Prof. BRUNO BUONOMO
Department of Mathematics and Applications
University of Naples Federico II
via Cintia
I-80126 NAPLES
ITALY
Email:
buonomo@unina.it
Office: No 111, Level 5
Phone: (+39) 081-675630
FAX: (+39) 081-7662106 (Dept.)
Alternative sites:
Page on Google Scholar
Page on ORCID
Page on Research Gate
Page on Academia.edu
Page on UNINA
Math Genealogy Project
|
Bruno BUONOMO's advisory activities
...
|
Overview
- Number of thesis supervised: 50
- M.Sc thesis in Mathematics: 28
- B.Sc thesis in Mathematics: 21
- B.Sc thesis in Physics: 1
Note that all the thesis are written in italian unless otherwise specified.
- M.Sc. thesis in Mathematics (Tesi di laurea magistrale in Matematica)
- Externalities control in Economic Epidemiology (T. Landolfo, Oct. 28, 2010)
- Single epidemic outbreaks: dynamics, control and externalities (G. Zollo, Oct. 28, 2010)
- Optimal control of transgenic mosquitoes and impact on the dynamics of endemic malaria (English) (A. Russo, Mar. 25, 2011)
- Unstable equilibria in infinite-horizon optimal control problems in Economics (V. Varchetta, Dec. 22, 2011)
- The basic reproduction number (English) (L. Goscé, Mar. 29, 2012)
- Population-toxicant interaction models: qualitative analysis and optimal control (G. Monaco, Mar. 29, 2012)
- Information, bifurcations and oscillations in vaccination models (R. Baiano, Feb. 25, 2014)
- Modelling the impact on epidemic dynamics of incidence-depending vaccination behaviors (G. Salernitano, Mar. 22, 2016)
- Modelling seasonality in behavioral epidemiology (English) (G. Carbone, Mar. 22, 2016)
- Continuous and semi-discrete models for the dynamics of invasive species (M. C. Abate, May 24, 2016)
- Optimal control of renewable resource harvesting (English) (A. Principe, Mar. 28, 2017)
- Hahnfeldt-type angiogenesis models with delay (G. Sepe, June 20, 2017)
- Optimal control of periodic epidemic models (English) (R. Della Marca, July 18, 2017)
- Optimal control of systems governed by DDE and application to immunotherapy for melanoma (English) (A. Argenziano, Oct. 17, 2018)
- Allee effect and further causes of forward hysteresis in some epidemic models (English) (L. Nagar, Feb. 19, 2019)
- Modelling SIS epidemics with instantaneous and delayed awareness (English) (A. Camerlingo, Mar. 19, 2019)
- Optimal control of Th1/Th2 imbalance in a model of melanoma (F. Schettino, Mar. 19, 2019)
- Optimal control strategies for bladder cancer treatment (English) (M. Fasulo, May 14, 2019)
- Global stability for epidemic models with delay and information-dependent contact rate (R. Martire, May 14, 2019)
- Marine reserves and sustainable harvesting: a bioeconomic optimal control approach (L. Molinari, May 26, 2020)
- Coexistence and competitive exclusion in multistrain epidemic models (English) (S. Pica, Mar 23, 2021)
- Modeling behavioral changes effects on vaccination campaigns in the African Meningitis Belt (English) (F. Tullio, Oct 20, 2021)
- Information related changes of contact patterns in SEIR and SAIR epidemic models (English) (P. Sgariglia, Mar 22, 2022)
- Optimal control of tumor-immune system interactions (English) (A. Carfora, July 22, 2022)
- Wildfire spreading: a new application of the Beta distribution (English) (co-supervised with G. Pagnini) (B. Canfora, Oct. 18, 2022)
- Fear effects in predator-prey interactions (G. Monda, Oct. 18, 2022)
- Co-infection of respiratory viruses: answers from behavioral models (F. Iaconis, Mar. 22, 2023)
- Modeling the effects of human behavior on respiratory viruses coinfection dynamics (English) (E. Penitente, Mar. 19, 2024)
- B.Sc. thesis in Mathematics (Tesi di laurea in Matematica)
- The Poincaré-Bendixson theorem and recent applications in Mathematical Epidemiology (L. Mauro, Dec. 16, 2010)
- A geometric model of the dynamics of Lorenz system (P. Ambrosio, May 28, 2013)
- Basic epidemic models with nonlinear force of infection (G. Monda, July 22, 2015)
- The Bogdanov-Takens bifurcation (L. Paduano, Oct. 25, 2016)
- Asymptotically autonomous systems (M. Montefusco, Dec. 20, 2016)
- Competition models in the gradostat (R. Martire, Dec. 20, 2016)
- Oscillations in epidemic models (C. de Falco, Feb. 21, 2017)
- Poincaré Maps and applications to bacterial competition in bioreactors (V. Iorio, Feb. 21, 2017)
- Qualitative analysis of mathematical models for HIV infection transmission and therapy (A. Iovino, Oct. 24, 2017)
- Hopf and Yakubovitch oscillations with applications in epidemiology and biology (G. Febbraro, Mar. 27, 2018)
- Complex dynamics in models of interactions between immune system and pathogens (S. Russo, Mar. 27, 2018)
- A SIRS-type model for the impact of behavioral change on the dynamics of an infectious disease (L. Fiorentino, Oct. 16, 2018)
- Qualitative analysis in mathematical epidemiology: from classical SIR to West Nile virus models (C. Montella, Dec. 18, 2018)
- Effects of intra-specific predation on the predator-prey dynamics (A. Carfora, Feb. 18, 2020)
- Stability and oscillations in epidemiological models (F. Romano, May 27, 2020)
- SEIR epidemic models with an application to COVID-19 disease (B. Canfora, Oct. 21, 2020)
- Bogdanov-Takens bifurcation and its occurrence in an epidemic model with reinfection (G. Cappa, Dec. 16, 2020)
- Metapopulation models (F. Iaconis, Dec. 16, 2020)
- Zero-Hopf bifurcation and its occurrence in the Volterra-Gause model (M. Milo, May 25, 2022)
- Gause models and the paradox of enrichment (G. Cozzolino, Dec. 13, 2022)
- Analysis of mathematical models for dengue diffusion (G. Sigigliano, Feb. 14, 2024)
- B.Sc. thesis in Physics (Tesi di laurea in Fisica)
- Epidemic models for the transmission of SARS-CoV and SARS-CoV2 (F. Manna, July 22, 2020)
Back to Bruno Buonomo Home Page
|
|