Need to solve the following equation with three knowns and 2 unknowns.
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W0 = Wi + (1 - L)*Hi*gi
W0 and L is an unknowns.
Wi, Hi, and gi are the knowns with 172 values per each.
I want to find W0 and L and their standard deviations as well.
I want to get each values comes for W0 and L when the program runs.
But when this code runs i got 0 for standard deviation of both W10 and L. Is this code is right? Can anyone help me to solve this?
The following code was written.
Wi = Wi;
Hi = H_BM;
gi = g_mean;
% Define the objective function
fun = @(x) norm(Wi + (1 - x(1))*Hi.*gi - x(2));
% Set initial guess for L and W0
x0 = [0, 0];
% Solve the optimization problem
x = fminsearch(fun, x0);
% Extract the values of L and W0
L = x(1);
L
W0 = x(2);
W0
% Calculate standard deviation of W0 and L
std_W0 = std(W0);
std_W0
std_L = std(L);
std_L
4 commentaires
Rik
le 21 Mai 2024
Since you didn't post any data I can't show you what to do. You might want to try the fit function, since that will report the goodness of fit as the second output argument.
Réponses (2)
Torsten
le 21 Mai 2024
H_BM = rand(100,1);
g_mean = rand(100,1);
Wi = rand(100,1);
Hi = H_BM;
gi = g_mean;
x = Hi.*gi;
y = Wi + Hi.*gi;
fitlm(x,y)
20 commentaires
Torsten
le 30 Mai 2024
Modifié(e) : Torsten
le 30 Mai 2024
Rename your variable "sum". "sum" is an inbuilt MATLAB function to sum elements, and you overwrite this function in your code.
If you are sure that sigma_e^2(V_n) equals what you compute as sum(n) (I doubt it because you don't sum anything when computing sum(n)), your Dw should be computed as
Dw = sqrt(sum(s(2:78)))
Here, I renamed you variable "sum" to "s" and used the MATLAB function "sum" to sum elements in an array.
According to the mathematical formulae, the sigma1 and beta1 are lower triangular matrices, and your "sum" variable is computed by summing both sigma1 and beta1 over their columns, adding the result and multiply it by (GM/alpha)^2.
Rupesh
le 23 Mai 2024
Hi Prabhat,
I understand that you want to calculate the values of W0 and L, and their standard deviations, from your given data using an optimization approach. The initial code calculates W0 and L but results in zero standard deviations because it operates on single scalar values instead of distributions (set of values) and single scalar values don’t have standard deviation associated with them.
To solve this, we can use a bootstrapping method. By repeatedly sampling your data and performing the optimization for each sample, we can obtain distributions of W0 and L. From these distributions, we can calculate the standard deviations.
Wi = Wi; % Your known values
Hi = H_BM; % Your known values
gi = g_mean; % Your known values
% Number of bootstrap samples
num_samples = 100;
% Arrays to store the results
L_values = zeros(1, num_samples);
W0_values = zeros(1, num_samples);
% Perform bootstrap sampling
for i = 1:num_samples
% Randomly sample indices with replacement
sample_indices = randsample(length(Wi), length(Wi), true);
% Sample the data
Wi_sample = Wi(sample_indices);
Hi_sample = Hi(sample_indices);
gi_sample = gi(sample_indices);
% Define the objective function for this sample
fun = @(x) norm(Wi_sample + (1 - x(1))*Hi_sample.*gi_sample - x(2));
% Set initial guess for L and W0
x0 = [0, 0];
% Solve the optimization problem for this sample
x = fminsearch(fun, x0);
% Store the results
L_values(i) = x(1);
W0_values(i) = x(2);
end
% Calculate mean and standard deviation of L and W0
L_mean = mean(L_values);
L_std = std(L_values);
W0_mean = mean(W0_values);
W0_std = std(W0_values);
% Display the results
disp(['L mean: ', num2str(L_mean)]);
disp(['L std: ', num2str(L_std)]);
disp(['W0 mean: ', num2str(W0_mean)]);
disp(['W0 std: ', num2str(W0_std)]);
This script repeatedly samples your data and runs the optimization to build up distributions for W0 and L, allowing for the calculation of their standard deviations. You can refer to below documentation to get clear understanding of inbuilt sample bootstrapping.
Hope it helps!
Thanks
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