The Deep Learning with Keras Workshop (häftad)
Format
Häftad (Paperback / softback)
Språk
Engelska
Antal sidor
496
Utgivningsdatum
2020-07-29
Förlag
Packt Publishing Limited
Medarbetare
Abdolahnejad, Mahla / Bhagwat, Ritesh
Illustrationer
Black & white illustrations
Dimensioner
235 x 190 x 25 mm
Vikt
844 g
Antal komponenter
1
Komponenter
3:B&W 7.5 x 9.25 in or 235 x 191 mm Perfect Bound on White w/Gloss Lam
ISBN
9781800562967
The Deep Learning with Keras Workshop (häftad)

The Deep Learning with Keras Workshop

Define and train neural network models with just a few lines of code

Häftad Engelska, 2020-07-29
489
  • Skickas inom 5-8 vardagar.
  • Gratis frakt inom Sverige över 159 kr för privatpersoner.
Finns även som
Visa alla 1 format & utgåvor
Discover how to leverage Keras, the powerful and easy-to-use open source Python library for developing and evaluating deep learning models Key Features * Get to grips with various model evaluation metrics, including sensitivity, specificity, and AUC scores * Explore advanced concepts such as sequential memory and sequential modeling * Reinforce your skills with real-world development, screencasts, and knowledge checks Book Description New experiences can be intimidating, but not this one! This beginner's guide to deep learning is here to help you explore deep learning from scratch with Keras, and be on your way to training your first ever neural networks. What sets Keras apart from other deep learning frameworks is its simplicity. With over two hundred thousand users, Keras has a stronger adoption in industry and the research community than any other deep learning framework. The Deep Learning with Keras Workshop starts by introducing you to the fundamental concepts of machine learning using the scikit-learn package. After learning how to perform the linear transformations that are necessary for building neural networks, you'll build your first neural network with the Keras library. As you advance, you'll learn how to build multi-layer neural networks and recognize when your model is underfitting or overfitting to the training data. With the help of practical exercises, you'll learn to use cross-validation techniques to evaluate your models and then choose the optimal hyperparameters to fine-tune their performance. Finally, you'll explore recurrent neural networks and learn how to train them to predict values in sequential data. By the end of this book, you'll have developed the skills you need to confidently train your own neural network models. What you will learn * Gain insights into the fundamentals of neural networks * Understand the limitations of machine learning and how it differs from deep learning * Build image classifiers with convolutional neural networks * Evaluate, tweak, and improve your models with techniques such as cross-validation * Create prediction models to detect data patterns and make predictions * Improve model accuracy with L1, L2, and dropout regularization Who this book is for If you know the basics of data science and machine learning and want to get started with advanced machine learning technologies like artificial neural networks and deep learning, then this is the book for you. To grasp the concepts explained in this deep learning book more effectively, prior experience in Python programming and some familiarity with statistics and logistic regression are a must.
Visa hela texten

Passar bra ihop

  1. The Deep Learning with Keras Workshop
  2. +
  3. The Applied TensorFlow and Keras Workshop

De som köpt den här boken har ofta också köpt The Applied TensorFlow and Keras Workshop av Harveen Singh Chadha, Luis Capelo (häftad).

Köp båda 2 för 918 kr

Kundrecensioner

Har du läst boken? Sätt ditt betyg »

Fler böcker av författarna

  • Applied Deep Learning with Keras

    Ritesh Bhagwat, Mahla Abdolahnejad, Matthew Moocarme

    Take your neural networks to a whole new level with the simplicity and modularity of Keras, the most commonly used high-level neural networks API. Key Features Solve complex machine learning problems with precision Evaluate, tweak, and improve you...

Övrig information

Matthew Moocarme is a director and senior data scientist in Viacom's advertising science team. As a data scientist at Viacom, he designs data-driven solutions to help Viacom gain insights, streamline workflows, and solve complex problems using data science and machine learning. Matthew lives in New York City and outside of work enjoys combining deep learning with music theory. He is a classically-trained physicist, holding a Ph.D in physics from The Graduate Center of CUNY and is an active artificial intelligence developer, researcher, practitioner, and educator. Mahla Abdolahnejad is a Ph.D. candidate in systems and computer engineering with Carleton University, Canada. She also holds a bachelor's degree and a master's degree in biomedical engineering, which first exposed her to the field of artificial intelligence and artificial neural networks, in particular. Her Ph.D. research is focused on deep unsupervised learning for computer vision applications. She is particularly interested in exploring the differences between a human's way of learning from the visual world and a machine's way of learning from the visual world, and how to push machine learning algorithms toward learning and thinking like humans. Ritesh Bhagwat has a master's degree in applied mathematics with a specialization in computer science. He has over 14 years of experience in data-driven technologies and has led and been a part of complex projects ranging from data warehousing and business intelligence to machine learning and artificial intelligence. He has worked with top-tier global consulting firms as well as large multinational financial institutions. Currently, he works as a data scientist. Besides work, he enjoys playing and watching cricket and loves to travel. He is also deeply interested in Bayesian statistics.

Innehållsförteckning


  1. Introduction to Machine Learning with Keras

  2. Machine Learning versus Deep Learning

  3. Deep Learning with Keras

  4. Evaluating your Model with Cross-Validation Using Keras Wrappers

  5. Improving Model Accuracy

  6. Model Evaluation

  7. Computer Vision with Convolutional Neural Networks

  8. Transfer Learning and Pre-Trained Models

  9. Sequential Modeling with Recurrent Neural Networks