BatchNormalization
keras.layers.normalization.BatchNormalization(epsilon=1e-06, mode=0, axis=-1, momentum=0.9, weights=None, beta_init='zero', gamma_init='one')
Normalize the activations of the previous layer at each batch, i.e. applies a transformation that maintains the mean activation close to 0 and the activation standard deviation close to 1.
Arguments
- epsilon: small float > 0. Fuzz parameter.
- mode: integer, 0 or 1.
- 0: feature-wise normalization.
Each feature map in the input will
be normalized separately. The axis on which
to normalize is specified by the
axis
argument. Note that if the input is a 4D image tensor using Theano conventions (samples, channels, rows, cols) then you should setaxis
to1
to normalize along the channels axis. - 1: sample-wise normalization. This mode assumes a 2D input.
- 0: feature-wise normalization.
Each feature map in the input will
be normalized separately. The axis on which
to normalize is specified by the
- axis: integer, axis along which to normalize in mode 0. For instance, if your input tensor has shape (samples, channels, rows, cols), set axis to 1 to normalize per feature map (channels axis).
- momentum: momentum in the computation of the exponential average of the mean and standard deviation of the data, for feature-wise normalization.
- weights: Initialization weights.
List of 2 numpy arrays, with shapes:
[(input_shape,), (input_shape,)]
- beta_init: name of initialization function for shift parameter
(see initializations), or alternatively,
Theano/TensorFlow function to use for weights initialization.
This parameter is only relevant if you don't pass a
weights
argument. - gamma_init: name of initialization function for scale parameter (see
initializations), or alternatively,
Theano/TensorFlow function to use for weights initialization.
This parameter is only relevant if you don't pass a
weights
argument.
Input shape
Arbitrary. Use the keyword argument input_shape
(tuple of integers, does not include the samples axis)
when using this layer as the first layer in a model.
Output shape
Same shape as input.
References