Computer Explorations in Signals and Systems Using MATLAB,9780130421555

Computer Explorations in Signals and Systems Using MATLAB

by ; ;
Edition: 2nd
ISBN13: 9780130421555
ISBN10: 0130421553
Format: Paperback
Pub. Date: 2001-09-24
Publisher(s): Pearson
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Summary

A comprehensive set of computer exercises of varying levels of difficulty covering the fundamentals of signals and systems. The exercises require the reader to compare answers they compute in MATLAB with results and predictions made based on their understanding of material.Chapter covered include Signals and Systems; Linear Time-Invariant Systems; Fourier Series Representation of Periodic Signals; The Continuous-Time Fourier Transform; The Discrete-Time Fourier Transform; Time and Frequency Analysis of Signals and Systems; Sampling; Communications Systems; The Laplace Transform; The z-Transform; Feedback Systems.For readers interested in signals and linear systems.

Table of Contents

Preface xi
Signals and Systems
1(18)
Tutorial: Basic MATLAB Functions for Representing Signals
2(5)
Discrete-Time Sinusoidal Signals
7(1)
Transformations of the Time Index for Discrete-Time Signals
8(2)
Properties of Discrete-Time Systems
10(1)
Implementing a First-Order Difference Equation
11(1)
Continuous-Time Complex Exponential Signals (S)
12(2)
Transformations of the Time Index for Continuous-Time Signals (S)
14(2)
Energy and Power for Continuous-Time Signals (S)
16(3)
Linear Time-Invariant Systems
19(28)
Tutorial: conv
20(2)
Tutorial: filter
22(4)
Tutorial: Isim with Differential Equations
26(3)
Properties of Discrete-Time LTI Systems
29(4)
Linearity and Time-Invariance
33(1)
Noncausal Finite Impulse Response Filters
34(2)
Discrete-Time Convolution
36(2)
Numerical Approximations of Continuous-Time Convolution
38(3)
The Pulse Response of Continuous-Time LTI Systems
41(3)
Echo Cancellation via Inverse Filtering
44(3)
Fourier Series Representation of Periodic Signals
47(24)
Tutorial: Computing the Discrete-Time Fourier Series with fft
47(4)
Tutorial: freqz
51(1)
Tutorial: Isim with System Functions
52(1)
Eigenfunctions of Discrete-Time LTI Systems
53(2)
Synthesizing Signals with the Discrete-Time Fourier Series
55(2)
Properties of the Continous-Time Fourier Series
57(1)
Energy Relations in the Continuous-Time Fourier Series
58(1)
First-Order Recursive Discrete-Time Filters
59(1)
Frequency Response of a Continuous-Time System
60(2)
Computing the Discrete-Time Fourier Series
62(2)
Synthesizing Continuous-Time Signals with the Fourier Series (S)
64(2)
The Fourier Representation of Square and Triangle Waves (S)
66(3)
Continuous-Time Filtering (S)
69(2)
The Continuous-Time Fourier Transform
71(18)
Tutorial: freqs
71(3)
Numerical Approximation to the Continuous-Time Fourier Transform
74(1)
Properties of the Continuous-Time Fourier Transform
74(5)
Time- and Frequency-Domain Characterizations of Systems
79(2)
Impulse Responses of Differential Eqations by Partial Fraction Expansion
81(2)
Amplitude Modulation and the Continuous-Time Fourier Transform
83(2)
Symbolic Computation of the Continuous-Time Fourier Transform (S)
85(4)
The Discrete-Time Fourier Transform
89(16)
Computing Samples of the DTFT
90(3)
Telephone Touch-Tone
93(3)
Discrete-Time All-Pass Systems
96(1)
Frequency Sampling: DTFT-Based Filter Design
97(2)
System Identification
99(2)
Partial Fraction Expansion for Discrete-Time Systems
101(4)
Time and Frequency Analysis of Signals and Systems
105(20)
A Second-Order Shock Absorber
106(4)
Image Processing with One-Dimensional Filters
110(4)
Filter Design by Transformation
114(3)
Phase Effects for Lowpass Filters
117(1)
Frequency Division Multiple-Access
118(3)
Linear Prediction on the Stock Market
121(4)
Sampling
125(18)
Aliasing due to Undersampling
126(2)
Signal Reconstruction from Samples
128(3)
Upsampling and Downsampling
131(3)
Bandpass Sampling
134(2)
Half-Sample Delay
136(2)
Discrete-Time Differentiation
138(5)
Communications Systems
143(16)
The Hilbert Transform and Single-Sideband AM
144(3)
Vector Analysis of Amplitude Modulation with Carrier
147(2)
Amplitude Demodulation and Receiver Synchronization
149(3)
Intersymbol Interference in PAM Systems
152(4)
Frequency Modulation
156(3)
The Laplace Transform
159(14)
Tutorial: Making Continuous-Time Pole-Zero Diagrams
159(3)
Pole Locations for Second-Order Systems
162(2)
Butterworth Filters
164(1)
Surface Plots of Laplace Transforms
165(3)
Implementing Noncausal Continuous-Time Filters
168(5)
The z-Transform
173(18)
Tutorial: Making Discrete-Time Pole-Zero Diagrams
174(2)
Geometric Interpretation of the Discrete-Time Frequency Response
176(3)
Quantization Effects in Discrete-Time Filter Structures
179(4)
Designing Discrete-Time Filters with Euler Approximations
183(3)
Discrete-Time Butterworth Filter Design Using the Bilinear Transformation
186(5)
Feedback Systems
191(10)
Feedback Stabilization: Stick Balancing
191(3)
Stabilization of Unstable Systems
194(3)
Using Feedback to Increase the Bandwidth of an Amplifier
197(4)
Bibliography 201(2)
Index 203

