Stability analysis for a delayed SIR model with a nonlinear incidence rate

Abstract: We develop an SIR vector-bone epidemic model incorporating incubation time delay and the nonlinear incidence rate, where the growth of susceptibles is governed by the logistic equation. The threshold parameter R 0 is used to determine whether the disease persists in the population. The model always has the trivial equilibrium and the disease-free equilibrium whereas admits the endemic equilibrium if R 0 exceeds one. The disease-free equilibrium is globally asymptotically stable if R 0 is less than one, while t… Show more

“…Zhang et al [7] generated significant results elaborating the influence of time delay on the stability and measures of synthetic drugs transmission. Liu et al [8] incorporated incubation time delay in the susceptible, infected, recovered vector, bone epidemic model and discussed its stability with the logistic population growth. Rifhat et al [9] designed a stochastic SIRV model and explained the effects of environmental noises on the disease transmission.…”

Transmissibility of epidemic diseases caused by delay with local proportional fractional derivative

“…Zhang et al [7] generated significant results elaborating the influence of time delay on the stability and measures of synthetic drugs transmission. Liu et al [8] incorporated incubation time delay in the susceptible, infected, recovered vector, bone epidemic model and discussed its stability with the logistic population growth. Rifhat et al [9] designed a stochastic SIRV model and explained the effects of environmental noises on the disease transmission.…”

Transmissibility of epidemic diseases caused by delay with local proportional fractional derivative

Dynamics of a time-delayed SIR epidemic model with logistic growth and saturated treatment

Effect of a novel generalized incidence rate function in SIR model: Stability switches and bifurcations