High-Speed Large Capacity Optical Fiber Communications

This book systematically explores the synergistic integration of multidimensional modulation and coding technology, extend wavelength division multiplexing, space division multiplexing (SDM) and signal processing techniques to unlock unprecedented transmission capacities. From foundational principles to experimental validations, this book bridges theoretical concepts with practical implementations, offering a holistic view of scalable solutions for next-generation optical networks.

 Delving into both established and emerging paradigms, this book develops the key technology of improving the capacity of the transmission. It covers hybrid concatenated coding schemes, multi-carrier generation or multi-band transmission in achieving terabit-scale throughputs.

 This book also examines the role of self-homodyne coherent systems, SDM transmission system and the channel damage compensation algorithms, illustrates the real-world applicability of these technologies. The concluding chapter synthesizes key advancements and anticipates future challenges, positioning this book as an indispensable resource for researchers, engineers and graduate students seeking to advance the frontiers of high-speed, high-capacity optical communications.

1 Introduction.- 2 Multidimensional Modulation and Coding Techniques.- 3 Multi-carrier Generation and Transmission Technology.- 4 Multi-band Fiber Transmission (MBT) Technology.- 5 Space Division Multiplexing (SDM) Technology.- 6 Equalization and Compensation Algorithm.- 7 Conclusions and Future Challenges.

Feng Tian, IEEE member, associate Professor at the School of Electronic Engineering, Beijing University of Posts and Telecommunications. She has participated in exchange program at Georgia Institute of Technology in the United States for one year, now she is primarily engaged in research on high-speed large capacity optical fiber communications and signal processing, including signal encoding and modulation, multi-band and multi-core fiber transmission, optical fiber channel impairment mechanisms and compensation. She has participated in the national "863" program fund projects, undertook national key research and development program, presided over 2 National Natural Science Foundation projects, and achieved a series of relevant results, published more than 100 papers, more than30 authorized invention patents, and have won the first prize of Science and Technology Progress of the Electronics Society, Jiangsu Provincial Science and Technology Award.

 Xiangjun Xin, he received the Ph.D. degree from the School of Electric Engineering, Beijing University of Posts and Telecommunications, Beijing, China, in 2003. He is currently a Professor with the Beijing University of Posts and Telecommunications. He has authored or coauthored multiple high-level papers and obtained dozens of authorized patents in his research areas, which include broadband optical transmission technologies, optical sensor, alloptical network, and satellite communication network. Dr. Xin was the recipient of the National Science Fund for Distinguished Young Scholars.