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Technische Daten
Erscheinungsdatum
22.07.2008
Sprache
Englisch
EAN
9780470823538
Herausgeber
John Wiley & Sons
Sonderedition
Nein
Autor
D. Sundararajan
Auflage
1
Einbandart
Gebundene Ausgabe
Autorenporträt
D. Sundararajan is a consultant in digital signal processing at NewTech Software Pt. Ltd in Bangalore India. He has taught undergraduate and graduate classes in digital signal processing, engineering mathematics, programming, operating systems and digital logic design at Concordia University, Canada and Nanyang Technological Institute, Singapore. Sundararajan is the principal inventor of the latest family of Discrete Fourier Transform (DFT) algorithms, and has published two books on DFT and related areas. He also wrote a lab manual for the Digital Electronics Course at Concordia University, and has three patents in fast Fourier transforms. Over the course of his engineering career he has held positions at the National Aerospace Laboratory, Bangalore, the National Physical Laboratory, New Delhi, working on the design of digital and analog signal processing systems. Sundararajan holds a B.E. in Electrical Engineering from Madras University, an M.Tech in Electrical Engineering from IIT Chennai, and a Ph.D. in the same from Concordia University.
Schlagwörter
Signal Processing, Schaltungsentwurf, Schaltkreise - Theorie u. Entwurf, Signalverarbeitung, Audio & Speech Processing & Broadcasting, Circuit Theory & Design, Electrical & Electronics Engineering, Elektrotechnik u. Elektronik, Audio-, Sprachverarbeitung u. Übertragung
Inhaltsverzeichnis
Preface.
Abbreviations.
1 Introduction.
1.1 The Organization of this Book.
2 Discrete Signals.
2.1 Classification of Signals.
2.2 Basic Signals.
2.3 Signal Operations.
2.4 Summary.
References.
Exercises.
3 Continuous Signals.
3.1 Classification of Signals.
3.2 Basic Signals.
3.3 Signal Operations.
3.4 Summary.
Reference.
Exercises.
4 Time-Domain Analysis of Discrete Systems.
4.1 Difference Equation Model.
4.2 Classification of Systems.
4.3 Convolution-Summation Model.
4.4 System Stability.
4.5 Realization of Discrete Systems.
4.6 Summary.
References.
Exercises.
5 Time-Domain Analysis of Continuous Systems.
5.1 Classification of Systems.
5.2 Difference Equation Model.
5.3 Convolution-Integral Model.
5.4 System Response.
5.5 System Stability.
5.6 Realization of Continuous Systems.
5.7 Summary.
Reference.
Exercises.
6 The Discrete Fourier Transform.
6.1 The Time-Domain and Frequency-Domain.
6.2 The Fourier Analysis.
6.3 The Discrete Fourier Transform.
6.4 Properties of the Discrete Fourier Transform.
6.5 Applications of the Discrete Fourier Transform.
6.6. Summary.
References.
Exercises.
7 Fourier Series.
7.1 Fourier Series.
7.2 Properties of the Fourier Series.
7.3 Approximation of the Fourier Series.
7.4 Applications of the Fourier Series.
7.5 Summary.
References.
Exercises.
8 The Discrete-Time Fourier Transform.
8.1 The Discrete-Time Fourier Transform.
8.2 Properties of the Discrete-Time Fourier Transform.
8.3 Approximation of the Discrete-Time Fourier Transform.
8.4 Applications of the Discrete-Time Fourier Transform.
8.5 Summary.
References.
Exercises.
9 The Fourier Transform.
9.1 The Fourier Transform.
9.2 Properties of the Fourier Transform.
9.3 Fourier Transform of Mixed Class Signals.
9.4 Approximation of the Fourier Transform.
9.5 Applications of the Fourier Transform.
9.6 Summary.
References.
Exercises.
10 The z-Transform.
10.1 Fourier Analysis and the z-Transform.
10.2 The z-Transform.
10.3 Properties of the z-Transform.
10.4 The Inverse z-Transform.
10.5 Applications of the z-Transform.
10.6 Summary.
References.
Exercises.
11 The Laplace Transform.
11.1 The Laplace Transform.
11.2 Properties of the Laplace Transform.
11.3 The Inverse Laplace Transform.
11.4 Applications of the Laplace Transform.
11.5 Summary.
Reference.
Exercises.
12 State-Space Analysis of Discrete Systems.
12.1 The State-Space Model.
12.2 Time-Domain Solution of the State Equation.
12.3 Frequency-Domain Solution of the State Equation.
12.4 Linear Transformation of State Vectors.
12.5 Summary.
Reference.
Exercises.
13 State-Space Analysis of Continuous Systems.
13.1 The State-Space Model.
13.2 Time-Domain Solution of the State Equation.
13.3 Frequency-Domain Solution of the State Equation.
13.4 Linear Transformation of State Vectors.
13.5 Summary.
Reference.
Exercises.
Appendix A Transform Pairs and Properties.
Appendix B Useful Mathematical Formulas.
Answers to Selected Exercises.
Index.
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