Qualitative analysis of a class of SIRS infectious disease models with nonlinear infection rate

Abstract: The existence and local stability of some non-negative equilibrium points of a class of SIRS infectious disease models with non-linear infection and treatment rates are investigated under the condition that the total population is a constant. The qualitative theory of differential equations was used to demonstrate that the endemic equilibrium point of the system is either a stable equilibrium, an unstable equilibrium or a degenerate equilibrium under different circumstances. Subsequently, the local stability of the non-negative equilibrium point of the system is analyzed. Finally, the bifurcation theory is used to prove that the system takes the natural recovery growth rate as the parameter of the saddle-node branching, and the conditions for the existence of the model saddle-node branching are given.