The unique real solution should be:
x1: 1.13597072587292
x2: 1.23385304815548
x3: 1.33911918335085
x4: 0.783110223199337
x5: 0.017879890424952
x6: 0.000114204714425553
x7: 1.05898294440764E-6
Loop over initial guesses with fsolve
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Hi everyone!
I have a system of 7 non-linear equations with both real solutions and complex solutions, depending on my initial guess. In order to find the real solutions, I want to loop over initial guesses.
I have 7 variables, I want my initial guess vector to take the values [1, 1, 1, 1, 0.1, 0.1, 0.1], my second initial guess vector to increment over the first four guesses by 0.1 and over the last 3 by 0.01 so that it takes the values [1.1, 1.1, 1.1, 1.1, 0.11, 0.11, 0.11, 0.11] until the guess [1.9, 1.9, 1.9, 1.9, 0.1, 0.1, 0.1] after ten steps.
Finally, I want to save all the guesses in a matrix 10x7 (or 7x10).
I tried the following code, and I have the error
Index exceeds the number of array elements (1).
Caused by:
Failure in initial objective function evaluation. FSOLVE cannot continue.
Any idea? Thanks in advance!
func=@f;
x0=[1:0.1:1.9,1:0.1:1.9,1:0.1:1.9,1:0.1:1.9,0.01:0.01:0.1,0.01:0.01:0.1,0.01:0.01:0.1]
x = zeros(10,7)
for i=1:10
x(i)=fsolve(func,x0(i))
end
function my_func=f(x)
rho = 1/2;
c1=1;
c2=11/10;
c3=12/10;
c4=7/10;
y = 20;
pall = 2;
sigma = 10;
eta = 2;
alpha=3/9;
my_func(1)= (sigma*(1 - (x(1)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma)) + eta*(x(1)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma))/(sigma*(1 - (x(1)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma)) + eta*(x(1)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma) - 1)*c1 -x(1);
my_func(2)= (sigma*(1 - (x(2)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma)) + eta*(x(2)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma))/(sigma*(1 - (x(2)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma)) + eta*(x(2)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma) - 1)*c2 -x(2);
my_func(3)= (sigma*(1 - (x(3)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma)) + eta*(x(3)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma))/(sigma*(1 - (x(3)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma)) + eta*(x(3)/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1 - sigma) - 1)*c3 -x(3);
my_func(4)= (sigma*(1 - (x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^(1 - sigma)) + eta*(x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^(1 - sigma))/(sigma*(1 - (x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^(1 - sigma)) + eta*(x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^(1 - sigma) - 1)*c4 -x(4);
my_func(5)= pall^(eta - 1)*(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma))^(sigma - eta)*y*x(1)^(-sigma)*(x(1) - c1)*(sigma - eta)*(x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(x(5)^rho + x(6)^rho + x(7)^rho)^((1 - rho)/rho)*x(5)^(rho - 1) - (1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^sigma/(x(5)^(rho - 1)*(x(5)^rho + x(6)^rho + x(7)^rho)^((rho - 1)/rho)*alpha*(x(5)^rho + x(6)^rho + x(7)^rho)^(1/rho))^(alpha-1);
my_func(6)= pall^(eta - 1)*(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma))^(sigma - eta)*y*x(2)^(-sigma)*(x(2) - c2)*(sigma - eta)*(x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(x(5)^rho + x(6)^rho + x(7)^rho)^((1 - rho)/rho)*x(6)^(rho - 1) - (1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^sigma/(x(6)^(rho - 1)*(x(5)^rho + x(6)^rho + x(7)^rho)^((rho - 1)/rho)*alpha*(x(5)^rho + x(6)^rho + x(7)^rho)^(1/rho))^(alpha-1);
my_func(7)= pall^(eta - 1)*(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma))^(sigma - eta)*y*x(3)^(-sigma)*(x(3) - c3)*(sigma - eta)*(x(4)*(1+(x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))/(x(1)^(1 - sigma) + x(2)^(1 - sigma) + x(3)^(1 - sigma) + (x(4)*(1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho)))^(1 - sigma))^(1/(1 - sigma)))^(1-sigma)*(x(5)^rho + x(6)^rho + x(7)^rho)^((1 - rho)/rho)*x(7)^(rho - 1) - (1 + (x(5)^rho + x(6)^rho + x(7)^rho)^(alpha/rho))^sigma/(x(7)^(rho - 1)*(x(5)^rho + x(6)^rho + x(7)^rho)^((rho - 1)/rho)*alpha*(x(5)^rho + x(6)^rho + x(7)^rho)^(1/rho))^(alpha-1);
end
Accepted Answer
Davide Masiello
on 29 Jan 2023
Edited: Davide Masiello
on 29 Jan 2023
Try with
func=@f;
x0=[1:0.1:1.9;1:0.1:1.9;1:0.1:1.9;1:0.1:1.9;0.01:0.01:0.1;0.01:0.01:0.1;0.01:0.01:0.1];
x = zeros(10,7);
for i=1:10
x(i,:)=fsolve(func,x0(:,i))
end
Please note the use of ";" instead of "," in the x0 matrix and the correct recursive indexing in the loop (x0(:,i)).
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