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Mathematical Model for Optimal Control of Soil-Transmitted Helminth Infection
(Hindawi, 2020-08-01)
In this paper, we study the dynamics of soil-transmitted helminth infection. We formulate and analyse a deterministic compartmental model using nonlinear differential equations. The basic reproduction number is obtained ...
Modeling the Effects of Helminth Infection on the Transmission Dynamics of Mycobacterium tuberculosis under Optimal Control Strategies.
(Hindawi, 2020-11-18)
A deterministic mathematical model for the transmission and control of cointeraction of helminths and tuberculosis is presented, to examine the impact of helminth on tuberculosis and the effect of control strategies. The ...
A Deterministic Mathematical Model for the Control of Spread of Prosopis Juliflora Plants
(Journal of Mathematics and Informatics, 2020-09-25)
Prosopis juliflora plants are the most aggressive invasive species in the world.
They spread by animal movement crossing from one place land to another. In this paper a
deterministic model to examine the dynamics of ...
Modeling the Impact of Seasonal Weather Variations on the Infectiology of Brucellosis
(Hindawi, 2020-10-17)
A deterministic mathematical model for brucellosis that incorporates seasonality on direct and indirect transmission parameters for domestic ruminants, wild animals, humans, and the environment was formulated and analyzed ...
A Review of the Mathematical Models for Brucellosis Infectiology and Control Strategies
(Journal of Mathematics and Informatics, 2020-07-21)
Brucellosis is a zoonotic bacterial infection that can be acquired by humans
from infected animals' meat, urine, body fluids, aborted materials, unpasteurized milk,
and milk products or contaminated environment. Mathematical ...