I wrote a code to implement steepest descent backpropagation with which i am having issues. I am using the Machine CPU dataset and have scaled the inputs and outputs into range [0 1]

The codes in matlab/octave is as follows:

### steepest descent backpropagation

```
%SGD = Steepest Gradient Decent
function weights = nnSGDTrain (X, y, nhid_units, gamma, max_epoch, X_test, y_test)
iput_units = columns (X);
oput_units = columns (y);
n = rows (X);
W2 = rand (nhid_units + 1, oput_units);
W1 = rand (iput_units + 1, nhid_units);
train_rmse = zeros (1, max_epoch);
test_rmse = zeros (1, max_epoch);
for (epoch = 1:max_epoch)
delW2 = zeros (nhid_units + 1, oput_units)';
delW1 = zeros (iput_units + 1, nhid_units)';
for (i = 1:rows(X))
o1 = sigmoid ([X(i,:), 1] * W1); %1xn+1 * n+1xk = 1xk
o2 = sigmoid ([o1, 1] * W2); %1xk+1 * k+1xm = 1xm
D2 = o2 .* (1 - o2);
D1 = o1 .* (1 - o1);
e = (y_test(i,:) - o2)';
delta2 = diag (D2) * e; %mxm * mx1 = mx1
delta1 = diag (D1) * W2(1:(end-1),:) * delta2; %kxm * mx1 = kx1
delW2 = delW2 + (delta2 * [o1 1]); %mx1 * 1xk+1 = mxk+1 %already transposed
delW1 = delW1 + (delta1 * [X(i, :) 1]); %kx1 * 1xn+1 = k*n+1 %already transposed
end
delW2 = gamma .* delW2 ./ n;
delW1 = gamma .* delW1 ./ n;
W2 = W2 + delW2';
W1 = W1 + delW1';
[dummy train_rmse(epoch)] = nnPredict (X, y, nhid_units, [W1(:);W2(:)]);
[dummy test_rmse(epoch)] = nnPredict (X_test, y_test, nhid_units, [W1(:);W2(:)]);
printf ('Epoch: %d\tTrain Error: %f\tTest Error: %f\n', epoch, train_rmse(epoch), test_rmse(epoch));
fflush (stdout);
end
weights = [W1(:);W2(:)];
% plot (1:max_epoch, test_rmse, 1);
% hold on;
plot (1:max_epoch, train_rmse(1:end), 2);
% hold off;
end
```

### predict

```
%Now SFNN Only
function [o1 rmse] = nnPredict (X, y, nhid_units, weights)
iput_units = columns (X);
oput_units = columns (y);
n = rows (X);
W1 = reshape (weights(1:((iput_units + 1) * nhid_units),1), iput_units + 1, nhid_units);
W2 = reshape (weights((((iput_units + 1) * nhid_units) + 1):end,1), nhid_units + 1, oput_units);
o1 = sigmoid ([X ones(n,1)] * W1); %nxiput_units+1 * iput_units+1xnhid_units = nxnhid_units
o2 = sigmoid ([o1 ones(n,1)] * W2); %nxnhid_units+1 * nhid_units+1xoput_units = nxoput_units
rmse = RMSE (y, o2);
end
```

### RMSE function

```
function rmse = RMSE (a1, a2)
rmse = sqrt (sum (sum ((a1 - a2).^2))/rows(a1));
end
```

I have also trained the same dataset using the R RSNNS package `mlp`

and the RMSE for train set (first 100 examples) are around 0.03 . But in my implementation I cannot achieve lower RMSE than 0.14 . And sometimes the errors grow for some higher learning rates, and no learning rate gets me lower RMSE than 0.14. Also a paper i referred report the RMSE in for the train set is around 0.03

I wanted to know where is the problem i the code. I have followed Raul Rojas book and confirmed that things are okay.

Please let me know if any information is required.