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Enabling Technologies for High Spectral-efficiency Coherent Optical Communication Networks

Om Enabling Technologies for High Spectral-efficiency Coherent Optical Communication Networks

Presents the technological advancements that enable high spectralΓÇôefficiency and highΓÇôcapacity fiberΓÇôoptic communication systems and networks This book examines key technology advances in high spectralΓÇôefficiency fiberΓÇôoptic communication systems and networks, enabled by the use of coherent detection and digital signal processing (DSP). The first of this bookΓÇÖs 16 chapters is a detailed introduction. Chapter 2 reviews the modulation formats, while Chapter 3 focuses on detection and error correction technologies for coherent optical communication systems. Chapters 4 and 5 are devoted to NyquistΓÇôWDM and orthogonal frequencyΓÇôdivision multiplexing (OFDM). In chapter 6, polarization and nonlinear impairments in coherent optical communication systems are discussed. The fiber nonlinear effects in a nonΓÇôdispersionΓÇômanaged system are covered in chapter 7. Chapter 8 describes linear impairment equalization and Chapter 9 discusses various nonlinear mitigation techniques. Signal synchronization is covered in Chapters 10 and 11. Chapter 12 describes the main constraints put on the DSP algorithms by the hardware structure. Chapter 13 addresses the fundamental concepts and recent progress of photonic integration. Optical performance monitoring and elastic optical network technology are the subjects of Chapters 14 and 15. Finally, Chapter 16 discusses spatialΓÇôdivision multiplexing and MIMO processing technology, a potential solution to solve the capacity limit of singleΓÇômode fibers. ΓÇó Contains basic theories and upΓÇôtoΓÇôdate technology advancements in each chapter ΓÇó Describes how capacityΓÇôapproaching coding schemes based on lowΓÇôdensity parity check (LDPC) and spatially coupled LDPC codes can be constructed by combining iterative demodulation and decoding ΓÇó Demonstrates that fiber nonlinearities can be accurately described by some analytical models, such as GNΓÇôEGN model ΓÇó Presents impairment equalization and mitigation techniques Enabling Technologies for High SpectralΓÇôefficiency Coherent Optical Communication Networks is a reference for researchers, engineers, and graduate students. Xiang Zhou is a Tech Lead within Google Platform Advanced Technology. Before joining Google, he was with AT&T Labs, conducting research on various aspects of optical transmission and photonics networking technologies. Dr. Zhou is an OSA fellow and an associate editor for Optics Express. He has extensive publications in the field of optical communications. Chongjin Xie is a senior director at Ali Infrastructure Service, Alibaba Group. Before joining Alibaba Group, he was a Distinguished Member of Technical Staff at Bell Labs, AlcatelΓÇôLucent. Dr. Xie is a fellow of OSA and senior member of IEEE. He is an associate editor of the Journal of Lightwave Technology and has served in various conference committees.

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  • Språk:
  • Engelsk
  • ISBN:
  • 9781118714768
  • Bindende:
  • Hardback
  • Sider:
  • 648
  • Utgitt:
  • 24. mai 2016
  • Dimensjoner:
  • 246x163x30 mm.
  • Vekt:
  • 1026 g.
  • BLACK NOVEMBER
  Gratis frakt
Leveringstid: 2-4 uker
Forventet levering: 11. desember 2024

Beskrivelse av Enabling Technologies for High Spectral-efficiency Coherent Optical Communication Networks

Presents the technological advancements that enable high spectralΓÇôefficiency and highΓÇôcapacity fiberΓÇôoptic communication systems and networks
This book examines key technology advances in high spectralΓÇôefficiency fiberΓÇôoptic communication systems and networks, enabled by the use of coherent detection and digital signal processing (DSP). The first of this bookΓÇÖs 16 chapters is a detailed introduction. Chapter 2 reviews the modulation formats, while Chapter 3 focuses on detection and error correction technologies for coherent optical communication systems. Chapters 4 and 5 are devoted to NyquistΓÇôWDM and orthogonal frequencyΓÇôdivision multiplexing (OFDM). In chapter 6, polarization and nonlinear impairments in coherent optical communication systems are discussed. The fiber nonlinear effects in a nonΓÇôdispersionΓÇômanaged system are covered in chapter 7. Chapter 8 describes linear impairment equalization and Chapter 9 discusses various nonlinear mitigation techniques. Signal synchronization is covered in Chapters 10 and 11. Chapter 12 describes the main constraints put on the DSP algorithms by the hardware structure. Chapter 13 addresses the fundamental concepts and recent progress of photonic integration. Optical performance monitoring and elastic optical network technology are the subjects of Chapters 14 and 15. Finally, Chapter 16 discusses spatialΓÇôdivision multiplexing and MIMO processing technology, a potential solution to solve the capacity limit of singleΓÇômode fibers.
ΓÇó Contains basic theories and upΓÇôtoΓÇôdate technology advancements in each chapter
ΓÇó Describes how capacityΓÇôapproaching coding schemes based on lowΓÇôdensity parity check (LDPC) and spatially coupled LDPC codes can be constructed by combining iterative demodulation and decoding
ΓÇó Demonstrates that fiber nonlinearities can be accurately described by some analytical models, such as GNΓÇôEGN model
ΓÇó Presents impairment equalization and mitigation techniques
Enabling Technologies for High SpectralΓÇôefficiency Coherent Optical Communication Networks is a reference for researchers, engineers, and graduate students.
Xiang Zhou is a Tech Lead within Google Platform Advanced Technology. Before joining Google, he was with AT&T Labs, conducting research on various aspects of optical transmission and photonics networking technologies. Dr. Zhou is an OSA fellow and an associate editor for Optics Express. He has extensive publications in the field of optical communications.
Chongjin Xie is a senior director at Ali Infrastructure Service, Alibaba Group. Before joining Alibaba Group, he was a Distinguished Member of Technical Staff at Bell Labs, AlcatelΓÇôLucent. Dr. Xie is a fellow of OSA and senior member of IEEE. He is an associate editor of the Journal of Lightwave Technology and has served in various conference committees.

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