Book Image

The Data Science Workshop

By : Anthony So, Thomas V. Joseph, Robert Thas John, Andrew Worsley, Dr. Samuel Asare
Book Image

The Data Science Workshop

By: Anthony So, Thomas V. Joseph, Robert Thas John, Andrew Worsley, Dr. Samuel Asare

Overview of this book

You already know you want to learn data science, and a smarter way to learn data science is to learn by doing. The Data Science Workshop focuses on building up your practical skills so that you can understand how to develop simple machine learning models in Python or even build an advanced model for detecting potential bank frauds with effective modern data science. You'll learn from real examples that lead to real results. Throughout The Data Science Workshop, you'll take an engaging step-by-step approach to understanding data science. You won't have to sit through any unnecessary theory. If you're short on time you can jump into a single exercise each day or spend an entire weekend training a model using sci-kit learn. It's your choice. Learning on your terms, you'll build up and reinforce key skills in a way that feels rewarding. Every physical print copy of The Data Science Workshop unlocks access to the interactive edition. With videos detailing all exercises and activities, you'll always have a guided solution. You can also benchmark yourself against assessments, track progress, and receive content updates. You'll even earn a secure credential that you can share and verify online upon completion. It's a premium learning experience that's included with your printed copy. To redeem, follow the instructions located at the start of your data science book. Fast-paced and direct, The Data Science Workshop is the ideal companion for data science beginners. You'll learn about machine learning algorithms like a data scientist, learning along the way. This process means that you'll find that your new skills stick, embedded as best practice. A solid foundation for the years ahead.
Table of Contents (18 chapters)


In previous chapters, we discussed several methods to arrive at a model that performs well. These include transforming the data via preprocessing, feature engineering and scaling, or simply choosing an appropriate estimator (algorithm) type from the large set of possible estimators made available to the users of scikit-learn.

Depending on which estimator you eventually select, there may be settings that can be adjusted to improve overall predictive performance. These settings are known as hyperparameters, and deriving the best hyperparameters is known as tuning or optimizing. Properly tuning your hyperparameters can result in performance improvements well into the double-digit percentages, so it is well worth doing in any modeling exercise.

This chapter will discuss the concept of hyperparameter tuning and will present some simple strategies that you can use to help find the best hyperparameters for your estimators.

In previous chapters,...