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社区首页 >专栏 >Text classification with TensorFlow Hub: Movie reviews

Text classification with TensorFlow Hub: Movie reviews

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XianxinMao
修改2021-08-02 10:17:03
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修改2021-08-02 10:17:03
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文章被收录于专栏:深度学习框架

This notebook classifies movie reviews as positive or negative using the text of the review. This is an example of binary—or two-class—classification, an important and widely applicable kind of machine learning problem.

The tutorial demonstrates the basic application of transfer learning with TensorFlow Hub and Keras.

It uses the IMDB dataset that contains the text of 50,000 movie reviews from the Internet Movie Database. These are split into 25,000 reviews for training and 25,000 reviews for testing. The training and testing sets are balanced, meaning they contain an equal number of positive and negative reviews.

This notebook uses tf.keras, a high-level API to build and train models in TensorFlow, and tensorflow_hub, a library for loading trained models from TFHub in a single line of code. For a more advanced text classification tutorial using tf.keras, see the MLCC Text Classification Guide.

代码语言:javascript
复制
import os
import numpy as np
​
import tensorflow as tf
import tensorflow_hub as hub
import tensorflow_datasets as tfds
​
print("Version: ", tf.__version__)
print("Eager mode: ", tf.executing_eagerly())
print("Hub version: ", hub.__version__)
print("GPU is", "available" if tf.config.list_physical_devices("GPU") else "NOT AVAILABLE")

Download the IMDB dataset

The IMDB dataset is available on imdb reviews or on TensorFlow datasets. The following code downloads the IMDB dataset to your machine (or the colab runtime):

代码语言:javascript
复制
# Split the training set into 60% and 40% to end up with 15,000 examples
# for training, 10,000 examples for validation and 25,000 examples for testing.
train_data, validation_data, test_data = tfds.load(
    name="imdb_reviews", 
    split=('train[:60%]', 'train[60%:]', 'test'),
    as_supervised=True)

Explore the data

Let's take a moment to understand the format of the data. Each example is a sentence representing the movie review and a corresponding label. The sentence is not preprocessed in any way. The label is an integer value of either 0 or 1, where 0 is a negative review, and 1 is a positive review. Let's print first 10 examples

代码语言:javascript
复制
train_examples_batch, train_labels_batch = next(iter(train_data.batch(10)))
train_examples_batch

Build the model

The neural network is created by stacking layers—this requires three main architectural decisions:

  • How to represent the text?
  • How many layers to use in the model?
  • How many hidden units to use for each layer?

In this example, the input data consists of sentences. The labels to predict are either 0 or 1.

One way to represent the text is to convert sentences into embeddings vectors. Use a pre-trained text embedding as the first layer, which will have three advantages:

  • You don't have to worry about text preprocessing,
  • Benefit from transfer learning,
  • the embedding has a fixed size, so it's simpler to process.

For this example you use a pre-trained text embedding model from TensorFlow Hub called google/nnlm-en-dim50/2.

There are many other pre-trained text embeddings from TFHub that can be used in this tutorial:

And many more! Find more text embedding models on TFHub.

Let's first create a Keras layer that uses a TensorFlow Hub model to embed the sentences, and try it out on a couple of input examples. Note that no matter the length of the input text, the output shape of the embeddings is: (num_examples, embedding_dimension).

代码语言:javascript
复制
embedding = "https://tfhub.dev/google/nnlm-en-dim50/2"
hub_layer = hub.KerasLayer(embedding, input_shape=[], 
                           dtype=tf.string, trainable=True)
hub_layer(train_examples_batch[:3])

Let's now build the full model:

代码语言:javascript
复制
model = tf.keras.Sequential()
model.add(hub_layer)
model.add(tf.keras.layers.Dense(16, activation='relu'))
model.add(tf.keras.layers.Dense(1))
​
model.summary()

The layers are stacked sequentially to build the classifier:

  1. The first layer is a TensorFlow Hub layer. This layer uses a pre-trained Saved Model to map a sentence into its embedding vector. The pre-trained text embedding model that you are using (google/nnlm-en-dim50/2) splits the sentence into tokens, embeds each token and then combines the embedding. The resulting dimensions are: (num_examples, embedding_dimension). For this NNLM model, the embedding_dimension is 50.
  2. This fixed-length output vector is piped through a fully-connected (Dense) layer with 16 hidden units.
  3. The last layer is densely connected with a single output node.

Let's compile the model.

Loss function and optimizer

A model needs a loss function and an optimizer for training. Since this is a binary classification problem and the model outputs logits (a single-unit layer with a linear activation), you'll use the binary_crossentropy loss function.

This isn't the only choice for a loss function, you could, for instance, choose mean_squared_error. But, generally, binary_crossentropy is better for dealing with probabilities—it measures the "distance" between probability distributions, or in our case, between the ground-truth distribution and the predictions.

Later, when you are exploring regression problems (say, to predict the price of a house), you'll see how to use another loss function called mean squared error.

Now, configure the model to use an optimizer and a loss function:

代码语言:javascript
复制
model.compile(optimizer='adam',
              loss=tf.keras.losses.BinaryCrossentropy(from_logits=True),
              metrics=['accuracy'])

Train the model

Train the model for 10 epochs in mini-batches of 512 samples. This is 10 iterations over all samples in the x_train and y_train tensors. While training, monitor the model's loss and accuracy on the 10,000 samples from the validation set:

代码语言:javascript
复制
history = model.fit(train_data.shuffle(10000).batch(512),
                    epochs=10,
                    validation_data=validation_data.batch(512),
                    verbose=1)

Evaluate the model

And let's see how the model performs. Two values will be returned. Loss (a number which represents our error, lower values are better), and accuracy.

代码语言:javascript
复制
results = model.evaluate(test_data.batch(512), verbose=2)
​
for name, value in zip(model.metrics_names, results):
  print("%s: %.3f" % (name, value))

原创声明:本文系作者授权腾讯云开发者社区发表,未经许可,不得转载。

如有侵权,请联系 cloudcommunity@tencent.com 删除。

原创声明:本文系作者授权腾讯云开发者社区发表,未经许可,不得转载。

如有侵权,请联系 cloudcommunity@tencent.com 删除。

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目录
  • Download the IMDB dataset
  • Explore the data
  • Build the model
    • Loss function and optimizer
    • Train the model
    • Evaluate the model
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