How to calculate the coefficient of determination R^2 of a Neural Network?

349 views (last 30 days)
Bob
Bob on 4 Dec 2022
Edited: the cyclist on 14 Feb 2023
I want to calculate the coefficient of determination R^2 of a Neural Network by myself.
This is the Regression plot that Neural Network Training Tool:
but I want to calculate it in a way so I can "confirm" what I see on NN Training Tool.
As you can see below I have plot the Target (X) and the Prediction (Y) as Y = A*X
but the Regression Plot is way different, Prediction (Y) = 0.99*Target+0.0044 as Y=A*X+B
I understand that Weights and Biases are A and B respectively, but how can I find it and do it by myself, since they are Weights on Input Layer and Hidden Layer as well.
Also how can I draw the line that represents the middle of my data points?
figure;
plot(Output_Train,pFNN40_Train,'x');
title('Coefficient of Determination R^2');
legend('Train');
xlabel('Target');
ylabel('Prediction');
axis auto;
grid on;

Sign in to answer this question.

Accepted Answer

the cyclist
the cyclist on 4 Dec 2022
Ran in:
The formula is in the documentation here (for fitlm).It is not always the best goodness-of-fit measure for all models, but you should always be able to calculate it like this:
% Some pretend predicted and actual Y values
y_actual = [2.1; 3.2; 5.3; 7.1; 11.9];
y_predicted = [2.9; 2.7; 5.0; 7.2; 11.1];
% Plot them
plot(y_actual,y_predicted,'o')
% Sum of squared residuals
SSR = sum((y_predicted - y_actual).^2);
% Total sum of squares
TSS = sum(((y_actual - mean(y_actual)).^2));
% R squared
Rsquared = 1 - SSR/TSS
Rsquared = 0.9726

More Answers (1)

Joan M. Maura
Joan M. Maura on 14 Feb 2023
Does the R in the regression plots for validation, test, training and all mean R^2 or do I have to square those results?
  1 Comment
the cyclist
the cyclist on 14 Feb 2023
Edited: the cyclist on 14 Feb 2023
Ran in:
In general, and certainly in any output from MathWorks, I would definitely not expect someone to write R when they mean R^2.
Also, you need to be cautious that the coefficient of determination (even though it is often call R^2) is not always equal to the correlation coefficient (R) squared. You can even bulding models in which R^2 is negative.
If you need R^2, you need to calculate it, not just square R.
Here is a contrived example, to illustrate the point:
x = [1.0; 2.0; 3.0; 4.0; 5.0; 6.0];
y_actual = [2.5; 4.1; 7.0; 7.7; 10.7; 12.2];
y_predicted = [2; 3; 4; 5; 6; 7]; % I've chosen these terrible prediction on purpose, to illustrate my point
figure
hold on
plot(x,y_actual,".","MarkerSize",24)
plot(x,y_predicted,".-","MarkerSize",8)
legend(["data","prediction"],"Location","NorthWest")
correlation = corr(x,y_predicted)
correlation = 1
SSR = sum((y_predicted - y_actual).^2);
TSS = sum(((y_actual - mean(y_actual)).^2));
Rsquared = 1 - SSR/TSS
Rsquared = 0.0318
Notice that the correlation is perfect, while the R^2 is terrible. If I had my the prediction smaller (moving them all down by, say 2 units, the R^2 would have gone negative).

Sign in to comment.

Categories

Find more on Sequence and Numeric Feature Data Workflows in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!