Can someone help me to understand this error please and how to fix it? I am having a dataset of 83 images, It is divided into 5 categories, then i made a synthetic dataset that contains 83 images but with some noise and it is also divided into 5 categories, the first dataset is stored in a folder named 'processsvm' and this folder has subfolders that are named like this. "0", "1","2","3","4" , every image in every subfolder is named like this, 0, 1,2,3 etc. so what is causing this error please?
Array formation and parentheses-style indexing with objects of class 'matlab.io.datastore.ImageDatastore' is not allowed. Use
objects of class 'matlab.io.datastore.ImageDatastore' only as scalars or use a cell array.
Error in HOGDigitClassificationExample (line 56)
imshow(trainingSet(2).ImageLocation{3});
here is the code:
syntheticDir = fullfile('E:\sense\SVMCATA\syn-data');
handwrittenDir = fullfile('E:\sense\SVMCATA\processsvm');
trainingSet = imageDatastore(syntheticDir, 'IncludeSubfolders', true, 'LabelSource', 'foldernames');
testSet = imageDatastore(handwrittenDir, 'IncludeSubfolders', true, 'LabelSource', 'foldernames');
In this example, the training set consists of 101 images for each of the 10 digits. The test set consists of 12 images per digit.
figure;
subplot(2,3,1);
imshow(trainingSet(2).ImageLocation{3});
subplot(2,3,2);
imshow(trainingSet(4).ImageLocation{2});
subplot(2,3,3);
imshow(trainingSet(5).ImageLocation{4});
subplot(2,3,4);
imshow(testSet(2).ImageLocation{2});
subplot(2,3,5);
imshow(testSet(4).ImageLocation{5});
subplot(2,3,6);
imshow(testSet(5).ImageLocation{2});
Prior to training and testing a classifier, a pre-processing step is applied to remove noise artifacts introduced while collecting the image samples. This provides better feature vectors for training the classifier.
exTestImage = read(testSet(4), 5);
processedImage = imbinarize(exTestImage);
figure;
subplot(1,2,1)
imshow(exTestImage)
subplot(1,2,2)
imshow(processedImage)
img = read(trainingSet(3), 4);
[hog_2x2, vis2x2] = extractHOGFeatures(img,'CellSize',[2 2]);
[hog_4x4, vis4x4] = extractHOGFeatures(img,'CellSize',[4 4]);
[hog_8x8, vis8x8] = extractHOGFeatures(img,'CellSize',[8 8]);
figure;
subplot(2,3,1:3); imshow(img);
subplot(2,3,4);
plot(vis2x2);
title({'CellSize = [2 2]'; ['Feature length = ' num2str(length(hog_2x2))]});
subplot(2,3,5);
plot(vis4x4);
title({'CellSize = [4 4]'; ['Feature length = ' num2str(length(hog_4x4))]});
subplot(2,3,6);
plot(vis8x8);
title({'CellSize = [8 8]'; ['Feature length = ' num2str(length(hog_8x8))]});
cellSize = [4 4];
hogFeatureSize = length(hog_4x4);
trainingFeatures = [];
trainingLabels = [];
for processsvm = 1:numel(trainingSet)
numImages = trainingSet(processsvm).Count;
features = zeros(numImages, hogFeatureSize, 'single');
for i = 1:numImages
img = read(trainingSet(processsvm), i);
img = imbinarize(img);
features(i, :) = extractHOGFeatures(img, 'CellSize', cellSize);
end
labels = repmat(trainingSet(processsvm).Description, numImages, 1);
trainingFeatures = [trainingFeatures; features];
trainingLabels = [trainingLabels; labels ];
end
Next, train a classifier using the extracted features.
classifier = fitcecoc(trainingFeatures, trainingLabels);
[testFeatures, testLabels] = helperExtractHOGFeaturesFromImageSet(testSet, hogFeatureSize, cellSize);
predictedLabels = predict(classifier, testFeatures);
confMat = confusionmat(testLabels, predictedLabels);
helperDisplayConfusionMatrix(confMat)
