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I am working on an image classification problem in Keras.

I am training the model using model.fit_generator for data augmentation. While training per epoch, I am also evaluating on validation data.

Training is done on 90% of the data and Validation is done on 10% of the data. The following is my code:

datagen = ImageDataGenerator(
    rotation_range=20,
    zoom_range=0.3)


batch_size=32
epochs=30

model_checkpoint = ModelCheckpoint('myweights.hdf5', monitor='val_acc', verbose=1, save_best_only=True, mode='max')

lr = 0.01
sgd = SGD(lr=lr, decay=1e-6, momentum=0.9, nesterov=False)
model.compile(loss='categorical_crossentropy',
          optimizer=sgd,
          metrics=['accuracy'])



def step_decay(epoch):
    # initialize the base initial learning rate, drop factor, and
    # epochs to drop every
    initAlpha = 0.01
    factor = 1
    dropEvery = 3

    # compute learning rate for the current epoch
    alpha = initAlpha * (factor ** np.floor((1 + epoch) / dropEvery))

    # return the learning rate
    return float(alpha)



history=model.fit_generator(datagen.flow(xtrain, ytrain, batch_size=batch_size),
                    steps_per_epoch=xtrain.shape[0] // batch_size,
                  callbacks[LearningRateScheduler(step_decay),model_checkpoint],
                    validation_data = (xvalid, yvalid),
                    epochs = epochs, verbose = 1)

However, upon plotting the training accuracy and validation accuracy (as well as the training loss and validation loss), I noticed the validation accuracy is higher than training accuracy (and likewise, validation loss is lower than training loss). Here are my resultant plots after training (please note that validation is referred to as "test" in the plots):

enter image description here enter image description here

When I do not apply data augmentation, the training accuracy is higher than the validation accuracy.From my understanding, the training accuracy should typically be greater than validation accuracy. Can anyone give insights why this is not the case in my situation where data augmentation is applied?

  • You suggest that data augmentation could be to blame, and that does seem plausible. However, can you please clarify something: have you tried this without data augmentation? If so, how did the train and validation losses compare then? – myrtlecat Feb 17 '18 at 20:25
  • When I do not apply data augmentation, the training accuracy is higher than the validation accuracy....this is included in the post now. – user121 Feb 17 '18 at 20:31
  • It isn't totally clear from your code, but it looks like you aren't applying any data augmentation to your validation data. Is this correct? – myrtlecat Feb 17 '18 at 20:52
  • this is correct...I am not applying data augmentation to the validation data – user121 Feb 17 '18 at 20:56
  • I think that's the problem. See my answer below. TL;DR data augmentation sometimes makes the model's task harder. If you augment the validation data as well you should see things go back to normal. – myrtlecat Feb 17 '18 at 20:58
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The following is just a theory, but it is one that you can test!

One possible explanation why your validation accuracy is better than your training accuracy, is that the data augmentation you are applying to the training data is making the task significantly harder for the network. (It's not totally clear from your code sample. but it looks like you are applying the augmentation only to your training data, not your validation data).

To see why this might be the case, imagine you are training a model to recognise whether someone in the picture is smiling or frowning. Most pictures of faces have the face the "right way up" so the model could solve the task by recognising the mouth and measuring if it curves upwards or downwards. If you now augment the data by applying random rotations, the model can no longer focus just on the mouth, as the face could be upside down. In addition to recognising the mouth and measuring its curve, the model now also has to work out the orientation of the face as a whole and compare the two.

In general, applying random transformations to your data is likely to make it harder to classify. This can be a good thing as it makes your model more robust to changes in the input, but it also means that your model gets an easier ride when you test it on non-augmented data.

This explanation might not apply to your model and data, but you can test it in two ways:

  1. If you decrease the range of the augmentation transformations you are using you should see the training and validation loss get closer together.
  2. If you apply the exact same augmentation transformations to the validation data as you do the training data, then you should see the validation accuracy drop below the training accuracy as you expected.
  • I will test this and update soon – user121 Feb 17 '18 at 21:25

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