Milstein method for Stochastic SIR model - Mathlab program - Graph shows that deterministic not stochastic

1 Jan 2018
1 Réponse
Mise à jour 1 Mai 2020
10 Vues (30 jours)

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clf
A=12;
la=0.01;
d=0.1;
ep=0.01;
mu=0.1;
r=2;
al=1;
k=0.1;
si= 0.01;
randn('state',1)
T = 300; Delta = 2^(-10); delta = Delta^2;
L = T/Delta; K = Delta/delta;
S = zeros(1,L+1);
I = zeros(1,L+1);
R = zeros(1,L+1);
S(1) = 60;
I(1) = 20;
R(1) = 20;
for n = 1:L
Winc1 = 0;
for k = 1:K
Winc1 = sqrt(delta)*randn;
end
S(n+1) = S(n) + (A-d*S(n)-((la*S(n)*I(n))/(1+k*I(n))))*Delta- ...
((si*S(n)*I(n))/(1+k*I(n)))*Winc1*sqrt(Delta)+...
0.5*si^2*((S(n)*I(n))/(1+k*I(n)))*Delta*(Winc1^2 - 1);
I(n+1) = I(n)+ Delta*(((la*S(n)*I(n))/(1+k*I(n)))-(d+ep+mu)*I(n)-
(r*I(n))/(1+al*I(n)))+...
((si*S(n)*I(n))/(1+k*I(n)))*Winc1*sqrt(Delta)+...
0.5*si^2*((S(n)*I(n))/(1+k*I(n)))*Delta*(Winc1^2 - 1);
R(n+1) = R(n) + (mu*I(n)+(r*I(n)/(1+I(n)*al))-d*R(n))*Delta;
end
subplot(231)
plot([0:Delta:T],S,'r-'), hold on
subplot(232)
plot([0:Delta:T],I,'g-')
subplot(233)
plot([0:Delta:T],R,'b-')
What can i do to get graph interms of stochastic increments. The given mathlab program graph does not include stochastic increments. May i know what term is missing in the above program. In out Stochastic SIR model:
S'(t) = (A-d*S(t)-((la*S(t)*I(t))/(1+k*I(t))))* dt -
((si*S(t)*I(t))/(1+k*I(t)))*dW(t);
I'(t) = (((la*S(t)*I(t))/(1+k*I(t)))-(d+ep+mu)*I(t)- (r*I(t))/(1+al*I(t)))*dt+...
((si*S(t)*I(t))/(1+k*I(t)))*dW(t);
R'(t) = (mu*I(t)+(r*I(t)/(1+I(t)*al))-d*R(t))*dt;
kindly help me.
I thank you.

3 commentaires
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Rajasekar S P
Rajasekar S P le 2 Jan 2018
Dear Sir/Madam,
Kindly help for the "Milstein method for Stochastic SIR model - Mathlab program - Graph shows that deterministic not stochastic" question.
thank you
Walter Roberson
Walter Roberson le 2 Jan 2018
I suspect that not many of us are familiar with this topic.

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Tawfiqullah Ayoubi
Tawfiqullah Ayoubi le 1 Mai 2020
Modifié(e) : Tawfiqullah Ayoubi le 1 Mai 2020

0 votes

I need Matlab code for Stochastic differential equations (SDDEs) via Euler-Maruyama numerical method, Milstein Scheme or Stochastics Runge-Kutta.
Note: Any method does not matter.
Example Logistc model or other models
where r is time delay
where a,b sigma are real number, T is terminianl time, r is time delay h(t) is initial function.
Thanks in Addvance
Ayoubi
t.ayoubi1985@gmail.com

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Walter Roberson
Walter Roberson le 1 Mai 2020
This does not appear to be an Answer to what Rajasekar S P asked, and should have been a comment.
The volunteers do not appear to be familiar with SDDEs.
The SDDEs methods available from Mathworks appear to be listed at https://www.mathworks.com/help/finance/sde-objects.html#brg0w0_
One Euler method is at https://www.mathworks.com/help/finance/sde.simbyeuler.html

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