Vol. 31, No. 1, pp. 1-33, 2004.
  9. M. Kojic, A. Tsuda, Gravitational deposition of aerosols from oscillatory laminar pipe flows, J. Aerosol Science, Vol. 35, pp. 245-261, 2004.
  10. N. Kojic, M. Kojic, S. Gudlavalleti, G. McKinley, Solvent removal during synthetic and Nephila fiber spinning, Biomacromolecules, Vol. 5, No. 5, 1698-1707, 2004.
  11. C. Y. Tang, B. Stojanovic, C. P. Tsui, M. Kojic, Modeling of muscle fatigue using Hill's model, Bio-Medical Materials and Engng., Vol. 15, No. 5, 2005.
  12. Milos Kojic and K. J. Bathe, Inelastic Analysis of Solids and Structures, Springer Verlag, 2005.
  13. N. Filipovic, S. Mijailovic, A. Tsuda, M. Kojic, An implicit algorithm within the arbitrary Lagrangian-Eurlerian formulation for solving incompressible fluid flow with large boundary motions,Comp. Meth. Appl. Mech. Eng., 95, 6347-6361, 2006.
  14. N. Kojic, M. Kojic, D. Tschumperlin, Computational modeling of extracellular mechanotransduction, Biophysical Journal, Vol 90, 4, Issue 11, 4261-4270, 2006.
  15. N. Kojic, A. Kojic, M. Kojic, Numerical determination of the solvent diffusion coefficient in a concentrated polymer solution, Comm. Num. Meth. Eng., Vol. 22, 1003-1013, 2006.
  16. S. Haber, N. Filipovic, M. Kojic, A. Tsuda, Dissipative particle dynamics simulation of flow generated by two rotating concentric cylinders. Part I: Boundary conditions, Physical Review E, Vol. 74, 1-8, 2006.
  17. M. Kojic, I. Vlastelica, B. Stojanovic, V. Rankovic, A. Tsuda,  Stress integration procedures for a biaxial isotropic material model of biological membranes and for hysteretic models of muscle fibers and surfactant, Int. J. Num. Meth. Engng., Vol 68, 893-909, 2006.
  18. B. Stojanovic, M. Kojic, M. Rosic, C.P. Tsui, C.Y. Tang,  An extension of Hill’s three-component model to include different fiber types in finite element modelling of muscle, Int. J. Num. Meth. Eng., 71, 801-817, 2007.
  19. M. Kojic, N. Filipovic, A. Tsuda,  A mesoscopic bridging scale method for fluids and coupling dissipative particle dynamics with continuum finite element method, Comp. Meth. Appl. Mech. Eng., 197, 821-833, 2008
  20. Filipovic N, Haber S, Kojic M. and Tsuda A., Dissipative Particle Dynamics Simulation of Flow Generated by Two Rotating Concentric Cylinders. Part II: Lateral Dissipative and Random Forces, Phys. Rev. E., in review.
  21. CY Tang, CP Tsui, B Stojanovic, M Kojic. Finite element modelling of skeletal muscles coupled with fatigue, Int. J. Mech. Sciences, 49,  1179-1191, 2007.
  22. N. Filipovic, D. Ravnic, M. Kojic, S.J. Mentzer, S. Haber, A. Tsuda, Interactions of blood cell constituents: Experimental investigation and computatonal modeling by discrete particle dynamics algorithm,  Microvascular Research, 75, 279-284, 2008.
  23. M. Rosic, S. Pantovic, V. Rankovic, Z. Obradovic, N. Filipovic, M. Kojic,  Evaluatiopn of dynamic response and biomechanical properties of isolated blood vessels, J. Biochem. Biophys. Methods, in press.
  24. M. Kojic, N. Filipovic, B. Stojanovic, N. Kojic, Computer Modeling in Bioengineering – Theoretical Background, Examples and Software, J. Wiley and Sons, in press.
  25. N. Filipovic, D. Milasinovic, N. Zdravkovic, D. Böckler, H. vonTengg-Kobligk, Impact of aortic repair based on flow field computer simulation within the thoracic aorta, Computer Methods and Programs in Biomedicine, 101(3): 243-252, 2011.
