Modeling the transmission of dengue infection through fractional derivatives
It is prominent that memory has a prodigious influence on the development of every process
associated with human societies. More specifically, the growth of an epidemic process is …
associated with human societies. More specifically, the growth of an epidemic process is …
Understanding Dengue Control for Short‐and Long‐Term Intervention with a Mathematical Model Approach
A Bustamam, D Aldila… - Journal of Applied …, 2018 - Wiley Online Library
A mathematical model of dengue diseases transmission will be discussed in this paper.
Various interventions, such as vaccination of adults and newborns, the use of insecticides or …
Various interventions, such as vaccination of adults and newborns, the use of insecticides or …
Rabies epidemic model with uncertainty in parameters: crisp and fuzzy approaches
A deterministic mathematical model is formulated to investigate the transmission dynamics
of rabies. In particular, we investigate the effects of vaccination, carrying capacity and the …
of rabies. In particular, we investigate the effects of vaccination, carrying capacity and the …
A mathematical model of dengue-chikungunya co-infection in a closed population
D Aldila, MR Agustin - Journal of Physics: Conference Series, 2018 - iopscience.iop.org
Dengue disease has been a major health problem in many tropical and sub-tropical
countries since the early 1900s. On the other hand, according to a 2017 WHO fact sheet …
countries since the early 1900s. On the other hand, according to a 2017 WHO fact sheet …
Assessing the effect of extrinsic incubation period (EIP) prolongation in controlling dengue transmission with Wolbachia-infected mosquito intervention
A mathematical model of dengue disease transmission with involving Extrinsic Incubation
Period (EIP) effect as a consequence of wolbachia introduction into mossquito population …
Period (EIP) effect as a consequence of wolbachia introduction into mossquito population …
A superinfection model on malaria transmission: analysis on the invasion basic reproduction number
D Aldila - Commun. Math. Biol. Neurosci., 2021 - scik.org
Malaria is one of the many kinds of vector-borne diseases which threaten many developing
countries around the world every year. Malaria is caused by more than one type of …
countries around the world every year. Malaria is caused by more than one type of …
Mathematical model in controlling dengue transmission with sterile mosquito strategies
In this article, we propose a mathematical model for controlling dengue disease
transmission with sterile mosquito techniques (SIT). Sterile male introduced from lab in to …
transmission with sterile mosquito techniques (SIT). Sterile male introduced from lab in to …
[PDF][PDF] Biological and mechanical transmission models of dengue fever
L Laura, AK Supriatna, MS Khumaeroh… - Commun. Biomath …, 2019 - researchgate.net
Dengue fever disease is caused by the dengue virus and transmitted primarily by the Aedes
aegypti mosquitoes. There is no vaccine available to prevent transmission of the disease …
aegypti mosquitoes. There is no vaccine available to prevent transmission of the disease …
Analysis and optimal control of a malaria mathematical model under resistance and population movement
C Montoya, JP Romero-Leiton - arXiv preprint arXiv:2002.00070, 2020 - arxiv.org
In this work, two mathematical models for malaria under resistance are presented. More
precisely, the first model shows the interaction between humans and mosquitoes inside a …
precisely, the first model shows the interaction between humans and mosquitoes inside a …
Dengue transmission model with vector control in aquatic and non-aquatic phases
MS Khumaeroh, A Firdaus… - AIP Conference …, 2024 - pubs.aip.org
Dengue Fever (DF) is a disease caused by the dengue virus (DENV), transmitted through
the bite of female mosquitoes, primarily Aedes Aegypti and Aedes Albopictus. Currently …
the bite of female mosquitoes, primarily Aedes Aegypti and Aedes Albopictus. Currently …