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TensorFlow Machine Learning Projects

You're reading from   TensorFlow Machine Learning Projects Build 13 real-world projects with advanced numerical computations using the Python ecosystem

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Product type Paperback
Published in Nov 2018
Publisher Packt
ISBN-13 9781789132212
Length 322 pages
Edition 1st Edition
Languages
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Authors (2):
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Ankit Jain Ankit Jain
Author Profile Icon Ankit Jain
Ankit Jain
Dr. Amita Kapoor Dr. Amita Kapoor
Author Profile Icon Dr. Amita Kapoor
Dr. Amita Kapoor
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Toc

Table of Contents (17) Chapters Close

Preface 1. Overview of TensorFlow and Machine Learning FREE CHAPTER 2. Using Machine Learning to Detect Exoplanets in Outer Space 3. Sentiment Analysis in Your Browser Using TensorFlow.js 4. Digit Classification Using TensorFlow Lite 5. Speech to Text and Topic Extraction Using NLP 6. Predicting Stock Prices using Gaussian Process Regression 7. Credit Card Fraud Detection using Autoencoders 8. Generating Uncertainty in Traffic Signs Classifier Using Bayesian Neural Networks 9. Generating Matching Shoe Bags from Shoe Images Using DiscoGANs 10. Classifying Clothing Images using Capsule Networks 11. Making Quality Product Recommendations Using TensorFlow 12. Object Detection at a Large Scale with TensorFlow 13. Generating Book Scripts Using LSTMs 14. Playing Pacman Using Deep Reinforcement Learning 15. What is Next? 16. Other Books You May Enjoy

Logistic regression with TensorFlow

One of the most popular examples regarding multiclass classification is to label the images of handwritten digits. The classes, or labels, in this example are {0,1,2,3,4,5,6,7,8,9}. The dataset that we are going to use is popularly known as MNIST and is available from the following link: http://yann.lecun.com/exdb/mnist/. The MNIST dataset has 60,000 images for training and 10,000 images for testing. The images in the dataset appear as follows:

  1. First, we must import datasetslib, a library that was written by us to help with examples in this book (available as a submodule of this book's GitHub repository):
DSLIB_HOME = '../datasetslib'
import sys
if not DSLIB_HOME in sys.path:
sys.path.append(DSLIB_HOME)
%reload_ext autoreload
%autoreload 2
import datasetslib as dslib

from datasetslib.utils import imutil
from datasetslib.utils import nputil
from datasetslib.mnist import MNIST
  1. Set the path to the datasets folder in our home directory, which is where we want all of the datasets to be stored:
import os
datasets_root = os.path.join(os.path.expanduser('~'),'datasets')
  1. Get the MNIST data using our datasetslib and print the shapes to ensure that the data is loaded properly:
mnist=MNIST()

x_train,y_train,x_test,y_test=mnist.load_data()

mnist.y_onehot = True
mnist.x_layout = imutil.LAYOUT_NP
x_test = mnist.load_images(x_test)
y_test = nputil.onehot(y_test)

print('Loaded x and y')
print('Train: x:{}, y:{}'.format(len(x_train),y_train.shape))
print('Test: x:{}, y:{}'.format(x_test.shape,y_test.shape))
  1. Define the hyperparameters for training the model:
learning_rate = 0.001
n_epochs = 5
mnist.batch_size = 100
  1. Define the placeholders and parameters for our simple model:
# define input images
x = tf.placeholder(dtype=tf.float32, shape=[None, mnist.n_features])
# define output labels
y = tf.placeholder(dtype=tf.float32, shape=[None, mnist.n_classes])

# model parameters
w = tf.Variable(tf.zeros([mnist.n_features, mnist.n_classes]))
b = tf.Variable(tf.zeros([mnist.n_classes]))
  1. Define the model with logits and y_hat:
logits = tf.add(tf.matmul(x, w), b)
y_hat = tf.nn.softmax(logits)
  1. Define the loss function:
epsilon = tf.keras.backend.epsilon()
y_hat_clipped = tf.clip_by_value(y_hat, epsilon, 1 - epsilon)
y_hat_log = tf.log(y_hat_clipped)
cross_entropy = -tf.reduce_sum(y * y_hat_log, axis=1)
loss_f = tf.reduce_mean(cross_entropy)
  1. Define the optimizer function:
optimizer = tf.train.GradientDescentOptimizer
optimizer_f = optimizer(learning_rate=learning_rate).minimize(loss_f)
  1. Define the function to check the accuracy of the trained model:
predictions_check = tf.equal(tf.argmax(y_hat, 1), tf.argmax(y, 1))
accuracy_f = tf.reduce_mean(tf.cast(predictions_check, tf.float32))
  1. Run the training loop for each epoch in a TensorFlow session:
n_batches = int(60000/mnist.batch_size)

with tf.Session() as tfs:
tf.global_variables_initializer().run()
for epoch in range(n_epochs):
mnist.reset_index()
for batch in range(n_batches):
x_batch, y_batch = mnist.next_batch()
feed_dict={x: x_batch, y: y_batch}
batch_loss,_ = tfs.run([loss_f, optimizer_f],feed_dict=feed_dict )
#print('Batch loss:{}'.format(batch_loss))
  1. Run the evaluation function for each epoch with the test data in the same TensorFlow session that was created previously:
feed_dict = {x: x_test, y: y_test}
accuracy_score = tfs.run(accuracy_f, feed_dict=feed_dict)
print('epoch {0:04d} accuracy={1:.8f}'
.format(epoch, accuracy_score))

We get the following output:

epoch 0000 accuracy=0.73280001 epoch 0001 accuracy=0.72869998 epoch 0002 accuracy=0.74550003 epoch 0003 accuracy=0.75260001 epoch 0004 accuracy=0.74299997

There you go. We just trained our very first logistic regression model using TensorFlow for classifying handwritten digit images and got 74.3% accuracy.

Now, let's see how writing the same model in Keras makes this process even easier.

You have been reading a chapter from
TensorFlow Machine Learning Projects
Published in: Nov 2018
Publisher: Packt
ISBN-13: 9781789132212
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