The issue of optimization (minimization) of the average relative error between experimental and calculated data

30 ビュー (過去 30 日間)
hello
I want to share the difficulties that I faced. Can someone help
problem statement:
there is a 'x' column where the values ​​of the independent variable are written and there is a 'y' column where the experimental values ​​of the dependent variable are written.
approximation model is considered:
y_calculate=A*x^B+C,
and based on this model, an objective function is created, which is equal to the average value of the relative deviations between y and y_calculate:
error_function = mean(abs(y - y_calculate)) / y)=mean(abs(y - =A*x^B+C)) / y);
Our goal is to select parameters A,B,C in such a way that 'error_function' takes the value of the global minimum.
I calculated the optimal values ​​of A, B, C and got:
A = 85.5880, B = -0.0460, C = 4.8824,
at which error function value for optimized parameters: 0.0285.
but I know in advance the specific values ​​of A, B, C:
A = 1005.6335852931, B = -1.59745963925582, C = 73.54149744754400,
at which error function value for specific parameters: 0.002680472178434,
which is much better than with optimization
Below is the code with visualization, which confirms the above.
clear
close all
% Data
x = [7.3392, 14.6784, 22.0176, 29.3436, 36.6828, 44.0088, 51.3348, 58.674, 66, 73.3392, 80.6652, 88.0044, 95.3304, 102.6696, 109.9956, 117.3348, 124.6608, 132];
y = [115.1079, 87.7698, 80.5755, 78.1611, 76.5743, 75.7074, 74.9375, 74.9453, 74.59, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990];
% Initial guesses for parameters A, B, C
initial_guess = [1, 1, 1];
% Error function
error_function = @(params) mean(abs(y - (params(1) * x.^params(2) + params(3))) ./ y);
% Optimization of parameters
optimized_params = fminsearch(error_function, initial_guess);
% Results of optimization
A_optimized = optimized_params(1);
B_optimized = optimized_params(2);
C_optimized = optimized_params(3);
% Calculation of the fitted function for optimized parameters
y_calculate_optimized = A_optimized * x.^B_optimized + C_optimized;
% Calculate and display the error function value for optimized parameters
value_error_optimized = error_function(optimized_params);
fprintf('Optimized parameters:\nA = %.4f\nB = %.4f\nC = %.4f\n', A_optimized, B_optimized, C_optimized);
fprintf(' error function value for optimized parameters: %.4f\n', value_error_optimized);
% Other specific parameters A, B, C
A_specific = 1005.63358529310;
B_specific = -1.59745963925582;
C_specific = 73.541497447544;
% Calculation of the fitted function for specific parameters
y_calculate_specific = A_specific * x.^B_specific + C_specific;
% Calculate and display the error function value for specific parameters
value_error_specific = error_function([A_specific, B_specific, C_specific]);
fprintf('Specific parameters:\nA = %.10f\nB = %.14f\nC = %.14f\n', A_specific, B_specific, C_specific);
fprintf(' error function value for specific parameters: %.4f\n', value_error_specific);
% Visualization
figure;
plot(x, y, 'bo-', 'DisplayName', 'Experimental data');
hold on;
plot(x, y_calculate_optimized, 'r--', 'DisplayName', 'Fitted model (Optimized)');
plot(x, y_calculate_specific, 'g-.', 'DisplayName', 'Fitted model (Specific)');
xlabel('x');
ylabel('y');
legend('Location', 'best');
title('Approximation of experimental data');
grid on;
Obviously, my optimization code does not lead to a global minimum of the objective function, since there is a better approximation for specific values ​​of A,B,C. Maybe this is caused by a random selection of the initial values ​​of the parameters A=1, B=1, c=1 and therefore my code is stuck in a local minimum?
who can write a code that will select the A,B,C parameters so as to achieve the global minimum of the target function 'error_function', for any initial iteration data of the variables A,B,C. Thoughts for testing: the value of the target function 'error_function' should not be worse (that is, more) than 0.002680472178434, which is obtained with the specific value of A,B,C: A = 1005.6335852931, B = -1.59745963925582, C = 73.54149744754400

採用された回答

Matt J
Matt J 2024 年 8 月 22 日
編集済み: Matt J 2024 年 9 月 5 日
If you download minL1lin from
then you can do,
% Data
x = [7.3392, 14.6784, 22.0176, 29.3436, 36.6828, 44.0088, 51.3348, 58.674, 66, 73.3392, 80.6652, 88.0044, 95.3304, 102.6696, 109.9956, 117.3348, 124.6608, 132];
y = [115.1079, 87.7698, 80.5755, 78.1611, 76.5743, 75.7074, 74.9375, 74.9453, 74.59, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990, 74.2990];
% Initial guess for parameter B
initial_guess = 1;
% Error function
error_function = @(B) objFun(B, x,y);
% Optimization of parameters
B = fminsearch(error_function, initial_guess);
[fval,ABC]=error_function(B);
[A,B,C]=deal(ABC{:})
A = 1.0460e+03
B = -1.6184
C = 73.5535
fval
fval = 0.0025
function [fval,p]=objFun(theta, x,y)
arguments
theta; x (:,1); y(:,1);
end
B=theta;
d=ones(size(y));
Q=[x.^B, d]./y;
[AC,fval]=minL1lin(Q,d,[],[],[],[],[],[],[],optimoptions('linprog','Display','off'));
fval=fval/numel(y);
A=AC(1); C=AC(2);
p={A, B, C};
end
  51 件のコメント
roborrr
roborrr 2024 年 12 月 14 日 20:41
編集済み: roborrr 2024 年 12 月 14 日 20:44
Thank you, I have understood your explanation, dear Torsten. However, there are some clarifications I still do not understand:
Torsten: Your previous problem also had two linear parts.
If the model formula contains the sum of not two but three or more parts, can 'minL1lin' still be applied?
As an example for illustration purposes only, consider the model:
y = A./(1 + (lambdax).^m) + B * exp(E./(8*x)) + C * (1 + k * x.^n).
If I construct Q as follows:
Q = [1./(1 + (lambdax).^m), exp(E./(8*x)), (1 + k*x.^n)] ./ z;
Will minL1lin correctly return all three coefficients A, B, and C?
Torsten
Torsten 2024 年 12 月 14 日 21:01
編集済み: Torsten 2024 年 12 月 14 日 21:01
Will minL1lin correctly return all three coefficients A, B, and C?
If you divide by y instead of z and if you supply three instead of two lower and upper bounds (if they are needed at all): yes.

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