Welcome to our training catalog. All courses are provided in-house and the courses listed below can be mixed to meet your needs.

Please contact us to discuss what courses would best match your requirements and if you have any questions on specific courses or course categories.

 

Feature Selection and Dimension Reduction

Feature Selection and Dimension Reduction Image

Data mining is the collection of processes by which we can extract useful insights from data. Inherent in this definition is the idea of data reduction: useful insights (whether in the form of summaries, sentiment analyses, etc.) ought to be “smaller” and “more organized” than the original raw data. The challenges presented by high data dimensionality (the so-called curse of dimensionality) must be addressed in order to achieve insightful and interpretable analytical results. In this course, we introduce the basic principles of dimensionality reduction and a number of feature selection methods (filter, wrapper, regularization), discuss some advanced topics (SVD, spectral feature selection, UMAP and other topological reduction methods), with examples.

Category:
Advanced Topics
Tags:
Special Topics in AI/ML/DS, Instructor Led, Learning by Doing, Self Guided
Product Code:
ST-10
Course Duration (hours):
12

Feature Selection and Dimension Reduction

Feature Selection and Dimension Reduction Image

Data mining is the collection of processes by which we can extract useful insights from data. Inherent in this definition is the idea of data reduction: useful insights (whether in the form of summaries, sentiment analyses, etc.) ought to be “smaller” and “more organized” than the original raw data. The challenges presented by high data dimensionality (the so-called curse of dimensionality) must be addressed in order to achieve insightful and interpretable analytical results. In this course, we introduce the basic principles of dimensionality reduction and a number of feature selection methods (filter, wrapper, regularization), discuss some advanced topics (SVD, spectral feature selection, UMAP and other topological reduction methods), with examples.