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This finds the mean of the squared errors: MSE = mean(errors.^2) Each element is squared separately, and then the mean of the resulting vector is found.


As suggested by @larsmans you can use: mse = ((A - B) ** 2).mean(axis=ax) with ax=0 the average is performed along the row, for each column, returning an array with ax=1 the average is performed along the column, for each row, returning an array with ax=None the average is performed element-wise along the array, returning a single value


imresize support resize with fixed number of cols and rows: imresize(img, [rows, cols]). You can use this function variant for second resize. imageReduced = imresize(imageOriginal, 0.25, 'nearest'); imageGenerated = imresize(imageReduced, size(imageOriginal), 'nearest');


Like @Joran told, %Var is the amount of total variance of Y explained by your random forest model. After the adjust, apply the model to your validation data (1/3 remain): RFestimated = predict(r, data=ValidationData) It is interesting also to check the residual: qqnorm((RFestimated - ValidationData$V9)/sd(RFestimated-ValidationData$V9)) ...


sum(errors.^2) / numel(errors)


This method is used to evaluate the multilayer perceptron accodring to its output activation. It assumes the most common usage of such, so: for linear output it returns the MSE error 0.5*sum(sum((y - t).^2)) for logistic output it returns the cross entropy error -sum(sum(t.*log(y) + (1 - t).*log(1 - y))) for softmax output it returns the corresponding ...


Before even writing a single line of code, it is needed to understand what we want. The Mean Squared Error (MSE) is a measurement of difference defined as: where Yhat is the estimated output and Y is the reference output. Both signals/vectors have the same number of points, which is n. Then, you want the averaged MSE over m experiments, hence you need ...


RMSE is the square root of the MSE. Since the square root is a monotone function, you'll get the same ranking. Just the number has a different interpretation. RMSE can be more meaningful when you understand the data. Don't use it for clustering. Use it for classification and regression only.

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