Research Article
An LMI Approach-Based Mathematical Model to Control Aedes aegypti Mosquitoes Population via Biological Control
Table 1
Parameters involved in the population dynamics of Aedes aegypti mosquitoe.
| , | Reproduction rate of non-Wolbachia mosquitoes and Wolbachia-infected mosquitoes, respectively |
| | The mortality rate of non-Wolbachia eggs | | The mortality rate of non-Wolbachia larvae | | The mortality rate of non-Wolbachia pupae | | The mortality rate of non-Wolbachia adult female mosquitoes | | The mortality rate of non-Wolbachia adult male mosquitoes | | The mortality rate of Wolbachia-infected eggs | | The mortality rate of Wolbachia-infected larvae | | The mortality rate of Wolbachia-infected pupae | | The mortality rate of Wolbachia-infected adult female mosquitoes | | The mortality rate of Wolbachia-infected adult male mosquitoes | | The rate at which the corresponding part of the wild mosquito eggs forms in which the larvae of wild mosquito emerge | | The rate at which the corresponding part of the wild mosquito larvae forms in which the pupae of wild mosquito emerge | | The rate at which the corresponding part of the wild mosquito pupae forms in which the immature female or male of wild mosquito emerge | | The rate at which the corresponding part of the Wolbachia-infected mosquito eggs matured into Wolbachia-infected or uninfected larvae | | The rate at which the corresponding part of the Wolbachia-infected mosquito larvae matured into Wolbachia-infected or uninfected pupae | | The rate at which the corresponding part of the Wolbachia-infected mosquito pupae matured into Wolbachia-infected or uninfected adults | | The probability of having male or female mosquitoes | | Total population |
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