Digital Optical Communications - Le Nguyen Binh

Digital Optical Communications

(Autor)

Buch | Hardcover
608 Seiten
2008
Crc Press Inc (Verlag)
978-1-4200-8205-0 (ISBN)
139,95 inkl. MwSt
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After reviewing the fundamentals of modern communications, specifically high-speed optical communications, this text explores the field's practical applications. It focuses on enhancements to digital technology that lead to greater effectiveness within ultra-high capacity networks.
The need for advanced transmission techniques over long haul optically amplified communications has prompted a convergence of digital and optical communications. Digital Optical Communications explores the practical applications of this union and applies digital modulation techniques to optical communications systems.





After reviewing the fundamentals of modern communications, the book focuses on enhancements to digital technology that are leading to greater effectiveness within ultra-high capacity networks. It highlights the use of communication techniques in both optical transmission systems and networks, such as binary and quadrature amplitude shift keying, differential shift keying, continuous phase shift keying, and multi-level modulation. The author minimizes unwieldy mathematical analysis and instead emphasizes operation principles. Supplemented with case studies and numerous examples, the book provides the theoretical foundations and technical developments required to engineer faster transmissions.





A practical survey of advanced aspects of modulation techniques, this book provides a fundamental understanding of the application of digital communication techniques to optical communication technology.

Monash University, Clayton, Victoria, Australia

Introduction


Digital Optical Communications and Transmission Systems: Challenging Issues


Enabling Technologies


Organization of Book Chapters


Photonic Transmitters


Optical Modulators


Return-to-Zero Optical Pulses


Differential Phase Shift Keying


Generation of Modulation Formats


Spectral Characteristics of Digital Modulation Formats


Remarks


Optical Receivers and Transmission Performances


Digital Optical Receivers


Performance Evaluation of Binary Amplitude Modulation Format


Quantum Limit of Optical Receivers Under Different Modulation Formats


Binary Coherent Optical Receiver


Non-coheret Detection for Optical DPSK And MSK


Transmission Impairments


Matlab SimulinkTM Simulator for Optical Communications Systems


Performance Evaluation


Effects of Source Linewidth


Remarks


Appendices


Coherent Photonic Transmission


Coherent Detection


Coherent and Non-coherent Photonic Transmission Technologies


Photonic Filters and Phase Comparators


Coherent Phase and Differential Phase Shift Keying


Fiber Propagation and Non-linearities


Optical Multi-level Modulation: General Theory


Coherent OFDM


Remarks


Differential Phase Shift Keying Photonic Systems


Optical DPSK Modulation and Formats


DPSK Transmission Experiment


DQPSK Modulation Format


Comparisons of Different Formats and ASK and DPSK


Remarks


Appendix: MATLAB Simulink Model for DQPSK Optical system


Continuous Phase Modulation Format Optical Systems


Generation of Optical MSK Modulated Signals


Detection of M-ary CPFSK Modulated Optical Signal


Optical Binary-Amplitude MSK Format


Optical Minimum Shift Keying


Numerical Results and Discussions


Remarks


Multi-level Amplitude and Phase Shift Keying Optical Transmission


Amplitude and Differential Phase Modulation


MADPSK Optical Transmission


Transmission Performance


Star -QAM Optical Transmission


Coherent Receiver Without Phase Estimation


Remarks


Other Multilevel and Multi-subcarrier Modulation Formats for Gb/s Ethernet Transmission


Concluding Remarks


Frequency Discrimination Receiver for Optical MSK


Operational Principles of ONFDR


Receiver Modeling


Receiver Design


Selection of Optimum Bandwidth and Center Frequency of Optical Frequency Discrimination Filters


Receiver Performance


Robustness to Chromatic Dispersion of ONFDR


Dual–level Optical Minimum Shift Keying (MSK)


Remarks


Partial Responses and Single-sideband Modulation Formats


Partial Responses: Duo-Binary Modulation Formats


Duo-Binary Direct Detection Receiver


System Transmission and Performance


DWDM VSB Modulation-format Optical Transmission


Single Side Band Modulation


Concluding Remarks





Temporal Lens and Adaptive Electronic/Photonic Equalization


Space–Time Duality and Equalization


Simulation of Transmission and Equalization


Equalization in -Gb/s Transmission Systems


Conclusions


Electronic Signal Processing in Optical Transmission Systems


Electronic Digital Processing Equalization


System Representation of Equalized Transfer Function


Electrical Linear Double Sampling Equalizers for Duobinary Modulation Formats for Optical Transmission


Non-linear MLSE Equalizers for MSK Optical Transmission Systems


MLSE Equalizer for Optical MSK Systems


MLSE Scheme Performance


Uncertainty in Optical Signal Transmission


Electronic Dispersion Compensation of Modulation Formats


Conclusions


Optical Soliton Transmission


Fundamentals of Non-linear Propagation Theory


Numerical Approach


Fundamental and Higher Order Solitons


Interaction of Fundamental Solitons


Soliton Pulse Transmission Systems and Inverse Scattering Method


Interaction between Two Solitons in an Optical Fiber


Generations of Solitons


Remarks


OFDM Optical Transmission Systems


Optical OFDM Transmission Systems


OFDM and DQPSK Formats for Gb/s Ethernet


Concluding Remarks





Comparison of Modulations Formats for Long Haul Optically Amplified Transmission
Systems and Networks


Identification of Modulation Features for Combating Impairment Effects


Amplitude, Phase and Frequency Modulation Formats


Modulation Formats and All-optical Networking


Hybrid Gb/s over GB/s optical networks: km SSMF+DCF for km Tx: Impact of Adjacent G/ G channels


Ultra-fast Optical Networks

Erscheint lt. Verlag 1.12.2008
Reihe/Serie Optics and Photonics
Zusatzinfo 36 Tables, black and white; 501 Illustrations, black and white
Verlagsort Bosa Roca
Sprache englisch
Maße 178 x 254 mm
Gewicht 1247 g
Themenwelt Technik Nachrichtentechnik
ISBN-10 1-4200-8205-1 / 1420082051
ISBN-13 978-1-4200-8205-0 / 9781420082050
Zustand Neuware
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