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Machine Learning with Swift

Machine Learning with Swift

By : Alexander Sosnovshchenko , Jojo Moolayil, Oleksandr Baiev
3 (1)
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Machine Learning with Swift

Machine Learning with Swift

3 (1)
By: Alexander Sosnovshchenko , Jojo Moolayil, Oleksandr Baiev
Buy this Book

Overview of this book

Machine learning as a field promises to bring increased intelligence to the software by helping us learn and analyse information efficiently and discover certain patterns that humans cannot. This book will be your guide as you embark on an exciting journey in machine learning using the popular Swift language. We’ll start with machine learning basics in the first part of the book to develop a lasting intuition about fundamental machine learning concepts. We explore various supervised and unsupervised statistical learning techniques and how to implement them in Swift, while the third section walks you through deep learning techniques with the help of typical real-world cases. In the last section, we will dive into some hard core topics such as model compression, GPU acceleration and provide some recommendations to avoid common mistakes during machine learning application development. By the end of the book, you'll be able to develop intelligent applications written in Swift that can learn for themselves.
Table of Contents (14 chapters)
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Preface
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Preface
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Who this book is for
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What this book covers
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To get the most out of this book
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Get in touch
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1
Getting Started with Machine Learning
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Getting Started with Machine Learning
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What is AI?
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The motivation behind ML
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What is ML ?
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Applications of ML
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Using ML to build smarter iOS applications
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Getting to know your data
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Choosing a model
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Summary
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Bibliography
2
Classification – Decision Tree Learning
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Classification – Decision Tree Learning
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Machine learning toolbox
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Prototyping the first machine learning app
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IPython notebook crash course
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Time to practice
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Machine learning for extra-terrestrial life explorers
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Loading the dataset
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Exploratory data analysis
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Data preprocessing
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Decision trees everywhere
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Training the decision tree classifier
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How decision tree learning works
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Implementing first machine learning app in Swift
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Introducing Core ML
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Summary
3
K-Nearest Neighbors Classifier
chevron up
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K-Nearest Neighbors Classifier
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Calculating the distance
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Using instance-based models for classification and clustering
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People motion recognition using inertial sensors
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Understanding the KNN algorithm
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Recognizing human motion using KNN
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Reasoning in high-dimensional spaces
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KNN pros
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KNN cons
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Improving our solution
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Summary
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Bibliography
4
K-Means Clustering
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K-Means Clustering
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Unsupervised learning
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K-means clustering
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Implementing k-means in Swift
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Clustering objects on a map
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Choosing the number of clusters
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K-means clustering – problems
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K-means++
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Image segmentation using k-means
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Summary
5
Association Rule Learning
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Association Rule Learning
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Seeing association rules
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Defining data structures
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Using association measures to assess rules
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Decomposing the problem
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Generating all possible rules
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Finding frequent item sets
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The Apriori algorithm
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Implementing Apriori in Swift
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Running Apriori
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Running Apriori on real-world data
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The pros and cons of Apriori
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Building an adaptable user experience
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Summary
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Bibliography
6
Linear Regression and Gradient Descent
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Linear Regression and Gradient Descent
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Understanding the regression task
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Introducing simple linear regression
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Feature scaling
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Feature standardization
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Implementing multiple linear regression in Swift
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Fixing linear regression problems with regularization
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Summary
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Bibliography
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Linear Classifier and Logistic Regression
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Linear Classifier and Logistic Regression
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Revisiting the classification task
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Implementing logistic regression in Swift
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Predicting user intents
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Choosing the regression model for your problem
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Bias-variance trade-off
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Summary
8
Neural Networks
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Neural Networks
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What are artificial NNs anyway?
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Building the neuron
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Building the network
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Building a neural layer in Swift
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Using neurons to build logical functions
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Implementing layers in Swift
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Training the network
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Basic neural network subroutines (BNNS)
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Summary
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Convolutional Neural Networks
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Convolutional Neural Networks
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Understanding users emotions
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Introducing computer vision problems
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Introducing convolutional neural networks
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Pooling operation
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Convolution operation
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Building the network
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Loss functions
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Training the network
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Training the CNN for facial expression recognition
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Environment setup
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Deep learning frameworks
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Loading the data
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Splitting the data
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Data augmentation
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Creating the network
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Plotting the network structure
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Training the network
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Plotting loss
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Making predictions
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Saving the model in HDF5 format
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Converting to Core ML format
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Visualizing convolution filters
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Deploying CNN to iOS
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Summary
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Bibliography
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Natural Language Processing
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Natural Language Processing
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NLP in the mobile development world
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Word Association game
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Python NLP libraries
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Textual corpuses
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Common NLP approaches and subtasks
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Distributional semantics hypothesis
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Word vector representations
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Autoencoder neural networks
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Word2Vec
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Word2Vec in Gensim
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Vector space properties
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iOS application
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Word2Vec friends and relatives
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Where to go from here?
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Summary
11
Machine Learning Libraries
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Machine Learning Libraries
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Machine learning and AI APIs
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Libraries
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General-purpose machine learning libraries
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Inference-only libraries
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NLP libraries
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Speech recognition
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Computer vision
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Low-level subroutine libraries
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Choosing a deep learning framework
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Summary
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Optimizing Neural Networks for Mobile Devices
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Optimizing Neural Networks for Mobile Devices
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Delivering perfect user experience
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Calculating the size of a convolutional neural network
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Lossless compression
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Compact CNN architectures
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Preventing a neural network from growing big
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Lossy compression
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An example of the network compression
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Summary
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Bibliography
13
Best Practices
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Best Practices
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Mobile machine learning project life cycle
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Best practices
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Machine learning gremlins
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Recommended learning resources
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Summary

Calculating the distance

How do we calculate a distance? Well, that depends on the kind of problem. In two-dimensional space, we used to calculate the distance between two points, (x1, y1) and (x2, y2), as —the Euclidean distance. But this is not how taxi drivers calculate distance because in the city you can't cut corners and go straight to your goal. So, they use (knowing it or not) another distance metric: Manhattan distance or taxicab distance, also known as l1-norm: . This is the distance if we're only allowed to move along coordinate axes:

Figure 3.1: The blue line represents the Euclidean distance, the red line represents the Manhattan distance. Map of Manhattan by OpenStreetMap

Jewish German mathematician Hermann Minkowski proposed a generalization of both Euclidean and Manhattan distances. Here is the formula for the Minkowski distance...

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