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背景
我对 Python 和机器学习完全陌生。我只是尝试根据我在 Internet 上找到的代码设置一个 UNet,并希望使其适应我正在一点一点地工作的情况。当尝试将 .fit 训练数据时,我收到以下错误:
InvalidArgumentError: required broadcastable shapes at loc(unknown)
[[node Equal (defined at <ipython-input-68-f1422c6f17bb>:1) ]] [Op:__inference_train_function_3847]
当我搜索它时,我得到了很多结果,但大多数都是不同的错误。
这是什么意思?而且,更重要的是,我该如何修复它?
导致错误的代码
这个错误的上下文如下:我想分割图像并标记不同的类。我为训练、测试和验证数据设置了目录“trn”、“tst”和“val”。 dir_dat() 函数应用 os.path.join() 获取相应 数据集 的完整路径。这 3 个文件夹中的每一个都有用整数标记的每个类的子目录。在每个文件夹中,都有一些 .tif 相应类别的图像。
我定义了以下图像数据生成器(训练数据稀疏,因此进行了扩充):
classes = np.array([ 0, 2, 4, 6, 8, 11, 16, 21, 29, 30, 38, 39, 51])
bs = 15 # batch size
augGen = ks.preprocessing.image.ImageDataGenerator(rotation_range = 365,
width_shift_range = 0.05,
height_shift_range = 0.05,
horizontal_flip = True,
vertical_flip = True,
fill_mode = "nearest") \
.flow_from_directory(directory = dir_dat("trn"),
classes = [str(x) for x in classes.tolist()],
class_mode = "categorical",
batch_size = bs, seed = 42)
tst_batches = ks.preprocessing.image.ImageDataGenerator() \
.flow_from_directory(directory = dir_dat("tst"),
classes = [str(x) for x in classes.tolist()],
class_mode = "categorical",
batch_size = bs, shuffle = False)
val_batches = ks.preprocessing.image.ImageDataGenerator() \
.flow_from_directory(directory = dir_dat("val"),
classes = [str(x) for x in classes.tolist()],
class_mode = "categorical",
batch_size = bs)
然后我根据 这个例子 建立了UNet。在这里,我更改了一些参数以使 UNet 适应这种情况(多类),即最后一层的激活和损失函数:
layer_in = ks.layers.Input(shape = (imgr, imgc, imgdim))
# convert pixel integer values to float
inVals = ks.layers.Lambda(lambda x: x / 255)(layer_in)
# Contraction path
c1 = ks.layers.Conv2D(16, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(inVals)
c1 = ks.layers.Dropout(0.1)(c1)
c1 = ks.layers.Conv2D(16, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c1)
p1 = ks.layers.MaxPooling2D((2, 2))(c1)
c2 = ks.layers.Conv2D(32, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(p1)
c2 = ks.layers.Dropout(0.1)(c2)
c2 = ks.layers.Conv2D(32, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c2)
p2 = ks.layers.MaxPooling2D((2, 2))(c2)
c3 = ks.layers.Conv2D(64, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(p2)
c3 = ks.layers.Dropout(0.2)(c3)
c3 = ks.layers.Conv2D(64, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c3)
p3 = ks.layers.MaxPooling2D((2, 2))(c3)
c4 = ks.layers.Conv2D(128, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(p3)
c4 = ks.layers.Dropout(0.2)(c4)
c4 = ks.layers.Conv2D(128, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c4)
p4 = ks.layers.MaxPooling2D(pool_size = (2, 2))(c4)
c5 = ks.layers.Conv2D(256, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(p4)
c5 = ks.layers.Dropout(0.3)(c5)
c5 = ks.layers.Conv2D(256, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c5)
# Expansive path
u6 = ks.layers.Conv2DTranspose(128, (2, 2), strides = (2, 2), padding = "same")(c5)
u6 = ks.layers.concatenate([u6, c4])
c6 = ks.layers.Conv2D(128, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(u6)
c6 = ks.layers.Dropout(0.2)(c6)
c6 = ks.layers.Conv2D(128, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c6)
u7 = ks.layers.Conv2DTranspose(64, (2, 2), strides = (2, 2), padding = "same")(c6)
