Share

Export Citation

APA
MLA
Chicago
Harvard
Vancouver
BIBTEX
RIS
Universitas Hasanuddin
Research output:Contribution to journalArticlepeer-review

Stability analysis and numerical simulation of rabies spread model with delay effects

Nurdiansyah M.R.A.

Aims Mathematics

Q2
Published: 2024Citations: 1

Abstract

<abstract> <p>In this article, a delay differential equations model is constructed to observe the spread of rabies among human and dog populations by considering two delay effects on incubation period and vaccine efficacy. Other parameters that affect the spread of rabies are also analyzed. Using the basic reproduction number, it is shown that dog populations and the two delays gives a significant effect on the spread of rabies among human and dog populations. The existence of two delays causes the system to experience Transcritical bifurcation instead of Hopf bifurcation. The numerical simulation shows that depending only on one control method is not enough to reduce or eradicate rabies within the dog populations; instead, it requires several combined strategies, such as increasing dog vaccinations, reducing contact with infected dogs, and controlling puppies' birth. The spread within the human population will be reduced if the spread within the dog population is reduced.</p> </abstract>

Access to Document

10.3934/math.2024167

Other files and links

Fingerprint

RabiesSciences
PopulationSciences
Hopf bifurcationSciences
Delay differential equationSciences
Stability (learning theory)Sciences
MathematicsSciences
Control theory (sociology)Sciences
BifurcationSciences
BiologySciences
Computer scienceSciences
VirologySciences
Differential equationSciences
MedicineSciences
PhysicsSciences
Control (management)Sciences
Mathematical analysisSciences
Environmental healthSciences
Artificial intelligenceSciences
Machine learningSciences
Quantum mechanicsSciences
Nonlinear systemSciences