Djordjevic, Ivan.
Coding for Optical Channels [electronic resource] / by Ivan Djordjevic, William Ryan, Bane Vasic. - 1. - XV, 400p. 546 illus., 273 illus. in color. online resource.
Fundamentals of Optical Communication -- Channel Impairments and Optical Communication Systems Engineering -- Channel Coding for Optical Channels -- Graph-Based Codes -- Coded Modulation -- Turbo Equalization in Fiber-Optics Communication Systems -- Constrained Coding for Optical Communication -- Coding for Free-space Optical Channels -- Optical Channel Capacity -- Future Research Directions in Coding for Optical Channels.
Coding for Optical Channels Ivan Djordjevic William Ryan Bane Vasic In order to adapt to the ever-increasing demands for high-speed transmission and distance-independent connectivity, today’s network operators are implementing 100 Gb/s per dense wavelength division multiplexing (DWDM) channel. At those data rates, the performance of fiber-optic communication systems is degraded significantly due to intra- and inter-channel fiber nonlinearities, polarization-mode dispersion (PMD), and chromatic dispersion. In order to deal with these channel impairments, novel advanced techniques in modulation, detection, coding and signal processing are needed. This groundbreaking book represents a coherent and comprehensive introduction to the fundamentals of optical communications, digital signal processing (DSP), and coding for optical channels. This book: Is the first to integrate the fundamentals of coding theory and DSP with the fundamentals of optical communication; Provides detailed coverage of joint coding and modulation for optical communications; Presents turbo equalization for joint iterative channel equalization and soft decoding on optical channels; Provides in-depth coverage of codes on graphs, including LDPC and turbo codes, and describes their application to optical channels; Includes coverage of both fiber-optics and free-space optical (FSO) channels; Is the first to cover the channel capacity of fiber-optic communication systems; Is the first to describe constrained coding for optical channels.
9781441955692
10.1007/978-1-4419-5569-2 doi
Engineering.
Microwaves.
Telecommunication.
Engineering.
Communications Engineering, Networks.
Signal, Image and Speech Processing.
Microwaves, RF and Optical Engineering.
TK1-9971
621.382
Coding for Optical Channels [electronic resource] / by Ivan Djordjevic, William Ryan, Bane Vasic. - 1. - XV, 400p. 546 illus., 273 illus. in color. online resource.
Fundamentals of Optical Communication -- Channel Impairments and Optical Communication Systems Engineering -- Channel Coding for Optical Channels -- Graph-Based Codes -- Coded Modulation -- Turbo Equalization in Fiber-Optics Communication Systems -- Constrained Coding for Optical Communication -- Coding for Free-space Optical Channels -- Optical Channel Capacity -- Future Research Directions in Coding for Optical Channels.
Coding for Optical Channels Ivan Djordjevic William Ryan Bane Vasic In order to adapt to the ever-increasing demands for high-speed transmission and distance-independent connectivity, today’s network operators are implementing 100 Gb/s per dense wavelength division multiplexing (DWDM) channel. At those data rates, the performance of fiber-optic communication systems is degraded significantly due to intra- and inter-channel fiber nonlinearities, polarization-mode dispersion (PMD), and chromatic dispersion. In order to deal with these channel impairments, novel advanced techniques in modulation, detection, coding and signal processing are needed. This groundbreaking book represents a coherent and comprehensive introduction to the fundamentals of optical communications, digital signal processing (DSP), and coding for optical channels. This book: Is the first to integrate the fundamentals of coding theory and DSP with the fundamentals of optical communication; Provides detailed coverage of joint coding and modulation for optical communications; Presents turbo equalization for joint iterative channel equalization and soft decoding on optical channels; Provides in-depth coverage of codes on graphs, including LDPC and turbo codes, and describes their application to optical channels; Includes coverage of both fiber-optics and free-space optical (FSO) channels; Is the first to cover the channel capacity of fiber-optic communication systems; Is the first to describe constrained coding for optical channels.
9781441955692
10.1007/978-1-4419-5569-2 doi
Engineering.
Microwaves.
Telecommunication.
Engineering.
Communications Engineering, Networks.
Signal, Image and Speech Processing.
Microwaves, RF and Optical Engineering.
TK1-9971
621.382