Test-Driven Machine Learning

Test-Driven Machine Learning

English | 2015 | ISBN: 978-1784399085 | 190 Pages | PDF, EPUB, AZW3 | 10 MB

Control your machine learning algorithms using test-driven development to achieve quantifiable milestones
Machine learning is the process of teaching machines to remember data patterns, using them to predict future outcomes, and offering choices that would appeal to individuals based on their past preferences.
Machine learning is applicable to a lot of what you do every day. As a result, you can’t take forever to deliver your first iteration of software. Learning to build machine learning algorithms within a controlled test framework will speed up your time to deliver, quantify quality expectations with your clients, and enable rapid iteration and collaboration.
This book will show you how to quantifiably test machine learning algorithms. The very different, foundational approach of this book starts every example algorithm with the simplest thing that could possibly work. With this approach, seasoned veterans will find simpler approaches to beginning a machine learning algorithm. You will learn how to iterate on these algorithms to enable rapid delivery and improve performance expectations.
The book begins with an introduction to test driving machine learning and quantifying model quality. From there, you will test a neural network, predict values with regression, and build upon regression techniques with logistic regression. You will discover how to test different approaches to naïve bayes and compare them quantitatively, along with how to apply OOP (Object-Oriented Programming) and OOP patterns to test-driven code, leveraging SciKit-Learn.
Finally, you will walk through the development of an algorithm which maximizes the expected value of profit for a marketing campaign by combining one of the classifiers covered with the multiple regression example in the book.
What You Will Learn

  • Get started with an introduction to test-driven development and familiarize yourself with how to apply these concepts to machine learning
  • Build and test a neural network deterministically, and learn to look for niche cases that cause odd model behaviour
  • Learn to use the multi-armed bandit algorithm to make optimal choices in the face of an enormous amount of uncertainty
  • Generate complex and simple random data to create a wide variety of test cases that can be codified into tests
  • Develop models iteratively, even when using a third-party library
  • Quantify model quality to enable collaboration and rapid iteration
  • Adopt simpler approaches to common machine learning algorithms
  • Take behaviour-driven development principles to articulate test intent
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