Linear Algebra for Machine Learning: Foundations and Applications - Softcover

Synopsis

Machine learning is revolutionizing industries by enabling computers to learn from data and make intelligent decisions. At the heart of machine learning lies linear algebra - a fundamental mathematical framework that powers algorithms, optimizations, and data transformations. This book, Linear Algebra for Machine Learning: Foundations and Applications, aims to bridge the gap between theoretical concepts and practical applications by providing an intuitive understanding of linear algebra's role in machine learning models.
This book is structured to cater to both beginners and experienced practitioners. It starts with foundational concepts of linear algebra, including vectors, matrices, and eigenvalues, before progressing to their applications in machine learning. Each includes theoretical explanations accompanied by hands-on coding demonstrations to reinforce learning through practical implementation.
By the end of this book, readers will gain a solid grasp of how linear algebra is employed in machine learning algorithms such as Support Vector Machines, Neural Networks, and Principal Component Analysis. The combination of mathematical insights and code demonstrations will equip readers with the skills necessary to develop, optimize, and interpret machine learning models effectively.
Whether you are a student, researcher, or professional, this book serves as a comprehensive guide to understanding and applying linear algebra in the field of machine learning.

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