Optical fiber communications systems: theory and practice with MATLAB(R) and Simulink(R) models

Carefully structured to provide practical knowledge on fundamental issues, "Optical Fiber Communications Systems: Theory and Practice with MATLAB[registered] and Simulink[registered] Models" explores advanced modulation and transmission techniques of lightwave communication systems. With coverage ranging from fundamental to modern aspects, the text presents optical communication techniques and applications, employing single mode optical fibers as the transmissionmedium. With MATLAB[registered] and Simulink[registered] models that illustrate methods, it supplies a deeper understanding of future development of optical systems and networks. The book begins with an overview of the development ofoptical fiber communications technology over the last three decades of the 20th century. It describes the optical transmitters for direct and external modulation technique and discusses the detection of optical signals under direct coherent and incoherent reception. The author also covers lumped Er:doped and distributed Roman optical amplifiers with extensive models for the amplification of signals and structuring the amplifiers on the Simulink platform. He outlines a design strategy for optically amplified transmission systems coupled with MATLAB Simulink models, including dispersion and attenuation budget methodology and simulation techniques. The book concludes with coverage of advanced modulation formats for long haul optical fiber transmission systems with accompanied Simulink models. Although many books have been written on this topic overthe last two decades, most of them present only the theory and practice of devices and subsystems of the optical fiber communications systems in the fields, but do not illustrate any computer models to represent the true practical aspects of engineering practice. This book fills the need for a text that emphasizes practical computing models that shed light on the behavior and dynamics of the devices. ÍNDICE: Introduction Historical Perspectives Digital Modulation for Advanced Optical Transmission Systems Demodulation Techniques MATLAB(R) and Simulink(R) 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(R) 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(R) and Simulink(R) Overview Optical Transmitter Impairments of Optical Fiber Modeling of Fiber Propagation Optical Amplifiers Performance Evaluation MATLAB(R) and Simulink(R) Modeling Platforms Concluding Remarks References Optical Modulation Introduction Direct Modulation External Modulation Using Optical Modulators Bias Control Concluding Remarks Appendix: MATLAB(R) 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 ProblemsAppendix: 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 IntroductionCoherent Receiver Components Coherent Detection Self-Coherent Detection and Electronic DSP Digital Signal Processing Coherent Optical Receiver Coherent Receiver Analysis MATLAB(R) and Simulink(R) Models Concluding Remarks Problems Appendix: I/2 Hybrid Coupler Embedded MATLAB(R) Code References Erbium-Doped Fiber Optical Amplifi ers and Simulink(R) Models Introduction Fundamental and Theoretical Issues of EDFAs EDFA Simulation Model Concluding Remarks References MATLAB(R) and Simulink(R) Modeling of Raman Amplifi cation and Integration in Fiber Transmission Systems Introduction ROA versus Erbium-Doped Fiber Amplifiers Raman Amplification Nonlinear Raman Gain/Scattering Schrodinger Equation Raman Amplifi cation and Gaussian Pulse Propagation Optically Amplifi ed Transmission Concluding Remarks Problems Appendix: Raman Amplifi cation and Split-StepFourier Method--MATLAB(R) Program References Design of Optical Communication Systems and Simulink(R) Models Introduction Long-Haul Optical Transmission Systems Link Budget Calculations under Linear and Nonlinear Effects Problems Simulink(R) Models of Optically Amplified Digital Transmission Systems ASK Modulation Formats Transmission Models Return-to-Zero Optical Pulses Differential Phase Shift Keying Simulink(R) 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(R) and Simulation Guidelines References Appendix: A Short Glossary of Terms in Optical Fiber Communications Index

• ISBN: 978-1-4398-0620-3
• Editorial: CRC Press
• Encuadernacion: Cartoné
• Páginas: 560
• Fecha Publicación: 14/04/2010
• Nº Volúmenes: 1
• Idioma: Inglés