Book Overview & Buying
Table Of Contents
Feedback & Rating

Hands-On Meta Learning with Python

By : Sudharsan Ravichandiran

2.5 (6)

Buy this Book

Hands-On Meta Learning with Python

2.5 (6)

By: Sudharsan Ravichandiran

Buy this Book

Overview of this book

Meta learning is an exciting research trend in machine learning, which enables a model to understand the learning process. Unlike other ML paradigms, with meta learning you can learn from small datasets faster. Hands-On Meta Learning with Python starts by explaining the fundamentals of meta learning and helps you understand the concept of learning to learn. You will delve into various one-shot learning algorithms, like siamese, prototypical, relation and memory-augmented networks by implementing them in TensorFlow and Keras. As you make your way through the book, you will dive into state-of-the-art meta learning algorithms such as MAML, Reptile, and CAML. You will then explore how to learn quickly with Meta-SGD and discover how you can perform unsupervised learning using meta learning with CACTUs. In the concluding chapters, you will work through recent trends in meta learning such as adversarial meta learning, task agnostic meta learning, and meta imitation learning. By the end of this book, you will be familiar with state-of-the-art meta learning algorithms and able to enable human-like cognition for your machine learning models.

Preface

Who this book is for

What this book covers

To get the most out of this book

Get in touch

Free Chapter

Introduction to Meta Learning

Meta learning

Types of meta learning

Learning to learn gradient descent by gradient descent

Optimization as a model for few-shot learning

Summary

Questions

Further reading

Face and Audio Recognition Using Siamese Networks

What are siamese networks?

Face recognition using siamese networks

Building an audio recognition model using siamese networks

Summary

Questions

Further reading

Relation and Matching Networks Using TensorFlow

Relation networks

Building relation networks using TensorFlow

Matching networks

The architecture of matching networks

Matching networks in TensorFlow

Summary

Questions

Further reading

Memory-Augmented Neural Networks

NTM

Copy tasks using NTM

Memory-augmented neural networks (MANN)

Summary

Questions

Further reading

MAML and Its Variants

MAML

Adversarial meta learning

CAML

Summary

Questions

Further reading

Meta-SGD and Reptile

Meta-SGD

Reptile

Summary

Questions

Further reading

Recent Advancements and Next Steps

Task agnostic meta learning (TAML)

Meta imitation learning

CACTUs

Learning to learn in concept space

Summary

Questions

Further reading

Assessments

Chapter 1: Introduction to Meta Learning

Chapter 2: Face and Audio Recognition Using Siamese Networks

Chapter 3: Prototypical Networks and Their Variants

Chapter 4: Relation and Matching Networks Using TensorFlow

Chapter 5: Memory-Augmented Neural Networks

Chapter 6: MAML and Its Variants

Chapter 7: Meta-SGD and Reptile Algorithms

Chapter 8: Gradient Agreement as an Optimization Objective

Chapter 9: Recent Advancements and Next Steps

Other Books You May Enjoy

Leave a review - let other readers know what you think

Customer Reviews

2.5 (6)

5 star

33.3%

4 star

3 star

2 star

16.7%

1 star

50%

Semi-prototypical networks

Now, we will see another interesting variant of prototypical networks called the semi-prototypical network. It deals with handling unlabeled examples. As we know, in the prototypical network, we compute the prototype of each class by taking the mean embedding of each class and then predict the class of query set by finding the distance between query points to the class prototypes.

Consider the case where our dataset contains some of the unlabeled data points: how do we compute the class prototypes of these unlabeled data points?

Let's say we have a support set, where x is the feature and y is the label, and a query set, . Along with these, we have one more set called the unlabeled set, R, where we have only unlabeled examples, .