Nicola Bellomo
Orcid: 0000-0002-5989-1608Affiliations:
- Polytechnic University of Turin, Department of Mathematics
According to our database1,
Nicola Bellomo
authored at least 34 papers
between 1991 and 2024.
Collaborative distances:
Collaborative distances:
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Online presence:
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on zbmath.org
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on orcid.org
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on id.loc.gov
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on d-nb.info
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Bibliography
2024
What is the in-host dynamics of the SARS-CoV-2 virus? A challenge within a multiscale vision of living systems.
Networks Heterog. Media, 2024
2023
Waiting for a Mathematical Theory of Living Systems from a Critical Review to Research Perspectives.
Symmetry, February, 2023
2022
Networks Heterog. Media, 2022
2020
Crowd Dynamics by Kinetic Theory Modeling: Complexity, Modeling, Simulations, and Safety
Synthesis Lectures on Mathematics & Statistics, Morgan & Claypool Publishers, ISBN: 978-3-031-02428-3, 2020
Special Issue "Kinetic Theory and Swarming Tools to Modeling Complex Systems - Symmetry problems in the Science of Living Systems" - Editorial and Research Perspectives.
Symmetry, 2020
Swarms dynamics approach to behavioral economy: Theoretical tools and price sequences.
Networks Heterog. Media, 2020
2019
Occurrence vs. Absence of Taxis-Driven Instabilities in a May-Nowak Model for Virus Infection.
SIAM J. Appl. Math., 2019
2017
2015
From a systems theory of sociology to modeling the onset and evolution of criminality.
Networks Heterog. Media, 2015
Proceedings of the 12th Proceedings of the International Conference on Information Systems for Crisis Response and Management, 2015
2013
2012
On a class of integro-differential equations modeling complex systems with nonlinear interactions.
Appl. Math. Lett., 2012
2011
On the Modeling of Traffic and Crowds: A Survey of Models, Speculations, and Perspectives.
SIAM Rev., 2011
Networks Heterog. Media, 2011
Comput. Math. Appl., 2011
On the mathematical theory of living systems II: The interplay between mathematics and system biology.
Comput. Math. Appl., 2011
2010
Complexity and mathematical tools toward the modelling of multicellular growing systems.
Math. Comput. Model., 2010
Appl. Math. Lett., 2010
Appl. Math. Lett., 2010
2009
From the mathematical kinetic theory for active particles on the derivation of hyperbolic macroscopic tissue models.
Math. Comput. Model., 2009
On the derivation of macroscopic hyperbolic equations for binary multicellular growing mixtures.
Comput. Math. Appl., 2009
On the coupling of higher and lower scales using the mathematical kinetic theory of active particles.
Appl. Math. Lett., 2009
2008
On the kinetic and stochastic games theory for active particles: Some reasonings on open large living systems.
Math. Comput. Model., 2008
On the complexity of multiple interactions with additional reasonings about Kate, Jules and Jim.
Math. Comput. Model., 2008
From the mathematical kinetic theory of active particles to multiscale modelling of complex biological systems.
Math. Comput. Model., 2008
Comput. Math. Appl., 2008
2007
Crowd dynamics on a moving platform: Mathematical modelling and application to lively footbridges.
Math. Comput. Model., 2007
Mathematical tools of the kinetic theory of active particles with some reasoning on the modelling progression and heterogeneity.
Math. Comput. Model., 2007
From microscopic to macroscopic description of multicellular systems and biological growing tissues.
Comput. Math. Appl., 2007
2006
On the mathematical kinetic theory of active particles with discrete states: The derivation of macroscopic equations.
Math. Comput. Model., 2006
2005
1991
Series on Advances in Mathematics for Applied Sciences 1, World Scientific, ISBN: 978-981-02-0448-8, 1991