Error using gpuArray/reshape (Number of element must not change)
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I have refer the following file exchange for dual input layer CNN.
Kenta (2020). Image Classification using CNN with Multi Input 複数の入力層を持つCNN (https://www.mathworks.com/matlabcentral/fileexchange/74760-image-classification-using-cnn-with-multi-input-cnn).
I have training and testing images for 50 classes. I need to fuse the features learned from part1 and part2 images.
my input size is 240*320.
There is an error in reshape the concatenated features. Kindly help me to resolve the errors. code and error is attatced below.
I attatched the code here.
%Two layers for deep learning called dlnet1 and dlnet2 were prepared. The operation of the CNN follows:
%The input images in the part1 were convoluted and the information was forwarded with a function forward
%The same operation was done with the part2 images and the features were aggregated
%The aggregated features were processed with some fully connected layers called dlnet3
%The cross entropy loss was calculated based on the labels and the output from the soft max layer
%Back-propagete the loss and update the weights and bias in the dlnet3
%Update the parameters in the dlnet1
%Update the parameters in the dlnet2
imagefolder = 'C:\Users\study\PG\PROJECT\Training';
imds = imageDatastore(imagefolder, ...
'IncludeSubfolders',true, ...
'LabelSource','foldernames');
[XTrain, YTrain] = imds2array(imds);
XTrain1=XTrain(:,:,:,1:300); % extract first part
XTrain2=XTrain(:,:,:,301:600);% extract second part
classes = categories(YTrain);% retrieve the class information with the type of categorical
numClasses = numel(classes);
%Display the examples
%Display the some training images randomly from the upper and down part, respectively. To show the tiled image, use montage.
dispIdx=randi(50,[10 1]);
dispX1=XTrain1(:,:,:,dispIdx);
figure;montage(dispX1)
dispX2=XTrain2(:,:,:,dispIdx);
figure;montage(dispX2)
%Define Network
%The dlnet1, 2 and 3 are created in this section. To allow you to follow the flow of this example, this process was done with a helper function located at the end of this script.
numHiddenDimension=50;
dlnet1=createLayer(XTrain1,numHiddenDimension);
dlnet2=createLayer(XTrain2,numHiddenDimension);
dlnet3=createLayerFullyConnect(numHiddenDimension);
%Specify the training options
velocity1 = [];velocity2 = [];velocity3 = [];
numEpochs = 10;
miniBatchSize = 20;
numObservations = numel(YTrain);
numIterationsPerEpoch = floor(numObservations./miniBatchSize);
averageSqGrad1=[];
averageSqGrad2=[];
averageSqGrad3=[];
averageGrad1=[];
averageGrad2=[];
averageGrad3=[];
epsilon=0.001;
%learnRate = 0.001;
GradDecay=0.9;
sqGradDecay= 0.9;
executionEnvironment = "auto";
%Prepare for plotting training process
%Initialize the training progress plot.
figure
lineLossTrain = animatedline;
xlabel("Iteration")
ylabel("Loss")
Train Model
iteration = 0;
start = tic;
% Loop over epochs.
for epoch = 1:numEpochs
% Loop over mini-batches.
for i = 1:numIterationsPerEpoch
iteration = iteration + 1;
% Read mini-batch of data and convert the labels to dummy
% variables.
idx = (i-1)*miniBatchSize+1:i*miniBatchSize;
X1 = XTrain1(:,:,:,idx);
X2 = XTrain2(:,:,:,idx);
%X3 = XTrain3(:,:,:,idx);
% convert the label into one-hot vector to calculate the loss
Y = zeros(numClasses, miniBatchSize, 'single');
for c = 1:numClasses
Y(c,YTrain(idx)==classes(c)) = 1;
end
% Convert mini-batch of data to dlarray.
dlX1 = dlarray(single(X1),'SSCB');
dlX2 = dlarray(single(X2),'SSCB');
%dlX3 = dlarray(single(X3),'SSCB');
% If training on a GPU, then convert data to gpuArray.
if (executionEnvironment == "auto" && canUseGPU) || executionEnvironment == "gpu"
dlX1 = gpuArray(dlX1);
dlX2 = gpuArray(dlX2);
%dlX3 = gpuArray(dlX3);
end
%the traning loss and the gradients after the backpropagation were
%calculated using the helper function modelGradients_demo
[gradients1,gradients2,gradients3,loss] = dlfeval(@modelGradients,dlnet1,dlnet2,dlnet3,dlX1,dlX2,dlarray(Y));
learnRate = initialLearnRate/(1 + decay*iteration);
% Update the network parameters using the SGDM optimizer.
% Update the parameters in dlnet1 to 3 sequentially
[dlnet3.Learnables, velocity3] = sgdmupdate(dlnet3.Learnables, gradients3, velocity3, learnRate, momentum);
[dlnet2.Learnables, velocity2] = sgdmupdate(dlnet2.Learnables, gradients2, velocity2, learnRate, momentum);
[dlnet1.Learnables, velocity1] = sgdmupdate(dlnet1.Learnables, gradients1, velocity1, learnRate, momentum);
% Display the training progress.
