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• Title Page
• Copyright
• Preface
• Contents
• Chapter 1: Introduction
• 1.1 The Communication Process
• 1.2 The Layered Approach
• 1.3 Theme Example–Wireless Communications
• Notes and References
• Chapter 2: Representation of Signals and Systems
• 2.1 Introduction
• 2.2 The Fourier Transform
• 2.3 Properties of the Fourier Transform
• 2.4 The Inverse Relationship Between Time and Frequency
• 2.5 Dirac Delta Function
• 2.6 Fourier Transforms of Periodic Signals
• 2.7 Transmission of Signals Through Linear Systems
• 2.8 Filters
• 2.9 Low-Pass and Band-Pass Signals
• 2.10 Band-Pass Systems
• 2.11 Phase and Group Delay
• 2.12 Sources of Information
• 2.13 Numerical Computation of the Fourier Transform
• 2.14 Theme Example—Channel Estimation of a Wireless LAN Channel
• 2.15 Summary and Discussion
• Notes and References
• Chapter 3: Amplitude Modulation
• 3.1 Introduction
• 3.2 Amplitude Modulation
• 3.3 Double Sideband-Suppressed Carrier Modulation
• 3.4 Quadrature-Carrier Multiplexing
• 3.5 Single-Sideband and Vestigial-Sideband Methods of Modulation
• 3.6 Theme Example—VSB Transmission of Analog and Digital Television
• 3.7 Frequency Translation
• 3.8 Frequency-Division Multiplexing
• 3.9 Summary and Discussion
• Notes and References
• Problems
• Chapter 4: Angle Modulation
• 4.1 Introduction
• 4.2 Basic Definitions
• 4.3 Frequency Modulation
• 4.4 Phase-Locked Loop
• 4.5 Nonlinear Effects in FM Systems
• 4.6 The Superheterodyne Receiver
• 4.7 Theme Example–Analog and Digital FM Cellular Telephones
• 4.8 Summary and Discussion
• Notes and References
• Problems
• Chapter 5: Probability Theory and Random Processes
• 5.1 Introduction
• 5.2 Probability
• 5.3 Random Variables
• 5.4 Statistical Averages
• 5.5 Random Processes
• 5.6 Mean, Correlation, and Covariance Functions
• 5.7 Transmission of a Random Process Through a Linear Filter
• 5.8 Power Spectral Density
• 5.9 Gaussian Process
• 5.10 Noise
• 5.11 Narrowband Noise
• 5.12 Theme Example—Stochastic Model of a Mobile Radio Channel
• 5.13 Summary and Discussion
• Notes and References
• Problems
• Chapter 6: Noise in CW Modulation Systems
• 6.1 Introduction
• 6.2 Receiver Model
• 6.3 Noise in DSB–SC Receivers
• 6.4 Noise in AM Receivers
• 6.5 Noise in FM Receivers
• 6.6 Pre-emphasis and De-emphasis in FM
• 6.7 Theme Example—Link Budget of FM Satellite Link
• 6.8 Summary and Discussion
• Notes and References
• Problems
• Chapter 7: The Transition from Analog to Digital
• 7.1 Introduction
• 7.2 Why Digitize Analog Sources?
• 7.3 The Sampling Process
• 7.4 Pulse-Amplitude Modulation
• 7.5 Time-Division Multiplexing
• 7.6 Pulse-Position Modulation
• 7.7 Theme Example—PPM in Impulse Radio
• 7.8 The Quantization Process
• 7.9 Pulse-Code Modulation
• 7.10 Delta Modulation
• 7.11 Theme Example—Digitization of Video and MPEG
• 7.12 Summary and Discussion
• Notes and References
• Problems
• Chapter 8: Baseband Digital Transmission
• 8.1 Introduction
• 8.2 Baseband Pulses and Matched Filter Detection
• 8.3 Probability of Error Due to Noise
• 8.4 Intersymbol Interference
• 8.5 Eye Pattern
• 8.6 Nyquist’s Criterion for Distortionless Transmission
• 8.7 Baseband M-ary PAM Transmission
• 8.8 Tapped-Delay-Line Equalization
• 8.9 Theme Example–100BASE-TX–Transmission of 100 Mbps Over Twisted Pair
• 8.10 Summary and Discussion
• Notes and References
• Problems
• Chapter 9: Digital Band-Bass Transmission Techniques
• 9.1 Introduction
• 9.2 Band-Pass Transmission Model
• 9.3 Transmission of Binary PSK and FSK
• 9.4 M-ary Data Transmission Systems
• 9.5 Comparison of Noise Performances of Various PSK and FSK Systems
• 9.6 Theme Example—Orthogonal Frequency Division Multiplexing (OFDM)
• 9.7 Summary and Discussion
• Notes and References
• Problems
• Chapter 10: Information Theory and Coding
• 10.1 Introduction
• 10.2 Uncertainty, Information, and Entropy
• 10.3 Source-Coding Theorem
• 10.4 Lossless Data Compression
• 10.5 Theme Example—The Lempel–Ziv Algorithm and File Compression
• 10.6 Discrete Memoryless Channels
• 10.7 Channel Capacity
• 10.8 Channel Coding Theorem
• 10.9 Capacity of a Gaussian Channel
• 10.10 Error Control Coding
• 10.11 Linear Block Codes
• 10.12 Convolutional Codes
• 10.13 Trellis-Coded Modulation
• 10.14 Turbo Codes
• 10.15 Summary and Discussion
• Notes and References
• Problems
• Appendix: Mathematical Tables
• Glossary
• Bibliography
• Index