Mosquitoes population dynamics (started in 2014)
The global incidences of dengue and, more recently, zica virus have increased the interest in studying and understanding the mosquito population dynamics. This project is based on the study of nonlinear mathematical models dealing with the life cycle of the dengue mosquito using partial differential equations.
Related papers
DA SILVA, MONALISA R. ; LUGÃO, PEDRO H. G. ; PREZOTO, FÁBIO ; Chapiro, Grigori . Modeling the impact of genetically modified male mosquitoes in the spatial population dynamics of Aedes aegypti. Scientific Reports, v. 12, p. 9112, 2022.
DA SILVA, MONALISA REIS ; LUGÃO, PEDRO HENRIQUE GASPARETTO ; Chapiro, Grigori . Impact of temperature variation on spatial population dynamics of Aedes aegypti. REVISTA MUNDI ENGENHARIA, TECNOLOGIA E GESTÃO, v. 5, p. 1-10, 2020.
SILVA, MONALISA R. ; LUGÃO, PEDRO H. G. ; Chapiro, Grigori . Modeling and simulation of the spatial population dynamics of the Aedes aegypti mosquito with an insecticide application. Parasites & Vectors, v. 13, p. 550, 2020.
W. M. S. Yamashita, S. S. Das and, G. Chapiro., Numerical modeling of mosquito population dynamics of Aedes aegypti , Parasites & Vectors, v. 11:245, 2018
Yamashita, W., M., S., Takahashi, L., T., Chapiro, G., Traveling wave solutions for the dispersive models describing population dynamics of Aedes aegypti . Mathematics and Computers in Simulation, , v.146, 90-99, 2018.
Yamashita, W., M., S., Takahashi, L., T., Chapiro, G., Dispersive models describing mosquitoes’ population dynamics . Journal of Physics. Conference Series (Online), v. 738, p. 012065, 2016.