我正在嘗試將 Imagenet V2 與遷移學習一起用于多類分類(6 類),但出現以下錯誤。有人可以幫忙嗎?
ValueError: `logits` and `labels` must have the same shape, received ((None, 6) vs (None, 1)).
我從 Andrew Ng 的 CNN 課程中借用了這段代碼,但原來的代碼是用于二進制分類的。我試圖修改它以進行多類分類,但得到了這個錯誤。這是我的代碼:
import matplotlib.pyplot as plt
import numpy as np
import os
import tensorflow as tf
import tensorflow.keras.layers as tfl
import datetime
from tensorflow.keras.preprocessing import image_dataset_from_directory
from tensorflow.keras.layers.experimental.preprocessing import RandomFlip, RandomRotation
BATCH_SIZE = 16
IMG_SIZE = (160, 160)
training_directory = "/content/drive/MyDrive/Microscopy Data/04112028_multiclass_maiden/Training/Actin"
validation_directory = "/content/drive/MyDrive/Microscopy Data/04112028_multiclass_maiden/Validation/Actin"
train_dataset = image_dataset_from_directory(training_directory,
shuffle=True,
batch_size=BATCH_SIZE,
image_size=IMG_SIZE,
seed=42)
validation_dataset = image_dataset_from_directory(validation_directory,
shuffle=True,
batch_size=BATCH_SIZE,
image_size=IMG_SIZE,
seed=42)
輸出:找到屬于 6 個類的 600 個檔案。找到屬于 6 個類的 600 個檔案。代碼續...
class_names = train_dataset.class_names
AUTOTUNE = tf.data.experimental.AUTOTUNE
train_dataset = train_dataset.prefetch(buffer_size=AUTOTUNE)
preprocess_input = tf.keras.applications.mobilenet_v2.preprocess_input
IMG_SHAPE = IMG_SIZE (3,)
base_model = tf.keras.applications.MobileNetV2(input_shape=IMG_SHAPE,
include_top=True,
weights='imagenet')
def huvec_model (image_shape=IMG_SIZE, data_augmentation=data_augmenter()):
''' Define a tf.keras model for binary classification out of the MobileNetV2 model
Arguments:
image_shape -- Image width and height
data_augmentation -- data augmentation function
Returns:
Returns:
tf.keras.model
'''
input_shape = image_shape (3,)
# Freeze the base model by making it non trainable
# base_model.trainable = None
# create the input layer (Same as the imageNetv2 input size)
# inputs = tf.keras.Input(shape=None)
# apply data augmentation to the inputs
# x = None
# data preprocessing using the same weights the model was trained on
# x = preprocess_input(None)
# set training to False to avoid keeping track of statistics in the batch norm layer
# x = base_model(None, training=None)
# Add the new Binary classification layers
# use global avg pooling to summarize the info in each channel
# x = None()(x)
#include dropout with probability of 0.2 to avoid overfitting
# x = None(None)(x)
# create a prediction layer with one neuron (as a classifier only needs one)
# prediction_layer = None
base_model = tf.keras.applications.MobileNetV2(input_shape=IMG_SHAPE,
include_top=False,
weights='imagenet')
base_model.trainable = False
inputs = tf.keras.Input(shape=input_shape)
x = data_augmentation(inputs)
x = preprocess_input(x)
x = base_model(x, training=False)
x = tf.keras.layers.GlobalAveragePooling2D()(x)
x = tfl.Dropout(.2)(x)
prediction_layer = tf.keras.layers.Dense(units = len(class_names), activation='softmax')
# YOUR CODE ENDS HERE
outputs = prediction_layer(x)
model = tf.keras.Model(inputs, outputs)
return model
model2 = huvec_model(IMG_SIZE)
base_model.trainable = True
# Let's take a look to see how many layers are in the base model
print("Number of layers in the base model: ", len(base_model.layers))
# Fine-tune from this layer onwards
fine_tune_at = 120
# Freeze all the layers before the `fine_tune_at` layer
# for layer in base_model.layers[:fine_tune_at]:
# layer.trainable = None
# Define a BinaryCrossentropy loss function. Use from_logits=True
# loss_function=None
# Define an Adam optimizer with a learning rate of 0.1 * base_learning_rate
# optimizer = None
# Use accuracy as evaluation metric
# metrics=None
base_learning_rate = 0.01
# YOUR CODE STARTS HERE
for layer in base_model.layers[:fine_tune_at]:
layer.trainable = False
loss_function=tf.keras.losses.BinaryCrossentropy(from_logits=True)
optimizer= tf.keras.optimizers.Adam(learning_rate=0.1*base_learning_rate)
metrics=['accuracy']
# YOUR CODE ENDS HERE
model2.compile(loss=loss_function,
optimizer = optimizer,
metrics=metrics)
initial_epochs = 5
history = model2.fit(train_dataset, validation_data=validation_dataset, epochs=initial_epochs)
uj5u.com熱心網友回復:
看起來你還必須對你的標簽進行一次熱編碼,即不是為i屬于i第 -th 類的影像標簽提供數字(介于 0 和 5 之間,包括 0 和 5,包括 shape (None, 1)),而是提供一個陣列除了索引 i 處的 1 之外的所有 0,它的形狀為(None, 6)。然后labels具有與 相同的形狀logits。
uj5u.com熱心網友回復:
發現錯誤:
我不得不在模型編譯器中重新定義損失,因為loss='sparse_categorical_crossentropy'它最初定義為loss=tf.keras.losses.BinaryCrossentropy(from_logits=True).
注意:有關詳細資訊,請參閱
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