|aLinear algebra and optimization with applications to machine learning /|cJean Gallier, Jocelyn Quaintance.
|aSingapore :|bWorld Scientific,|cc2020.
|a2 volumes :|billustrations ;|c24 cm
|aIncludes bibliographical references and index.
|aVolume I. Linear algebra for computer vision, robotics, and machine learning -- Volume II. Fundamentals of optimization theory with applications to machine learning
|a"This book provides the mathematical fundamentals of linear algebra to practicers in computer vision, machine learning, robotics, applied mathematics, and electrical engineering. By only assuming a knowledge of calculus, the authors develop, in a rigorous yet down to earth manner, the mathematical theory behind concepts such as: vectors spaces, bases, linear maps, duality, Hermitian spaces, the spectral theorems, SVD, and the primary decomposition theorem. At all times, pertinent real-world applications are provided. This book includes the mathematical explanations for the tools used which we believe that is adequate for computer scientists, engineers and mathematicians who really want to do serious research and make significant contributions in their respective fields"--|cProvided by publisher.
|aLinear algebra for computer vision, robotics, and machine learning.
|aFundamentals of optimization theory with applications to machine learning.