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小编这次要给大家分享的是详解Keras中自定义损失函数,文章内容丰富,感兴趣的小伙伴可以来了解一下,希望大家阅读完这篇文章之后能够有所收获。
在Keras中可以自定义损失函数,在自定义损失函数的过程中需要注意的一点是,损失函数的参数形式,这一点在Keras中是固定的,须如下形式:
def my_loss(y_true, y_pred): # y_true: True labels. TensorFlow/Theano tensor # y_pred: Predictions. TensorFlow/Theano tensor of the same shape as y_true . . . return scalar #返回一个标量值
然后在model.compile中指定即可,如:
model.compile(loss=my_loss, optimizer='sgd')
具体参考Keras官方metrics的定义keras/metrics.py:
"""Built-in metrics. """ from __future__ import absolute_import from __future__ import division from __future__ import print_function import six from . import backend as K from .losses import mean_squared_error from .losses import mean_absolute_error from .losses import mean_absolute_percentage_error from .losses import mean_squared_logarithmic_error from .losses import hinge from .losses import logcosh from .losses import squared_hinge from .losses import categorical_crossentropy from .losses import sparse_categorical_crossentropy from .losses import binary_crossentropy from .losses import kullback_leibler_divergence from .losses import poisson from .losses import cosine_proximity from .utils.generic_utils import deserialize_keras_object from .utils.generic_utils import serialize_keras_object def binary_accuracy(y_true, y_pred): return K.mean(K.equal(y_true, K.round(y_pred)), axis=-1) def categorical_accuracy(y_true, y_pred): return K.cast(K.equal(K.argmax(y_true, axis=-1), K.argmax(y_pred, axis=-1)), K.floatx()) def sparse_categorical_accuracy(y_true, y_pred): # reshape in case it's in shape (num_samples, 1) instead of (num_samples,) if K.ndim(y_true) == K.ndim(y_pred): y_true = K.squeeze(y_true, -1) # convert dense predictions to labels y_pred_labels = K.argmax(y_pred, axis=-1) y_pred_labels = K.cast(y_pred_labels, K.floatx()) return K.cast(K.equal(y_true, y_pred_labels), K.floatx()) def top_k_categorical_accuracy(y_true, y_pred, k=5): return K.mean(K.in_top_k(y_pred, K.argmax(y_true, axis=-1), k), axis=-1) def sparse_top_k_categorical_accuracy(y_true, y_pred, k=5): # If the shape of y_true is (num_samples, 1), flatten to (num_samples,) return K.mean(K.in_top_k(y_pred, K.cast(K.flatten(y_true), 'int32'), k), axis=-1) # Aliases mse = MSE = mean_squared_error mae = MAE = mean_absolute_error mape = MAPE = mean_absolute_percentage_error msle = MSLE = mean_squared_logarithmic_error cosine = cosine_proximity def serialize(metric): return serialize_keras_object(metric) def deserialize(config, custom_objects=None): return deserialize_keras_object(config, module_objects=globals(), custom_objects=custom_objects, printable_module_name='metric function') def get(identifier): if isinstance(identifier, dict): config = {'class_name': str(identifier), 'config': {}} return deserialize(config) elif isinstance(identifier, six.string_types): return deserialize(str(identifier)) elif callable(identifier): return identifier else: raise ValueError('Could not interpret ' 'metric function identifier:', identifier)
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