Book Image

Hands-On Machine Learning with C++

By : Kirill Kolodiazhnyi

Book Image

Hands-On Machine Learning with C++

By: Kirill Kolodiazhnyi

Overview of this book

C++ can make your machine learning models run faster and more efficiently. This handy guide will help you learn the fundamentals of machine learning (ML), showing you how to use C++ libraries to get the most out of your data. This book makes machine learning with C++ for beginners easy with its example-based approach, demonstrating how to implement supervised and unsupervised ML algorithms through real-world examples. This book will get you hands-on with tuning and optimizing a model for different use cases, assisting you with model selection and the measurement of performance. You’ll cover techniques such as product recommendations, ensemble learning, and anomaly detection using modern C++ libraries such as PyTorch C++ API, Caffe2, Shogun, Shark-ML, mlpack, and dlib. Next, you’ll explore neural networks and deep learning using examples such as image classification and sentiment analysis, which will help you solve various problems. Later, you’ll learn how to handle production and deployment challenges on mobile and cloud platforms, before discovering how to export and import models using the ONNX format. By the end of this C++ book, you will have real-world machine learning and C++ knowledge, as well as the skills to use C++ to build powerful ML systems.

Preface

Who this book is for

What this book covers

To get the most out of this book

Section 1: Overview of Machine Learning

Section 1: Overview of Machine Learning

Free Chapter

Introduction to Machine Learning with C++

Introduction to Machine Learning with C++

Understanding the fundamentals of ML

An overview of linear algebra

An overview of linear regression

Further reading

Data Processing

Data Processing

Technical requirements

Parsing data formats to C++ data structures

Initializing matrix and tensor objects from C++ data structures

Manipulating images with the OpenCV and Dlib libraries

Transforming images into matrix or tensor objects of various libraries

Normalizing data

Further reading

Measuring Performance and Selecting Models

Measuring Performance and Selecting Models

Technical requirements

Performance metrics for ML models

Understanding the bias and variance characteristics

Model selection with the grid search technique

Further reading

Section 2: Machine Learning Algorithms

Section 2: Machine Learning Algorithms

Clustering

Technical requirements

Measuring distance in clustering

Types of clustering algorithms

Examples of using the Shogun library for dealing with the clustering task samples

Examples of using the Shark-ML library for dealing with the clustering task samples

Examples of using the Dlib library for dealing with the clustering task samples

Plotting data with C++

Further reading

Anomaly Detection

Anomaly Detection

Technical requirements

Exploring the applications of anomaly detection

Learning approaches for anomaly detection

Examples of using different C++ libraries for anomaly detection

Further reading

Dimensionality Reduction

Dimensionality Reduction

Technical requirements

An overview of dimension reduction methods

Exploring linear methods for dimension reduction

Exploring non-linear methods for dimension reduction

Understanding dimension reduction algorithms with various С++ libraries

Further reading

Classification

Technical requirements

An overview of classification methods

Exploring various classification methods

Examples of using C++ libraries for dealing with the classification task

Further reading

Recommender Systems

Recommender Systems

Technical requirements

An overview of recommender system algorithms

Understanding collaborative filtering method details

Examples of item-based collaborative filtering with C++

Further reading

Ensemble Learning

Ensemble Learning

Technical requirements

An overview of ensemble learning

Examples of using C++ libraries for creating ensembles

Further reading

Section 3: Advanced Examples

Section 3: Advanced Examples

Neural Networks for Image Classification

Neural Networks for Image Classification

Technical requirements

An overview of neural networks

Delving into convolutional networks

What is deep learning?

Examples of using C++ libraries to create neural networks

Understanding image classification using the LeNet architecture

Further reading

Sentiment Analysis with Recurrent Neural Networks

Sentiment Analysis with Recurrent Neural Networks

Technical requirements

An overview of the RNN concept

Training RNNs using the concept of backpropagation through time

Exploring RNN architectures

Understanding natural language processing with RNNs

Sentiment analysis example with an RNN

Further reading

Section 4: Production and Deployment Challenges

Section 4: Production and Deployment Challenges

Exporting and Importing Models

Exporting and Importing Models

Technical requirements

ML model serialization APIs in C++ libraries

Delving into ONNX format

Further reading

Deploying Models on Mobile and Cloud Platforms

Deploying Models on Mobile and Cloud Platforms

Technical requirements

Image classification on Android mobile

Machine learning in the cloud – using Google Compute Engine

Further reading

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Neural Networks for Image Classification

In recent years, we have seen a huge interest in neural networks, which are successfully used in various areas—business, medicine, technology, geology, physics, and so on. Neural networks have come into practice wherever it is necessary to solve problems of forecasting, classification, or control. This approach is attractive from an intuitive point of view because it is based on a simplified biological model of the human nervous system. It arose from research in the field of artificial intelligence, namely, from attempts to reproduce the ability of biological nervous systems to learn and correct mistakes by modeling the low-level structure of the brain. Neural networks are compelling modeling methods that allow us to reproduce extremely complex dependencies because they are non-linear. Neural networks also cope better with the curse...