How to i find a range of parameters that admit positive solutions ?
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Hi,
I have this non linear equation.
x+6-(beta/(1+beta))*(1-alpha)*x^(alpha)+(exp(sigma^2*(1/2 - x/((beta/(1+beta))*(1-alpha)*x^(alpha)))))*((beta/(1+beta))*alpha*x^(2*alpha-1)-(alpha)*x^(alpha))=0
my alpha's, beta's and sigma, are parameters. I am wondering how someone can find in MATLAB the range or value/values of those parameters that admit positive solution/s for my x.
Thanks
8 Comments
Matt J
on 6 Jul 2013
Edited: Matt J
on 6 Jul 2013
by "fit" I mean to get the unknown x necessary positive, by "fitting" or finding alphas and betas that can produce such solution.
So, if I present you with one particular triple x>=0, alpha, beta, that satisfies your equation, you will be done? Mission accomplished?
Accepted Answer
Matt J
on 6 Jul 2013
Edited: Matt J
on 6 Jul 2013
Here is a combination of parameters that seems to satisfy your equation, with x>=0,
alpha =
-0.0786
beta =
1.8827
x =
0.2446
sigma =
4.2678
I obtained it by minimizing abs(LHS) over all 4 parameters via the code below.
LHS=@(alpha,beta,x,sigma) x+6-(beta/(1+beta))*(1-alpha)*x^(alpha)+(exp(sigma^2*(1/2 - x/((beta/(1+beta))*(1-alpha)*x^(alpha)))))*((beta/(1+beta))*alpha*x^(2*alpha-1)-(alpha)*x^(alpha));
fun=@(p) abs(LHS(p(1),p(2),abs(p(3)),p(4)));
options=optimset('TolFun',1e-6);
[p,fval]=fminsearch(fun,[1,1,1,3],options);
alpha=p(1),
beta=p(2),
x=abs(p(3)),
sigma=abs(p(4)),
So does this complete your mission?
3 Comments
Matt J
on 6 Jul 2013
Edited: Matt J
on 6 Jul 2013
And just for future reference, are those solutions the only ones that this code gives?
No, you have 1 equation in 4 unknowns, so there will inevitably be an infinite space of solutions. You can get different solutions by feeding different starting guesses to FMINSEARCH.
I am asking this because in general, we might not wish to have, let's beta negative, or alpha above 10 etc etc.. so ruling out some solutions.
If you have the Optimization Toolbox, you can use LSQNONLIN instead of FMINSEARCH. LSQNONLIN let's you impose whatever upper/lower bounds you want, and handles them more gracefully.
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