| Toward a mathematical theory of Keller–Segel models of pattern formation in biological tissues N Bellomo, A Bellouquid, Y Tao, M Winkler Mathematical Models and Methods in Applied Sciences 25 (09), 1663-1763, 2015 | 1024 | 2015 |
| Multiscale biological tissue models and flux-limited chemotaxis for multicellular growing systems N Bellomo, A Bellouquid, J Nieto, J Soler Mathematical Models and Methods in Applied Sciences 20 (07), 1179-1207, 2010 | 194 | 2010 |
| Mathematical modeling of complex biological systems A Bellouquid, M Delitala Birkhũser Boston, 2006 | 180 | 2006 |
| Mathematical topics on the modelling complex multicellular systems and tumor immune cells competition N Bellomo, A Bellouquid, M Delitala Mathematical Models and Methods in Applied Sciences 14 (11), 1683-1733, 2004 | 139 | 2004 |
| On the asymptotic theory from microscopic to macroscopic growing tissue models: An overview with perspectives N Bellomo, A Bellouquid, J Nieto, J Soler Mathematical Models and Methods in Applied Sciences 22 (01), 1130001, 2012 | 131 | 2012 |
| From the microscale to collective crowd dynamics N Bellomo, A Bellouquid, D Knopoff Multiscale Modeling & Simulation 11 (3), 943-963, 2013 | 127 | 2013 |
| Multicellular biological growing systems: Hyperbolic limits towards macroscopic description N Bellomo, A Bellouquid, J Nieto, J Soler Mathematical Models and Methods in Applied Sciences 17 (supp01), 1675-1692, 2007 | 126 | 2007 |
| Mathematical methods and tools of kinetic theory towards modelling complex biological systems A Bellouquid, M Delitala Mathematical models and methods in applied sciences 15 (11), 1639-1666, 2005 | 118 | 2005 |
| From a multiscale derivation of nonlinear cross-diffusion models to Keller–Segel models in a Navier–Stokes fluid N Bellomo, A Bellouquid, N Chouhad Mathematical Models and Methods in Applied Sciences 26 (11), 2041-2069, 2016 | 103 | 2016 |
| Modelling Complex Multicellular Systems-A Kinetic Theory Approach A Bellouquid, M Delitala Birkäuser, Boston, 2006 | 99* | 2006 |
| Towards the modeling of vehicular traffic as a complex system: A kinetic theory approach A Bellouquid, E De Angelis, L FERMO Mathematical models and methods in applied sciences 22 (supp01), 1140003, 2012 | 98 | 2012 |
| From the modeling of the immune hallmarks of cancer to a black swan in biology A Bellouquid, E De Angelis, D Knopoff Mathematical Models and Methods in Applied Sciences 23 (05), 949-978, 2013 | 96 | 2013 |
| A quest towards a mathematical theory of living systems N Bellomo, A Bellouquid, L Gibelli, N Outada Springer International Publishing, 2017 | 93 | 2017 |
| On multiscale models of pedestrian crowds from mesoscopic to macroscopic N Bellomo, A Bellouquid Commun. Math. Sci 13 (7), 1649-1664, 2015 | 87 | 2015 |
| ON THE MULTISCALE MODELING OF VEHICULAR TRAFFIC: FROM KINETIC TO HYDRODYNAMICS. N Bellomo, A Bellouquid, J Nieto, J SOLERZ Discrete & Continuous Dynamical Systems-Series B 19 (7), 2014 | 75 | 2014 |
| On the modeling of crowd dynamics: Looking at the beautiful shapes of swarms N Bellomo, A Bellouquid Networks and Heterogeneous Media 6 (3), 383-399, 2011 | 66 | 2011 |
| On the onset of non-linearity for diffusion models of binary mixtures of biological materials by asymptotic analysis N Bellomo, A Bellouquid International Journal of Non-Linear Mechanics 41 (2), 281-293, 2006 | 66 | 2006 |
| From a class of kinetic models to the macroscopic equations for multicellular systems in biology N Bellomo, A Bellouquid DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS SERIES B 4 (1), 59-80, 2004 | 60 | 2004 |
| From kinetic models of multicellular growing systems to macroscopic biological tissue models A Bellouquid, E De Angelis Nonlinear Analysis: Real World Applications 12 (2), 1111-1122, 2011 | 58 | 2011 |
| Complexity and mathematical tools toward the modelling of multicellular growing systems N Bellomo, A Bellouquid, J Nieto, J Soler Mathematical and Computer Modelling 51 (5-6), 441-451, 2010 | 58 | 2010 |
Juan J. NietoProfessor of Mathematical Analysis, University of Santiago de Compostela, SpainE-mailová adresa ověřena na: usc.es
