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The first book on optical OFDM by the leading pioneers in the field The only book to cover error correction codes for optical OFDM Gives applications of OFDM to free-space commun… Read more
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Immediately download your ebook while waiting for your print delivery. No promo code needed.
This book gives a coherent and comprehensive introduction to the fundamentals of OFDM signal processing, with a distinctive focus on its broad range of applications. It evaluates the architecture, design and performance of a number of OFDM variations, discusses coded OFDM, and gives a detailed study of error correction codes for access networks, 100 Gb/s Ethernet and future optical networks.
The emerging applications of optical OFDM, including single-mode fiber transmission, multimode fiber transmission, free space optical systems, and optical access networks are examined, with particular attention paid to passive optical networks, radio-over-fiber, WiMAX and UWB communications.
Written by two of the leading contributors to the field, this book will be a unique reference for optical communications engineers and scientists. Students, technical managers and telecom executives seeking to understand this new technology for future-generation optical networks will find the book invaluable.
William Shieh is an associate professor and reader in the electrical and electronic engineering department, The University of Melbourne, Australia. He received his M.S. degree in electrical engineering and Ph.D. degree in physics both from University of Southern California.
Ivan Djordjevic is an Assistant Professor of Electrical and Computer Engineering at the University of Arizona, Tucson, where he directs the Optical Communications Systems Laboratory (OCSL). His current research interests include optical networks, error control coding, constrained coding, coded modulation, turbo equalization, OFDM applications, and quantum error correction.
"This wonderful book is the first one to address the rapidly emerging optical OFDM field. Written by two leading researchers in the field, the book is structured to comprehensively cover any optical OFDM aspect one could possibly think of, from the most fundamental to the most specialized. The book adopts a coherent line of presentation, while striking a thoughtful balance between the various topics, gradually developing the optical-physics and communication-theoretic concepts required for deep comprehension of the topic, eventually treating the multiple optical OFDM methods, variations and applications. In my view this book will remain relevant for many years to come, and will be increasingly accessed by graduate students, accomplished researchers as well as telecommunication engineers and managers keen to attain a perspective on the emerging role of OFDM in the evolution of photonic networks." -- Prof. Moshe Nazarathy, EE Dept., Technion, Israel Institute of Technology
Chapter 1. Introduction
1.1 Historical Perspective of Optical Communications1.2 Trends in Optical Communications1.3 Moore's Law and Its Effect on Digital Signal Processing1.4 Single-Carrier or Multicarrier Transmission: An Optical Debate1.5 The Difference between RF OFDM and Optical OFDM Systems1.6 What Does OFDM Bring to the 'Game'?1.7 Channel Coding and OFDM1.8 Overview of the Book
Chapter 2. OFDM Principles
2.1 Introduction2.2 Historical Perspective of OFDM2.3 OFDM Basics2.4 Peak-to-Average Power Ratio of OFDM Signals2.5 Frequency Offset and Phase Noise Sensitivity
Chapter 3. Optical Communication Fundamentals
3.1 Introduction3.2 Key Optical Components3.3 Noise Sources3.4 Channel Impairments3.5 Transmission System Performance Assessment and System Design3.6 Summary
Chapter 4. Signal Processing for Optical OFDM
4.1 Introduction4.2 End-to-End OFDM Signal Processing4.3 DFT Window Synchronization4.4 Frequency Offset Synchronization4.5 Subcarrier Recovery: Channel Estimation and Phase Estimation4.6 Channel Estimation4.7 ADC/DAC Impact4.8 MIMO-OFDM Perspective
Chapter 5. Polarization Effects in Optical Fiber
5.1 Introduction5.2 Polarization Dispersion Effect in Optical Fiber5.3 Polarization-Dependent Loss5.4 Theoretical Model for Coherent Optical MIMO-OFDM Signals in the Presence of Polarization Effects5.5 Simulation and Experimental Study of MIMO-OFDM Systems5.6 Nonlinear Polarization Effects
Chapter 6. Coding for Optical OFDM Systems
6.1 Standard FEC Schemes6.2 Codes on Graphs6.3 M-ary QAM and M-ary PSK6.4 Coded Modulation6.5 Coded OFDM in Fiber-Optics Communication Systems with Direct Detection6.6 Coded OFDM in Fiber-Optics Communication Systems with Coherent Detection6.7 Summary
Chapter 7. Various Types of Optical OFDM
7.1 Introduction7.2 Coherent Optical OFDM7.3 Direct Detection Optical OFDM
Chapter 8. Spectrally Efficient High-Speed Coherent OFDM System
8.1 Introduction8.2 Orthogonal Band Multiplexed OFDM8.3 111 Gb/s No-Guard Interval CO-OFDM Transmission8.4 Simulation of 100 Gb/s CO-OFDM Transmission8.5 High Spectral Efficiency CO-OFDM Systems
Chapter 9. OFDM for Multimode Fiber Systems
9.1 Multimode Fibers9.2 Optical OFDM in MMF Links9.3 The Use of Optical OFDM in MMF Links for beyond Short-Reach Applications9.4 Optical OFDM in Broadcast MIMO Signaling over MMF Links9.5 Summary
Chapter 10. OFDM in Free-Space Optical Communication Systems
10.1 Introduction10.2 FSO-OFDM Transmission System10.3 Atmospheric Turbulence Channel Modeling10.4 Soft Iterative Decoding10.5 Performance Assessment of Coded FSO-OFDM Systems with Direct Detection10.6 OFDM in Hybrid Optical Networks10.7 Summary
Chapter 11. OFDM Applications in Access Optical Networks
11.1 OFDM in Radio-over-Fiber Systems11.2 OFDM in Passive Optical Networks11.3 Ultra Wideband Signals and Optical OFDM11.4 Coded-OFDM over Plastic Optical Fibers11.4.1 Performance Analysis of LDPC-Coded OFDM over POFs11.5 Indoor Optical Wireless Communications and OFDM11.6 Summary
Chapter 12. Future Research Directions
12.1 Introduction12.2 Optical OFDM for 1 Tb/s Ethernet Transport12.3 Multimode Fiber for High Spectral Efficiency Long-Haul Transmission 12.4 Optoelectronic Integrated Circuits for Optical OFDM12.5 Adaptive Coding in Optical OFDM 12.6 Optical OFDM-Based Access Networks 12.7 Standardization Aspects of Optical OFDM12.8 Conclusions
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