- Policy Could Be Implemented To Avoid This The Standard Sir Model Assumes That The Rate Of Infection Is Simply Bis For 1 (162.16 KiB) Viewed 24 times
e)? I know it's a long question so really appreciate it because I'm
stuck
Really urgent so please no non-related answer please
policy could be implemented to avoid this. The standard SIR model assumes that the rate of infection is simply BIS, for some positive constant B. However, in general, the rate of infection may be given by g(1)S, for some function (1) satisfying 9(0) = 0 and g(1) >0 whenever I > 0. The function g is known as the "infection force" of the disease. It essentially measures how probable it is to be infected when there are 1 people infected. In the 1978 paper [1], Capasso and Serio proposed an infection force for the SIR model aimed at under- standing psychological effects of a disease. The modification of the SIR model is given as, $=-9(1) İ = g(1)S-1 (1) Ř= 1, where g(1) = Ble-al, and a, 8, are positive constants. 1. (a) Draw the compartmental model for (1). (b) Plot the infection force g(1) for I> 0 showing any maxima or minima. Use this plot to argue why the model (1) proposed by Capasso and Serio does indeed factor in psychological effects of the disease. 2. (a) Explain mathematically why N=S+I+R is a conserved quantity. (b) Use the conservation of N to reduce the 3D system to a 2D system of ODEs in S, I. Find a scaling of S1,t to scaled variables x, y, T, respectively, which brings this 2D system into the form Rorye-ay dT dy Rorye-ay y. with Ro, a positive constants. Give an expression for Ro, a in terms of the original constants B.N,7,a. (c) If R(0) = 0, explain why the allowed initial conditions (10;yo) must lie on the line x+y=1. (2) Perform a phase plane analysis, find the fixed points, characterise their stability, find the nullclines, sketch the phase portrait in the biologically relevant domain. (e) From the phase plane analysis, show that an epidemic will occur if <Ro, that is, the infected yo population will grow to a peak before the disease goes extinct. Show that no epidemic occurs if yo Ro, that is, the infected population will simply decline from yo until the disease goes eo 1 extinct. 3. (a) Compare the results of the phase plane analysis for the Capasso-Serio psychological model to the standard SIR model analysed in lectures. In particular, compare whether the diseases will be en- demic, the conditions for an epidemic, and when the expected peak will occur in the case of an epidemic. Argue whether the differences and similarities are expected or not from a biological per- spective. (b) What human psychology could influence the value of the constant a? How could the population be influenced to ensure an epidemic is avoided?