How to save a neural network to test on a new dataset?

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Joana
Joana 2019 年 12 月 16 日
コメント済み: Dheeraj Singh 2019 年 12 月 23 日
Hi,
I am using the following code to train and test NN for 2-class classification. I need to save the trained network to test on a diffreent data set. I tried the save net command, but it just saved the results and not the trained model.
Can nayone please help to get that.?
load iris.mat; % Matlab also provides this dataset (load fisheriris.mat)
% Call features & labels
feat=f; label=l;
% Programmer: Jingwei Too
function NN=jNN(feat,label,kfold,Hiddens,Maxepochs)
% Layer
if length(Hiddens)==1
h1=Hiddens(1); net=patternnet(h1);
elseif length(Hiddens)==2
h1=Hiddens(1); h2=Hiddens(2); net=patternnet([h1 h2]);
elseif length(Hiddens)==3
h1=Hiddens(1); h2=Hiddens(2); h3=Hiddens(3);
net=patternnet([h1 h2 h3]);
end
% rng('default');
% Divide data into k-folds
fold=cvpartition(label,'kfold',kfold,'stratify',true);
% Pre
pred2=[]; ytest2=[]; Afold=zeros(kfold,1);
% Neural network start
for i=1:kfold
% Call index of training & testing sets
trainIdx=fold.training(i); testIdx=fold.test(i);
% Call training & testing features and labels
xtrain=feat(trainIdx,:); ytrain=label(trainIdx);
xtest=feat(testIdx,:); ytest=label(testIdx);
% Set Maximum epochs
net.trainParam.epochs= Maxepochs;
% to prevent early stopping
net.trainParam.max_fail = 500;
net.trainParam.min_grad = 0.000000000000001;
net.plotFcns = {'plotperform','plottrainstate','ploterrhist', ...
'plotconfusion', 'plotroc'};
% Training model
net=train(net,xtrain',dummyvar(ytrain)');
% Perform testing
pred=net(xtest');
% Confusion matrix
[~,con]=confusion(dummyvar(ytest)',pred);
% Get accuracy for each fold
Afold(i)=100*sum(diag(con))/sum(con(:));
% Store temporary result for each fold
pred2=[pred2(1:end,:),pred]; ytest2=[ytest2(1:end);ytest];
end
% Overall confusion matrix
save net
[~,confmat]=confusion(dummyvar(ytest2)',pred2); confmat=transpose(confmat);
% Average accuracy over k-folds
acc=mean(Afold);
% Store results
NN.fold=Afold; NN.acc=acc; NN.con=confmat;
fprintf('\n Classification Accuracy (NN): %g %%',acc);
% figure, plotperform(tr)
%figure, plottrainstate(tr)
% figure, ploterrhist(e)
% figure, plotconfusion(ytest2,pred)
% figure, plotroc(Labels,y)
end

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採用された回答

Dheeraj Singh
Dheeraj Singh 2019 年 12 月 20 日
save will generally save all the variables present in the workspace at point of time.
So, instead of saving the model inside the function, you can return the model
function [net,NN]=jNN(feat,label,kfold,Hiddens,Maxepochs)
and then use the save command
save net
Also, if you trying to use the iris dataset in MATLAB use iris.dat
load iris.dat
feat=iris(:,1:4); label=iris(:,5);
I used the following code and it is working for me:
feat=iris(:,1:4); label=iris(:,5);
% Programmer: Jingwei Too
[net,NN]=jNN(feat,label,5,[10 10 10],10000)
save net
  2 件のコメント
Joana
Joana 2019 年 12 月 20 日
Hi Dheeraj,
Thanks for your answer.
I have one more question regarding data preparation for the Input. I have EEG data for 2-classes, recorded at 1200hz, with 32 EEG channels. i have extracted each class for 1 second for 100 trials. So the data is in the format of number of channels x sampling frequency x trials = 32x1200x200.
I tried the above program by converting the data to 2D as: 38,400x200.
SO input layers neurons are 38,400. and 3 hidden layers with neurons [10 10 10], one output neuron.
Is it the right way to do it.? or should i try something else.? (This gives acceptable results though but i am confused if inout neurons can be this much)
I tried using cell array function but it gives an error that 'Data distribution doesn't have equal number of time steps'.
I'll highly appreciate if you can guide me on this one. :)
Dheeraj Singh
Dheeraj Singh 2019 年 12 月 23 日
This approach looks fine.
But to get bettwe results you may try using Feature Extraction by Means of Spatial Filtering (Common Spatial Patterns) as done in the following blog:
https://in.mathworks.com/company/newsletters/articles/eeg-data-processing-and-classification-with-gbsanalyze-under-matlab.html
You can also refer to These File Exchange Links for EEG Data Analysis:
https://in.mathworks.com/matlabcentral/fileexchange/71322-eeg-signal-analysis?s_tid=FX_rc1_behav
https://in.mathworks.com/matlabcentral/fileexchange/55112-eeg-analysis-and-classification

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