Effects of dispersal on the stability of a gonorrhea endemic model

Abstract

Using Liapunov's direct method, effects of dispersal on the linear and nonlinear stability of the endemic equilibrium state of the system governing the spread of gonorrhea are investigated. It is noted that the equilibrium state, which is nonlinearly asymptotically stable in the feasible region of the phase plane in the absence of dispersal, remains so with self-dispersal also (cross-dispersal being absent). However, in the presence of both self- and cross-dispersal, the equilibrium state can still remain nonlinearly asymptotically stable in the entire feasible region provided a certain condition involving self- and cross-dispersal coefficients is satisfied. It is also seen in this case that, for the linearly stable equilibrium state, there exists a subregion of the feasible region where it is nonlinearly asymptotically stable.