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Index
Cover image Title page Table of Contents Dedication Copyright Dedication 2 Preface—Overview of OFT VI A & B
Six Editions OFT VI Volume A: Components and Subsystems OFT VI Volume B: Systems and Networks
Chapter 1. Fiber Nonlinearity and Capacity: Single-Mode and Multimode Fibers
1.1 Introduction 1.2 Network Traffic and Optical Systems Capacity 1.3 Information Theory 1.4 Single-Mode Fibers: Single Polarization 1.5 Single-Mode Fibers: Polarization-Division Multiplexing 1.6 Multicore and Multimode Fibers 1.7 Conclusion References
Chapter 2. Commercial 100-Gbit/s Coherent Transmission Systems
2.1 Introduction 2.2 Optical Channel Designs 2.3 100G Channel—From Wish to Reality 2.4 Introduction of 100G Channels to Service Provider Networks 2.5 Impact of Commercial 100G System to Transport Network 2.6 Outlook Beyond Commercial 100G Systems 2.7 Summary References
Chapter 3. Advances in Tb/s Superchannels
3.1 Introduction 3.2 Superchannel Principle 3.3 Modulation 3.4 Multiplexing 3.5 Detection 3.6 Superchannel Transmission 3.7 Networking Implications 3.8 Conclusion References
Chapter 4. Optical Satellite Communications
4.1 Introduction 4.2 Lasercom Link Budgets 4.3 Laser Beam Propagation Through the Atmosphere 4.4 Optical Transceivers for Space Applications 4.5 Space Terminal 4.6 Ground Terminal 4.7 List of Acronyms References
Chapter 5. Digital Signal Processing (DSP) and Its Application in Optical Communication Systems
5.1 Introduction 5.2 Digital Signal Processing and Its Functional Blocks 5.3 Application of DBP-Based DSP to Optical Fiber Transmission in the nonlinear regime 5.4 Summary and Future Questions References
Chapter 6. Advanced Coding for Optical Communications
6.1 Introduction 6.2 Linear Block Codes 6.3 Codes on Graphs 6.4 Coded Modulation 6.5 Adaptive Nonbinary LDPC-Coded Modulation 6.6 LDPC-Coded Turbo Equalization 6.7 Information Capacity of Fiber-Optics Communication Systems 6.8 Concluding Remarks References
Chapter 7. Extremely Higher-Order Modulation Formats
7.1 Introduction 7.2 Spectral Efficiency of QAM Signal and Shannon Limit 7.3 Fundamental configuration and key components of QAM coherent optical transmission 7.4 Higher-Order QAM Transmission Experiments 7.5 Conclusion References
Chapter 8. Multicarrier Optical Transmission
8.1 Historical perspective of optical multicarrier transmission 8.2 OFDM Basics 8.3 Optical Multicarrier Systems Based on Electronic FFT 8.4 Optical Multicarrier Systems Based on Optical Multiplexing 8.5 Nonlinearity in Optical Multicarrier Transmission 8.6 Applications of Optical Multicarrier Transmissions 8.7 Future Research Directions for Multicarrier Transmission References
Chapter 9. Optical OFDM and Nyquist Multiplexing
9.1 Introduction 9.2 Orthogonal Shaping of Temporal or Spectral Functions for Efficient Multiplexing 9.3 Optical Fourier Transform Based Multiplexing 9.4 Encoding and Decoding of OFDM Signals 9.5 Conclusion 9.6 Mathematical Definitions and Relations References
Chapter 10. Spatial Multiplexing Using Multiple-Input Multiple-Output Signal Processing
10.1 Optical Network Capacity Scaling Through Spatial Multiplexing 10.2 Coherent MIMO-SDM with Selective Mode Excitation 10.3 MIMO DSP 10.4 Mode Multiplexing Components 10.5 Optical Amplifiers for Coupled-Mode Transmission 10.6 Systems Experiments 10.7 Conclusion References
Chapter 11. Mode Coupling and its Impact on Spatially Multiplexed Systems
11.1 Introduction 11.2 Modes and Mode Coupling in Optical Fibers 11.3 Modal Dispersion 11.4 Mode-Dependent Loss and Gain 11.5 Direct-Detection Mode-Division Multiplexing 11.6 Coherent Mode-Division Multiplexing 11.7 Conclusion References
Chapter 12. Multimode Communications Using Orbital Angular Momentum
12.1 Perspective on Orbital Angular Momentum (OAM) Multiplexing in Communication Systems 12.2 Fundamentals of OAM 12.3 Techniques for OAM Generation, Multiplexing/Demultiplexing, and Detection 12.4 Free-Space Communication Links Using OAM Multiplexing 12.5 Fiber-Based Transmission Links 12.6 Optical Signal Processing Using OAM 12.7 Future Challenges of OAM Communications References