u7 = ks.layers.concatenate([u7, c3])
c7 = ks.layers.Conv2D(64, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(u7)
c7 = ks.layers.Dropout(0.2)(c7)
c7 = ks.layers.Conv2D(64, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c7)
u8 = ks.layers.Conv2DTranspose(32, (2, 2), strides = (2, 2), padding = "same")(c7)
u8 = ks.layers.concatenate([u8, c2])
c8 = ks.layers.Conv2D(32, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(u8)
c8 = ks.layers.Dropout(0.1)(c8)
c8 = ks.layers.Conv2D(32, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c8)
u9 = ks.layers.Conv2DTranspose(16, (2, 2), strides = (2, 2), padding = "same")(c8)
u9 = ks.layers.concatenate([u9, c1], axis = 3)
c9 = ks.layers.Conv2D(16, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(u9)
c9 = ks.layers.Dropout(0.1)(c9)
c9 = ks.layers.Conv2D(16, (3, 3), activation = "relu",
kernel_initializer = "he_normal", padding = "same")(c9)
out = ks.layers.Conv2D(1, (1, 1), activation = "softmax")(c9)
model = ks.Model(inputs = layer_in, outputs = out)
model.compile(optimizer = "adam", loss = "sparse_categorical_crossentropy", metrics = ["accuracy"])
model.summary()
最后,我定义了回调并运行了产生错误的训练:
cllbs = [
ks.callbacks.EarlyStopping(patience = 4),
ks.callbacks.ModelCheckpoint(dir_out("Checkpoint.h5"), save_best_only = True),
ks.callbacks.TensorBoard(log_dir = './logs'),# log events for TensorBoard
]
model.fit(augGen, epochs = 5, validation_data = val_batches, callbacks = cllbs)
完整的控制台输出
这是运行最后一行时的完整输出(以防它有助于解决问题):
trained = model.fit(augGen, epochs = 5, validation_data = val_batches, callbacks = cllbs)
Epoch 1/5
Traceback (most recent call last):
File "<ipython-input-68-f1422c6f17bb>", line 1, in <module>
trained = model.fit(augGen, epochs = 5, validation_data = val_batches, callbacks = cllbs)
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\keras\engine\training.py", line 1183, in fit
tmp_logs = self.train_function(iterator)
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\eager\def_function.py", line 889, in __call__
result = self._call(*args, **kwds)
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\eager\def_function.py", line 950, in _call
return self._stateless_fn(*args, **kwds)
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\eager\function.py", line 3023, in __call__
return graph_function._call_flat(
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\eager\function.py", line 1960, in _call_flat
return self._build_call_outputs(self._inference_function.call(
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\eager\function.py", line 591, in call
outputs = execute.execute(
File "c:\users\manuel\python\lib\site-packages\tensorflow\python\eager\execute.py", line 59, in quick_execute
tensors = pywrap_tfe.TFE_Py_Execute(ctx._handle, device_name, op_name,
InvalidArgumentError: required broadcastable shapes at loc(unknown)
[[node Equal (defined at <ipython-input-68-f1422c6f17bb>:1) ]] [Op:__inference_train_function_3847]
Function call stack:
train_function
原文由 Manuel Popp 发布,翻译遵循 CC BY-SA 4.0 许可协议
python
我在这里发现了几个问题。该模型旨在用于具有多个类的语义分割(这就是为什么我将输出层激活更改为
"softmax"并设置"sparse_categorical_crossentropy"损失)。因此,在 ImageDataGenerators 中,class_mode必须设置为None。classes不提供。相反,我需要将手动分类的图像插入为y。我想初学者会犯很多初学者错误。