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Natural Language Processing with TensorFlow

You're reading from   Natural Language Processing with TensorFlow Teach language to machines using Python's deep learning library

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Product type Paperback
Published in May 2018
Publisher Packt
ISBN-13 9781788478311
Length 472 pages
Edition 1st Edition
Languages
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Authors (2):
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Thushan Ganegedara Thushan Ganegedara
Author Profile Icon Thushan Ganegedara
Thushan Ganegedara
Motaz Saad Motaz Saad
Author Profile Icon Motaz Saad
Motaz Saad
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Table of Contents (14) Chapters Close

Preface 1. Introduction to Natural Language Processing FREE CHAPTER 2. Understanding TensorFlow 3. Word2vec – Learning Word Embeddings 4. Advanced Word2vec 5. Sentence Classification with Convolutional Neural Networks 6. Recurrent Neural Networks 7. Long Short-Term Memory Networks 8. Applications of LSTM – Generating Text 9. Applications of LSTM – Image Caption Generation 10. Sequence-to-Sequence Learning – Neural Machine Translation 11. Current Trends and the Future of Natural Language Processing A. Mathematical Foundations and Advanced TensorFlow Index

Improving LSTMs – generating text with words instead of n-grams


Here we will discuss ways to improve LSTMs. First, we will discuss how the number of model parameters grows if we use one-hot-encoded word features. This motivates us to use low-dimensional word vectors instead of one-hot-encoded vectors. Finally, we will discuss how we can employ word vectors in the code to generate better-quality text compared to using bigrams. The code for this section is available in lstm_word2vec.ipynb in the ch8 folder.

The curse of dimensionality

One major limitation stopping us from using words instead of n-grams as the input to our LSTM is that this will drastically increase the number of parameters in our model. Let's understand this through an example. Consider that we have an input of size 500 and a cell state of size 100. This would result in a total of approximately 240K parameters (excluding the softmax layer), as shown here:

Let's now increase the size of the input to 1000. Now the total number...

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