Excerpts

This book provides computer exercises for an undergraduate course on signals and linear systems. Such a course or sequence of courses forms an important part of most engineering curricula. This book was primarily designed as a companion to the second edition ofSignals and Systemsby Oppenheim and Willsky with Nawab. While the sequence of chapter topics and the notation of this book match that ofSignals and Systems,this book of exercises is self-contained and the coverage of fundamental theory and applications is sufficiently broad to make it an ideal companion to any introductory signals and systems text or course.We believe that assignments of computer exercises in parallel with traditional written problems can help readers to develop a stronger intuition and a deeper understanding of signals and linear systems. To this end, the exercises require the readers to compare the answers they compute in MATLAB with results and predictions made based on their analytic understanding of the material. The second edition has been updated to MATLAB 6, Release 12. We believe this approach actively challenges and involves the reader, providing more benefit than a passive computer demonstration. Wherever possible, the exercises have been divided into Basic, Intermediate, and Advanced Problems. In working the problems, the reader progresses from fundamental theory to real applications such as speech processing, financial market analysis and designing mechanical or communication systems. Basic Problems provide detailed instructions for readers, guiding them through the issues explored, but still requiring a justification of their results. Intermediate Problems examine more sophisticated concepts, and demand more initiative from the readers in their use of MATLAB. Finally, Advanced Problems challenge the readers' understanding of the more subtle or complicated issues, often requiring open-ended work, writing functions, or processing real data. Some of the Advanced Problems in this category are appropriate for advanced undergraduate coursework on signals and systems.Care has been taken to ensure that all the exercises in this book can be completed within MATLAB 6. To assist readers, a list of MATLAB functions used in the text can be found in the index, which notes the exercise or page number in which they are explained. Throughout this book, MATLAB functions, commands, and variables will be indicated by typewriter font. TheSsymbol following the title of an exercise indicates that the exercise requires the Symbolic Math Toolbox.A number of exercises refer to functions or data files the reader will need. These are in the Computer Explorations Toolbox, which is available from the MathWorks, Inc. via the World Wide Web.

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