Discrete Signals and Systems with MATLAB® (3rd Ed.)
Auteur : ElAli Taan S.
The subject of Discrete Signals and Systems is broad and deserves a single book devoted to it. The objective of this textbook is to present all the required material that an undergraduate student will need to master this subject matter and the use of MATLAB.
This book is primarily intended for electrical and computer engineering students, and especially for use by juniors or seniors in these undergraduate engineering disciplines. It can also be very useful to practicing engineers. It is detailed, broad, based on mathematical basic principles, focused, and it also contains many solved problems using analytical tools as well as MATLAB.
The book is ideal for a one-semester course in the area of discrete linear systems or digital signal processing, where the instructor can cover all chapters with ease. Numerous examples are presented within each chapter to illustrate each concept when and where it is presented. Most of the worked-out examples are first solved analytically and then solved using MATLAB in a clear and understandable fashion.
Dr. Taan S. ElAli, PhD, is a full professor of electrical engineering. He is currently the Coordinator of the Engineering Program in the College of Aeronautics at Embry Riddle Aeronautical University.
Date de parution : 04-2022
15.6x23.4 cm
Date de parution : 10-2020
15.6x23.4 cm
Thèmes de Discrete Signals and Systems with MATLAB® :
Mots-clés :
MATLAB Script; Signal Representation; Discrete Signals; Discrete System; Fourier Series Coefficients; z-Transform and Discrete Systems; Fourier Transform; State-Space and Discrete Systems; Radix-2 FFT; Sampling and Transformamtion; Continuous Fourier Transform; discrete linear systems; Linear Convolution; digital signal processing; Steady State Response; mathematical basic principles; Inverse DFT; MATLAB's Data Acquisition toolbox; DFT Equation; DFT Magnitude; Steady State Output; Impulse Signal; DFT; Frequency Response; Phase Angle; Good Frequency Resolution; Frequency Response Function; Continuous Signal; Complex Exponentials; Complex Numbers; Rational Number; Mathematical Closed Form Expression; Ratio 2π; Sound Card