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In this volume, the author covers the mathematical methods appropriate to both linear-systems theory and signal processing. The text deals with a number of topics usually found in introductory linear-systems courses, such as complex numbers and Laplace transforms, and addresses additional topics such as complex variable theory and Fourier series and transforms. Although the discussion is mathematically self-contained, it assumes that the reader has a firm background in calculus and differential equations. Each chapter contains a number of worked examples plus exercises designed to allow the student to put concepts into practice. The author writes in a mathematically elegant yet relaxed and readable style, and provides interesting historical notes along the way. Undergraduate students of electrical engineering, applied mathematics, and related disciplines - and their teachers - will welcome this book.
Table of contents:
Preface; 1. Complex numbers; 2. Laplace transforms; 3. Linear systems; 4. Fourier series; 5. Functions of a complex variable; 6. Fourier transforms; 7. Laplace transform revisited; Answers to selected exercises; Index.
In this volume, the author covers the mathematical methods appropriate to both linear-systems theory and signal processing. The text deals with a number of topics usually found in introductory linear-systems courses, such as complex numbers and Laplace transforms, and addresses additional topics such as complex variable theory and Fourier series and transforms.
In this volume, the author covers the mathematical methods appropriate to both linear-systems theory and signal processing.
Table of contents:
Preface; 1. Complex numbers; 2. Laplace transforms; 3. Linear systems; 4. Fourier series; 5. Functions of a complex variable; 6. Fourier transforms; 7. Laplace transform revisited; Answers to selected exercises; Index.
In this volume, the author covers the mathematical methods appropriate to both linear-systems theory and signal processing. The text deals with a number of topics usually found in introductory linear-systems courses, such as complex numbers and Laplace transforms, and addresses additional topics such as complex variable theory and Fourier series and transforms.
In this volume, the author covers the mathematical methods appropriate to both linear-systems theory and signal processing.