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Introduction
Historical Perspectives Digital Modulation for Advanced Optical Transmission Systems Demodulation Techniques MATLAB® and Simulink® Platforms Organization of the Chapters in This Book
Optical Waveguides: Geometrical and Lightwave-Guiding Properties
IntroductionDielectric Slab Optical Waveguides Optical Fiber: General Properties Power Distribution Nonlinear Optical Effects Optical Fiber Manufacturing and Cabling Concluding Remarks Problems Appendix: Technical Data of Single-Mode Optical Fibers References
Optical Fibers: Signal Attenuation and Dispersion
Introduction Signal Attenuation in Optical Fibers Signal Distortion in Optical Fibers Transfer Function of Single-Mode Fibers Advanced Optical Fibers: Dispersion-Shifted, Dispersion-Flattened, and Dispersion-Compensated Effects of Mode Hopping Numerical Solution: Split-Step Fourier Method Concluding Remarks Problems Appendix 3.A.1: MATLAB® Program of the Design of Optical Fibers—A Solution to the Mini-Project Design Appendix 3.A.2: Program Listings of the Design of Standard Single-Mode Fibers Appendix 3.A.3: Program Listings of the Design of Nonzero Dispersion-Shifted Fibers Appendix 3.A.4: Program Listings of the Split-Step Fourier Method with SPM and Raman Gain Distribution Appendix 3.A.5: Program Listings of the Initialization File References Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® and Simulink®
Overview Optical Transmitter Impairments of Optical Fiber Modeling of Fiber Propagation Optical Amplifiers Performance Evaluation MATLAB® and Simulink® Modeling Platforms Concluding Remarks References
Optical Modulation
Introduction Direct Modulation External Modulation Using Optical Modulators Bias Control Concluding Remarks Appendix: MATLAB® Program for Solving the Laser Rate Equation References
Optical Transmitters for Advanced Modulation Format
Introduction External Modulation and Advanced Modulation Formats Generation of Modulation Formats Concluding Remarks Problems Appendix: Structures of Mach–Zehnder Modulator References
Direct Detection Optical Receivers
Introduction Optical Receivers in Various Systems Receiver Components Detection and Noises Performance Calculations for Binary Digital Optical Systems HEMT-Matched Noise Network Preamplifier Concluding Remarks Problems Appendix: Noise Equations References Optical Coherent Detection Introduction Coherent Receiver Components Coherent Detection Self-Coherent Detection and Electronic DSP Digital Signal Processing Coherent Optical Receiver Coherent Receiver Analysis MATLAB® and Simulink® Models Concluding Remarks Problems Appendix: π/2 Hybrid Coupler Embedded MATLAB® Code References
Erbium-Doped Fiber Optical Amplifi ers and Simulink® Models
Introduction Fundamental and Theoretical Issues of EDFAs EDFA Simulation Model Concluding Remarks References MATLAB® and Simulink® Modeling of Raman Amplifi cation and Integration in Fiber Transmission Systems Introduction ROA versus Erbium-Doped Fiber Amplifiers Raman Amplification Nonlinear Raman Gain/Scattering Schrödinger Equation Raman Amplifi cation and Gaussian Pulse Propagation Optically Amplifi ed Transmission Concluding Remarks Problems Appendix: Raman Amplifi cation and Split-Step Fourier Method—MATLAB® Program References
Design of Optical Communication Systems and Simulink® Models
Introduction Long-Haul Optical Transmission Systems Link Budget Calculations under Linear and Nonlinear Effects Problems
Simulink® Models of Optically Amplified Digital Transmission Systems
ASK Modulation Formats Transmission Models Return-to-Zero Optical Pulses Differential Phase Shift Keying Simulink® Models DQPSK Modulation Formats Transmission Models Spectral Characteristics of Advanced Modulation Formats Partial Responses Duo-Binary Transmission Model MSK Transmission Model Star-QAM Transmission Systems for 100 Gb/s Capacity Concluding Remarks Appendix 12.A: Simulink® and Simulation Guidelines References Appendix: A Short Glossary of Terms in Optical Fiber Communications Index
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