Building Clustering Models with scikit-learn
Offered By: Pluralsight
Course Description
Overview
This course covers several important techniques used to implement clustering in scikit-learn, including the K-means, mean-shift and DBScan clustering algorithms, as well as the role of hyperparameter tuning, and performing clustering on image data.
Clustering is an extremely powerful and versatile unsupervised machine learning technique that is especially useful as a precursor to applying supervised learning techniques like classification. In this course, Building Clustering Models with scikit-learn, you will gain the ability to enumerate the different types of clustering algorithms and correctly implement them in scikit-learn. First, you will learn what clustering seeks to achieve, and how the ubiquitous k-means clustering algorithm works under the hood. Next, you will discover how to implement other techniques such as DBScan, mean-shift, and agglomerative clustering. You will then understand the importance of hyperparameter tuning in clustering, such as identifying the correct number of clusters into which your data ought to be partitioned. Finally, you will round out the course by implementing clustering algorithms on image data - an especially common use-case. When you are finished with this course, you will have the skills and knowledge to select the correct clustering algorithm based on the problem you are trying to solve, and also implement it correctly using scikit-learn.
Clustering is an extremely powerful and versatile unsupervised machine learning technique that is especially useful as a precursor to applying supervised learning techniques like classification. In this course, Building Clustering Models with scikit-learn, you will gain the ability to enumerate the different types of clustering algorithms and correctly implement them in scikit-learn. First, you will learn what clustering seeks to achieve, and how the ubiquitous k-means clustering algorithm works under the hood. Next, you will discover how to implement other techniques such as DBScan, mean-shift, and agglomerative clustering. You will then understand the importance of hyperparameter tuning in clustering, such as identifying the correct number of clusters into which your data ought to be partitioned. Finally, you will round out the course by implementing clustering algorithms on image data - an especially common use-case. When you are finished with this course, you will have the skills and knowledge to select the correct clustering algorithm based on the problem you are trying to solve, and also implement it correctly using scikit-learn.
Taught by
Janani Ravi
Related Courses
Data Preparation (Import and Cleaning) for PythonA Cloud Guru DP-100 Part 2 - Modeling
A Cloud Guru AI For Lawyers (II): Tools for Legal Professionals
National Chiao Tung University via FutureLearn Introducción a la Inteligencia Artificial: Principales Algoritmos
Galileo University via edX Basic Data Analysis and Model Building using Python
Coursera Community Project Network via Coursera