Chapter 13. Transmission Systems Using Multicore Fibers
13.1 Expectations of Multicore Fibers 13.2 MCF Design 13.3 Methods of Coupling to MCFs 13.4 Transmission Experiments with Uncoupled Cores 13.5 Laguerre-Gaussian Mode Division Multiplexing Transmission in MCFs References
Chapter 14. Elastic Optical Networking
14.1 Introduction 14.2 Enabling Technologies 14.3 The EON Vision and Some New Concepts 14.4 A Comparison of EON and Fixed DWDM 14.5 Standards Progress 14.6 Summary References
Chapter 15. ROADM-Node Architectures for Reconfigurable Photonic Networks
Summary 15.1 Introduction 15.2 The ROADM Node 15.3 Network Applications: Studies and Demonstrations 15.4 Two Compatible Visions of the Future 15.5 Conclusions References
Chapter 16. Convergence of IP and Optical Networking
16.1 Introduction 16.2 Motivation 16.3 Background 16.4 Standards 16.5 Next-Generation Control and Management References
Chapter 17. Energy-Efficient Telecommunications
17.1 Introduction 17.2 Energy Use in Commercial Optical Communication Systems 17.3 Energy in Optical Communication Systems 17.4 Transmission and Switching Energy Models 17.5 Network Energy Models 17.6 Conclusion References
Chapter 18. Advancements in Metro Regional and Core Transport Network Architectures for the Next-Generation Internet
18.1 Introduction 18.2 Network Architecture Evolution 18.3 Transport Technology Innovations 18.4 The Network Value of Photonics Technology Innovation 18.5 The Network Value of Optical Transport Innovation 18.6 Outlook 18.7 Summary References
Chapter 19. Novel Architectures for Streaming/Routing in Optical Networks
19.1 Introduction and Historical Perspectives on Connection and Connectionless Oriented Optical Transports 19.2 Essence of the Major Types of Optical Transports: Optical Packet Switching (OPS), Optical Burst Switching (OBS), and Optical Flow Switching (OFS) 19.3 Network Architecture Description and Layering 19.4 Definition of Network “Capacity” and Evaluation of Achievable Network Capacity Regions of Different Types of Optical Transports 19.5 Physical Topology of Fiber Plant and Optical Switching Functions at Nodes and the Effects of Transmission Impairments and Session Dynamics on Network Architecture 19.6 Network Management and Control Functions and Scalable Architectures 19.7 Media Access Control (MAC) Protocol and Implications on Routing Protocol Efficiency and Scalability 19.8 Transport Layer Protocol for New Optical Transports 19.9 Cost, Power Consumption Throughput, and Delay Performance 19.10 Summary References
Chapter 20. Recent Advances in High-Frequency (>10GHz) Microwave Photonic Links
20.1 Introduction 20.2 Photonic Links for Receive-Only Applications 20.3 Photonic Links for Transmit and Receive Applications References
Chapter 21. Advances in 1-100GHz Microwave Photonics: All-Band Optical Wireless Access Networks Using Radio Over Fiber Technologies
21.1 Introduction 21.2 Optical RF Wave Generation 21.3 Converged ROF Transmission System 21.4 Conclusions References
Chapter 22. PONs: State of the Art and Standardized
22.1 Introduction to PON 22.2 TDM PONs: Basic Design and Issues 22.3 Video Overlay 22.4 WDM PONs: Common Elements 22.5 FDM-PONs: Motivation 22.6 Hybrid TWDM-PON 22.7 Summary and Outlook References
Chapter 23. Wavelength-Division-Multiplexed Passive Optical Networks (WDM PONs)
23.1 Introduction 23.2 Light Sources for WDM PON 23.3 WDM PON Architectures 23.4 Long-Reach WDM PONs 23.5 Next-Generation High-Speed WDM PON 23.6 Fault Monitoring, Localization and Protection Techniques 23.7 Summary Appendix: Acronyms References
Chapter 24. FTTX Worldwide Deployment
24.1 Introduction 24.2 Background of Fiber Architectures 24.3 Technology Variants 24.4 Status and FTTX Deployments Around the World 24.5 What’s Next? 24.6 Summary References
Chapter 25. Modern Undersea Transmission Technology
25.1 Introduction 25.2 Coherent Transmission Technology in Undersea Systems 25.3 Increasing Spectral Efficiency by Bandwidth Constraint 25.4 Nyquist Carrier Spacing 25.5 Increasing Spectral Efficiency by Increasing the Constellation Size 25.6 Future Trends 25.7 Summary List of Acronyms References
Index
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