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Create Simple Image Classification Network

This example shows how to create and train a simple convolutional neural network for deep learning classification. Convolutional neural networks are essential tools for deep learning and are especially suited for image recognition.

The example demonstrates how to:

  • Load image data.

  • Define the network architecture.

  • Specify training options.

  • Train the network.

  • Predict the labels of new data and calculate the classification accuracy.

For an example showing how to interactively create and train a simple image classification network, see Get Started with Image Classification.

Load Data

Unzip the digit sample data and create an image datastore. The imageDatastore function automatically labels the images based on folder names.

unzip("DigitsData.zip")
imds = imageDatastore("DigitsData", ...
    IncludeSubfolders=true, ...
    LabelSource="foldernames");

Divide the data into training and validation data sets, so that each category in the training set contains 750 images, and the validation set contains the remaining images from each label. splitEachLabel splits the image datastore into two new datastores for training and validation.

numTrainFiles = 750;
[imdsTrain,imdsValidation] = splitEachLabel(imds,numTrainFiles,"randomized");

View the class names.

classNames = categories(imdsTrain.Labels)
classNames = 10x1 cell
    {'0'}
    {'1'}
    {'2'}
    {'3'}
    {'4'}
    {'5'}
    {'6'}
    {'7'}
    {'8'}
    {'9'}

Define Network Architecture

Define the convolutional neural network architecture. Specify the size of the images in the input layer of the network and the number of classes in the fully connected layer. Each image is 28-by-28-by-1 pixels and there are 10 classes.

inputSize = [28 28 1];
numClasses = 10;

layers = [
    imageInputLayer(inputSize)
    convolution2dLayer(5,20)
    batchNormalizationLayer
    reluLayer
    fullyConnectedLayer(numClasses)
    softmaxLayer];

For more information about deep learning layers, see List of Deep Learning Layers.

Specify Training Options

Specify the training options. Choosing among the options requires empirical analysis. To explore different training option configurations by running experiments, you can use the Experiment Manager app.

options = trainingOptions("sgdm", ...
    MaxEpochs=4, ...
    ValidationData=imdsValidation, ...
    ValidationFrequency=30, ...
    Plots="training-progress", ...
    Metrics="accuracy", ...
    Verbose=false);

Train Neural Network

Train the neural network using the trainnet function. For classification, use cross-entropy loss. By default, the trainnet function uses a GPU if one is available. Using a GPU requires a Parallel Computing Toolbox™ license and a supported GPU device. For information on supported devices, see GPU Computing Requirements (Parallel Computing Toolbox). Otherwise, the function uses the CPU. To specify the execution environment, use the ExecutionEnvironment training option.

net = trainnet(imdsTrain,layers,"crossentropy",options);

Test Neural Network

To test the neural network, classify the validation data and calculate the classification accuracy.

Make predictions using the minibatchpredict function and convert the scores to labels using the scores2label function. By default, the minibatchpredict function uses a GPU if one is available.

scores = minibatchpredict(net,imdsValidation);
YValidation = scores2label(scores,classNames);

Calculate the classification accuracy. The accuracy is the percentage of correctly predicted labels.

TValidation = imdsValidation.Labels;
accuracy = mean(YValidation == TValidation)
accuracy = 0.9896

For next steps in deep learning, you can try using pretrained network for other tasks. Solve new classification problems on your image data with transfer learning or feature extraction. For examples, see Start Deep Learning Faster Using Transfer Learning and Train Classifiers Using Features Extracted from Pretrained Networks. To learn more about pretrained networks, see Pretrained Deep Neural Networks.

See Also

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