Let us define the model for the classification of data set A that we have created previously.
Later the trained weights of this model will be used for the classification task of data B.
Create a keras neural network as follows:
Add keras.layers.Flatten to flatten the input image to the model.
Add 5 dense layers with n_hidden number of neurons and selu activation function.
Add a final dense layer with 8 neurons and softmax activation function(for classifying 8 classes of data).
model_A = keras.models.Sequential()
model_A.add(keras.layers.Flatten(input_shape=[28, 28]))
for n_hidden in (300, 100, 50, 50, 50):
model_A.add(keras.layers.Dense(n_hidden, activation="selu"))
model_A.add(keras.layers.Dense(8, activation="softmax"))
Define the compiling part of the model:
Set "sparse_categorical_crossentropy" as loss.
Set keras.optimizers.SGD(lr=1e-3) as optimizer.
model_A.compile(loss= << your code comes here >>,
optimizer= << your code comes here >>,
metrics=["accuracy"])
Now train model_A on X_train_A and y_train_A for 5 epochs , and validation_data=(X_valid_A, y_valid_A) using model_A.fit.
history = << your code comes here >>(X_train_A, y_train_A, epochs=5,
validation_data=(X_valid_A, y_valid_A))
Save the model_A we created.
model_A.save("my_model_A.h5")
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