New Course: Unsupervised Learning in Python
Say you have a collection of customers with a variety of characteristics such as age, location, and financial history, and you wish to discover patterns and sort them into clusters. Or perhaps you have a set of texts, such as wikipedia pages, and you wish to segment them into categories based on their content. This is the world of unsupervised learning, called as such because you are not guiding, or supervising, the pattern discovery by some prediction task, but instead uncovering hidden structure from unlabeled data. Unsupervised learning encompasses a variety of techniques in machine learning, from clustering to dimension reduction to matrix factorization.
In this course, you'll learn the fundamentals of unsupervised learning and implement the essential algorithms using scikit-learn and scipy. You will learn how to cluster, transform, visualize, and extract insights from unlabeled datasets, and end the course by building a recommender system to recommend popular musical artists.
Unsupervised Learning in Python features interactive exercises that combine high-quality video, in-browser coding, and gamification for an engaging learning experience that will make you a master at Data Science with Python!
What you'll learn
In the first chapter, you'll learn how to discover the underlying groups (or "clusters") in a dataset. By the end of the chapter, you'll be clustering companies using their stock market prices, and distinguishing different species by clustering their measurements. Start first chapter for free here.
In the second you'll learn about two unsupervised learning techniques for data visualization, hierarchical clustering and t-SNE.
The third chapter is about the most fundamental of dimension reduction techniques, "Principal Component Analysis" ("PCA"). PCA is often used before supervised learning to improve model performance and generalization.
Finally, you'll end the course by learning about a dimension reduction technique called "Non-negative matrix factorization" ("NMF") that expresses samples as combinations of interpretable parts. For example, it expresses documents as combinations of topics, and images in terms of commonly occurring visual patterns.
About Ben: Ben is a machine learning specialist and the director of research at lateral.io. He is passionate about learning and has worked as a data scientist in real-time bidding, e-commerce, and recommendation. Ben holds a PhD in mathematics and a degree in computer science.