LeakyReLU
keras.layers.LeakyReLU(alpha=0.3)
Leaky version of a Rectified Linear Unit.
It allows a small gradient when the unit is not active:f(x) = alpha * x for x < 0
,f(x) = x for x >= 0
.
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 the input.
Arguments
- alpha: float >= 0. Negative slope coefficient.
References
PReLU
keras.layers.PReLU(alpha_initializer='zeros', alpha_regularizer=None, alpha_constraint=None, shared_axes=None)
Parametric Rectified Linear Unit.
It follows:f(x) = alpha * x for x < 0
,f(x) = x for x >= 0
,where alpha
is a learned array with the same shape as x.
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 the input.
Arguments
- alpha_initializer: initializer function for the weights.
- alpha_regularizer: regularizer for the weights.
- alpha_constraint: constraint for the weights.
- shared_axes: the axes along which to share learnable parameters for the activation function. For example, if the incoming feature maps are from a 2D convolution with output shape
(batch, height, width, channels)
, and you wish to share parameters across space so that each filter only has one set of parameters, setshared_axes=[1, 2]
.
References
ELU
keras.layers.ELU(alpha=1.0)
Exponential Linear Unit.
It follows:f(x) = alpha * (exp(x) - 1.) for x < 0
,f(x) = x for x >= 0
.
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 the input.
Arguments
- alpha: scale for the negative factor.
References
ThresholdedReLU
keras.layers.ThresholdedReLU(theta=1.0)
Thresholded Rectified Linear Unit.
It follows:f(x) = x for x > theta
,f(x) = 0 otherwise
.
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 the input.
Arguments
- theta: float >= 0. Threshold location of activation.
References
Softmax
keras.layers.Softmax(axis=-1)
Softmax activation function.
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 the input.
Arguments
- axis: Integer, axis along which the softmax normalization is applied.
ReLU
keras.layers.ReLU(max_value=None, negative_slope=0.0, threshold=0.0)
Rectified Linear Unit activation function.
With default values, it returns element-wise max(x, 0)
.
Otherwise, it follows:f(x) = max_value
for x >= max_value
,f(x) = x
for threshold <= x < max_value
,f(x) = negative_slope * (x - threshold)
otherwise.
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 the input.
Arguments
- max_value: float >= 0. Maximum activation value.
- negative_slope: float >= 0. Negative slope coefficient.
- threshold: float. Threshold value for thresholded activation.