  26. N. Filipovic, D. Milasinovic, N. Jagic, V. Miloradovic, H. Hetterich, J. Rieber, Numerical simulation of the flow field and mass transport pattern within the coronary artery, Computer Methods in Biomechanics and Biomedical Engineering, 14(4): 379-388, 2011.
  27. Filipovic N., Isailovic V., Djukic T., Ferrari M., Kojic M., Multiscale Modeling of Circular and Elliptical Particles in Laminar Shear Flow, IEEE transactions on biomedical engineering, Vol.59, No.1, pp. 50-53, Doi 10.1109/TBME.2011.2166264, 2012.
  28. Filipovic N., Teng Z., Radovic M., Saveljic I., Fotiadis D., Parodi O., Computer simulation of three dimensional plaque formation and progression in the carotid artery, Medical & Biological Engineering & Computing, Doi 10.1007/s11517-012-1031-4, 2012.
  29. N. Filipovic, M. Rosic, I. Tanaskovic, Z. Milosevic, D. Nikolic, N. Zdravkovic, A. Peulic, D. Fotiadis, O. Parodi, Three-dimensional Numerical Simulation of Plaque Formation and Development in the Arteries, Information Technology in Biomedicine, Vol.16, No.2, pp. 272-278, 2012.
  30. O. Parodi, T. Exarchos, P. Marraccini, F. Vozzi, Z. Milosevic, D. Nikolic, A. Sakellarios, P. Siogkas, D.Fotiadis, N.Filipovic, Patient-specific prediction of coronary plaque growth from CTA angiography: a multiscale model for plaque formation and progression, Information Technology in Biomedicine, Vol.16, No.5, pp. 952-956, 2012.
  31. Z. Bosnić, P. Vračar, M. Radović, G. Devedžić, N. Filipović, and Igor Kononenko, Mining Data from Hemodynamic Simulations for Generating Prediction and Explanation Models, Transactions on Information Technology in Biomedicine, Vol.16, No.2, pp. 248-254, ISSN 1089-7771, Doi 10.1109/TITB.2011.2164546, 2012.
  32. A.Tsuda, F.S.Henry, S.Haber, D.Haberthür, N.Filipovic, D.Milasinovic, J.Schittny, The simultaneous role of an alveolus as flow mixer and flow feeder for the deposition of inhaled submicron particles, Doi 10.1115/1.4007949, 2012.
  33. Filipovic N, Nikolic D, Saveljic I, Djukic T, Adjic O, Kovacevic P, Cemerlic-Adjic N, Velicki L, Computer simulation of thromboexclusion of the complete aorta in the treatment of chronic type B aneurysm, Computer Aided Surgery, Vol. 18, No.1-2, pp. 1-9, 2013, doi: 10.3109/10929088.2012.741145.
  34. Nenad Filipovic, Zhongzhao Teng, Milos Radovic, Igor Saveljic, Dimitris Fotiadis and Oberdan Parodi, Computer simulation of three dimensional plaque formation and progression in the carotid artery, Medical & Biological Engineering & Computing, Vol. 51, No.6, pp. 607-616, 2013, doi: 10.1007/s11517-012-1031-4.
  35. Nenad Filipovic, Dalibor Nikolic, Igor Saveljic, Zarko Milosevic, Themis Exarchos, Gualtiero Pelosi and Oberdan Parodi, Computer simulation of three dimensional plaque formation and progression in the coronary artery, Computers and Fluids, Vol. 88, pp. 826-833. 2013, doi:
  36. Filipovic N, Nikolic D, Saveljic I, Tanaskovic I, Zdravkovic N, Zivanovic A, Arsenijevic P, Jeremic B and Arsenijevic S, Computer simulation of cervix tissue response to a hydraulic dilator device, Theoretical Biology and Medical Modelling, Vol. 10, No.64, 2013, doi:10.1186/1742-4682-10-64.
  37. Aleksandar Peulić, Emil Jovanov, Miloš Radović, Igor Saveljić, Nebojša Zdravković, Nenad Filipović, Modeling of Arterial Stiffness using Variations of Pulse Transit Time, Computer Science and Information Systems / ComSIS, Vol. 10, No. 1, pp. 547-565, 2013, doi:10.2298/CSIS120531015P.