D = duration(0,0,toc(start),'Format','hh:mm:ss');
addpoints(lineLossTrain,iteration,double(gather(extractdata(loss))))
title("Epoch: " + epoch + ", Elapsed: " + string(D))
drawnow
end
end
%Test Model
%Test the classification accuracy of the model by comparing the predictions on a test set with the true labels.
imagefolder2 = 'C:\Users\manjurama\Desktop\study\PG\PROJECT\finger vein database - Copy\Testing';
imds2 = imageDatastore(imagefolder2, ...
'IncludeSubfolders',true, ...
'LabelSource','foldernames');
[XTest, YTest] = imds2array(imds2);
XTest1=XTest(:,:,:,1:150); % extract the upper part
XTest2=XTest(:,:,:,151:300);% extract the down part
classes2 = categories(YTest);% retrieve the class information with the type of categorical
numClasses2 = numel(classes2);
Convert the data to a dlarray object with dimension format 'SSCB'. For GPU prediction, also convert the data to gpuArray.
dlXTest1 = dlarray(XTest1,'SSCB');
dlXTest2 = dlarray(XTest2,'SSCB');
if (executionEnvironment == "auto" && canUseGPU) || executionEnvironment == "gpu"
dlXTest1 = gpuArray(dlXTest1);
dlXTest2 = gpuArray(dlXTest2);
end
dlYPred1 = forward(dlnet1,dlXTest1);
dlYPred2 = forward(dlnet2,dlXTest2);
dlX_concat=[dlYPred1;dlYPred2];
dlX_concat=reshape(dlX_concat,[1 numHiddenDimension*2, 1]);
dlX_concat=dlarray(single(dlX_concat),'SSCB');
To classify images using a dlnetwork object, use the predict function and find the classes with the highest scores.
dlYPred = predict(dlnet3,dlX_concat); % you can also use the function forward and softmax to predict
[~,idx] = max(extractdata(dlYPred),[],1);
YPred = classes(idx);
Evaluate the classification accuracy.
accuracy = mean(YPred==YTest)
function [X, T] = imds2array(imds)
imagesCellArray = imds.readall();
numImages = numel( imagesCellArray );
[h, w, c] = size( imagesCellArray{1} );
X = zeros( h, w, c, numImages );
for i=1:numImages
X(:,:,:,i) = im2double( imagesCellArray{i} );
end
T = imds.Labels;
end
function dlnet=createLayer(~,numHiddenDimension)
layers = [
imageInputLayer([240 320 3],"Name","imageinput","Normalization","none")
convolution2dLayer([3 3],8,"Name","conv_1","Padding","same")
batchNormalizationLayer("Name","batchnorm_1")
reluLayer("Name","relu_1")
maxPooling2dLayer([2 2],"Name","maxpool_1","Stride",[2 2])
convolution2dLayer([3 3],16,"Name","conv_2","Padding","same")
batchNormalizationLayer("Name","batchnorm_2")
reluLayer("Name","relu_2")
maxPooling2dLayer([2 2],"Name","maxpool_2","Stride",[2 2])
convolution2dLayer([3 3],32,"Name","conv_3","Padding","same")
batchNormalizationLayer("Name","batchnorm_3")
reluLayer("Name","relu_3")
fullyConnectedLayer(numHiddenDimension,"Name","fc")];
lgraph = layerGraph(layers);
dlnet = dlnetwork(lgraph);
end
function dlnet=createLayerFullyConnect(numHiddenDimension)
layers = [
imageInputLayer([1 numHiddenDimension*2 1],"Name","imageinput","Normalization","none")
%fullyConnectedLayer(100,"Name","fc_1")
fullyConnectedLayer(50,"Name","fc_2")];
lgraph = layerGraph(layers);
dlnet = dlnetwork(lgraph);
end
function [gradients1,gradients2,gradients3, loss] = modelGradients(dlnet1,dlnet2,dlnet3,dlX1,dlX2,Y)
dlYPred1 = forward(dlnet1,dlX1);
dlYPred2 = forward(dlnet2,dlX2);
dlX_concat=[dlYPred1;dlYPred2];
dlX_concat=reshape(dlX_concat,[1 50, 1, 20]);%the value 128 corresponds the mini batch size
dlX_concat=dlarray(single(dlX_concat),'SSCB');
dlY_concat=forward(dlnet3,dlX_concat);
dlYPred_concat = softmax(dlY_concat);
loss = crossentropy(dlYPred_concat,Y);
[gradients1,gradients2,gradients3] = dlgradient(loss,dlnet1.Learnables,dlnet2.Learnables,dlnet3.Learnables);
end
it shows the following error
Regards,
Rama senthil
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