geting value as Inf
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Dear All
i am solving a equation after first iteration i got value as infinity, actually i want the value of x(1)to x(20), Lembda(1) to Lembda(2), c(1) to c(20), P(1)to p(20) and a(1) to a(20). when i am running code only i am able to get the value of first iteration. after first iteration x(2) value become inf. here is the code.
M=100;
r=0.8;
alpha=0.45;
beta=0.75;
gama=0.1;
d=0.004;
h=0.4;
n=100;
c0=1500;
nn=10;
x = zeros(nn,1);
a = zeros(nn,1);
p = zeros(nn,1);
c = zeros(nn,1);
lembda = zeros(nn,1);
delT=1;
c(1)=1580;
x(1)=2;
a(1)=310000;
p(1)=1635;
lembda(1)=150;
for t=1:nn
q(t)=0.8;
xxx=t+1;
x(xxx)=x(t)+delT*alpha+beta*log10(a(t))+gama*x(t)*(M-x(t))*exp(-d*p(t))*exp(h*q(t));
disp('x(t)');
x(xxx)
gx=exp(-d*p(t))*exp(h*q(t))*(gama*M-alpha-beta*log10(a(t))-2*gama*x(t));
cx=n*q(t)^(x(t)-1)*log10(q(t));
gt=(alpha+beta*log10(a(t))+gama*x(t))*(M-x(t))*exp(-d*p(t))*exp(h*q(t));
lembda(xxx)=lembda(t)+delT*(r*lembda(t)-gx*(p(t)-c(t)+lembda(t))+cx*gt);
disp('lembda(t+1)');
lembda(xxx)
c(t)=n*q(t)^(x(t)-1)+c0;
disp('c(t)');
c(t)
p(t)=c(t)-lembda(t)+1/d;
disp('p(t)');
p(t)
a(t)=(p(t)-c(t)+lembda(t))*beta*(M-x(t))*exp(-d*p(t))*exp(h*q(t));
disp('a(t)');
a(t)
end
please help me to get my desired result.
Thank You
1 Comment
Daniel Shub
on 9 May 2012
While we all appreciate the formatting of the code, when you deleted your previous question, you deleted my answer. This new "question" isn't actually a question, but rather a command. Further, the concept of your desired result, is confusing ...
Accepted Answer
Kevin Holst
on 9 May 2012
Here's what I think your code should look like in order to run properly:
M=100;
r=0.8;
alpha=0.45;
beta=0.75;
gama=0.1;
d=0.004;
h=0.4;
n=100;
c0=1500;
nn=10;
x = zeros(nn,1);
a = zeros(nn,1);
p = zeros(nn,1);
c = zeros(nn,1);
q = 0.8*ones(nn,1);
lembda = zeros(nn,1);
delT=1;
c(1)=1580;
x(1)=2;
a(1)=310000;
p(1)=1635;
lembda(1)=150;
for t=1:nn-1
xxx=t+1;
x(xxx)=x(t)+delT*alpha+beta*log10(a(t))+gama*x(t)*(M-x(t))*exp(-d*p(t))*exp(h*q(t));
disp('x(t)');
x(xxx)
gx=exp(-d*p(t))*exp(h*q(t))*(gama*M-alpha-beta*log10(a(t))-2*gama*x(t));
cx=n*q(t)^(x(t)-1)*log10(q(t));
gt=(alpha+beta*log10(a(t))+gama*x(t))*(M-x(t))*exp(-d*p(t))*exp(h*q(t));
lembda(xxx)=lembda(t)+delT*(r*lembda(t)-gx*(p(t)-c(t)+lembda(t))+cx*gt);
disp('lembda(t+1)');
lembda(xxx)
c(xxx)=n*q(xxx)^(x(xxx)-1)+c0;
disp('c(t)');
c(xxx)
p(xxx)=c(xxx)-lembda(xxx)+1/d;
disp('p(t)');
p(xxx)
a(xxx)=(p(xxx)-c(xxx)+lembda(xxx))*beta*(M-x(xxx))*exp(-d*p(xxx))*exp(h*q(xxx));
disp('a(t)');
a(xxx)
end
Note that I took q(t) out of the loop. It's really just a constant so you shouldn't even have it as a vector. This still gives me infs after a few iterations, but that's just because you're raising a number to a VERY large number (0.8^-1.33E39). You're also taking the log10 of a negative number in there so you may want to switch all of your log10(a(t)) commands to log10(abs(a(t))).
3 Comments
More Answers (1)
Kevin Holst
on 9 May 2012
I actually answered your problem in your previous problem. The error is in your calculations for c, p, and specifically a. These values get calculated and then are placed in the 't' index rather than the 'xxx' ('t+1') index. As a result, when your loop goes through for the second time, you take log10(a(t)) which is log10(0), resulting in -inf. That -inf then cascades into your other calculations.
2 Comments
Kevin Holst
on 9 May 2012
Since I don't actually know what these equations mean or what they're supposed to be doing, I can't give you an exact solution to your problem. However, my answer points out where your error lies.
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