Providing straightforward practical guidance, this highly accessible resource presents today's most advanced topics on optical communications and networking. You get the latest details on 5th generation photonic systems that can be readily applied to your projects in the field. Moreover, the book provides valuable, time-saving tools for network simulation and modeling. You find in-depth coverage of optical signal transmission systems and networks. In addition to optical communications fundamentals with detailed description of the optical components and optical signal properties (modulation, propagation and detection), the book includes coverage of a wide range of critical methods and techniques, such as MIMO (multiple-input and multiple-output) by employing spatial modes in few-mode and multicore optical fibers, OFDM (orthogonal frequency-division multiplexing) utilized to enhance the spectral efficiency and to enable elastic optical networking schemes, and advanced modulation and coding schemes to approach the Shannon's channel capacity limit. You find detailed discussions on the basic principles and applications of high-speed digital signal processing. The book also describes the most relevant post-detection compensation techniques, including linear equalizers, adaptive equalizers, maximum-likelihood sequence detectors, blind equalizers, turbo equalizers, digital back-propagation, Wiener filtering, and Volterra series based equalization. Other key topics include advanced concepts on coded-modulation, LDPC-coded turbo equalization, polarization-time coding, spatial-domain-based modulation and coding, and multidimensional signaling. This comprehensive book includes a complete set of problems at the end of each chapter to help you master the material. Supplementary Materials: A solutions manual is available and reserved for instructors only. To request a copy of the Solutions Manual, please fax your request on your departmental letterhead to Chris Stanfa at 781-769-6334.
Introduction to Optical Communications. Components and Modules. Signal Propagation in Optical Fibers. Optical Noise Sources and Channel Impairments. Advanced Modulation Schemes, Advanced Detection Schemes. Advanced Coding Schemes. Advanced Optical Networking. Optical Channel Capacity and Energy Efficiency. Engineering Tool Box. Click here to download a full TOC in PDF format.;
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Milorad Cvijetic
Milorad Cvijetic is a professor in the College of Optical Sciences at the University of Arizona. For more than thirty years, he has been directly involved in state-of-the-art R&D in several of worldís leading telecommunication laboratories. Dr. Cvijetic has published numerous technical papers, authored three books, and has been the author/coauthor of twelve US patents, all related to optical communications and networking.
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Ivan B. Djordjevic
Ivan B. Djordjevic is is an associate professor in the Department of Electrical and Computer Engineering in the College of Engineering at the University of Arizona, with a joint appointment in the College of Optical Sciences. In his professional career, covering both industry and academia, Dr. Djordjevic has published over 300 journal and conference papers, authored three books and thirteen US patents on advanced optical transmission schemes.