Optical Communication Theory and Techniques - Info and Reading Options
By Enrico Forestieri
"Optical Communication Theory and Techniques" is published by Springer in October 21, 2004, it has 216 pages and the language of the book is English.
“Optical Communication Theory and Techniques” Metadata:
- Title: ➤ Optical Communication Theory and Techniques
- Author: Enrico Forestieri
- Language: English
- Number of Pages: 216
- Publisher: Springer
- Publish Date: October 21, 2004
“Optical Communication Theory and Techniques” Subjects and Themes:
- Subjects: ➤ TECHNOLOGY & ENGINEERING - Congresses - Optical communications - Imaging Systems - Computer science - Computer network architectures - Coding theory - Physical optics - Microwaves - Telecommunication - Computer Systems Organization and Communication Networks - Coding and Information Theory - Networks Communications Engineering - Electronic and Computer Engineering - RF and Optical Engineering Microwaves - Applied Optics, Optoelectronics, Optical Devices
Edition Specifications:
- Format: Hardcover
- Weight: 1 pounds
- Dimensions: 9.5 x 6.4 x 0.8 inches
Edition Identifiers:
- The Open Library ID: OL10152661M - OL9335060W
- Library of Congress Control Number (LCCN): 2004058934
- ISBN-13: 9780387231327
- ISBN-10: 0387231323
- All ISBNs: 0387231323 - 9780387231327
AI-generated Review of “Optical Communication Theory and Techniques”:
Snippets and Summary:
The nonlinear Schrödinger equation governs the propagation of the optical field complex envelope v(z, t) in a single-mode fiber [ 1 ].
"Optical Communication Theory and Techniques" Description:
The Open Library:
Since the advent of optical communications, a greattechnological effort has been devoted to the exploitation of the huge bandwidth of optical fibers. Sta- ing from a few Mb/s single channel systems, a fast and constant technological development has led to the actual 10 Gb/s per channel dense wavelength - vision multiplexing (DWDM) systems, with dozens of channels on a single fiber. Transmitters and receivers are now ready for 40 Gb/s, whereas hundreds of channels can be simultaneously amplified by optical amplifiers. Nevertheless, despite such a pace in technological progress, optical c- munications are still in a primitive stage if compared, for instance, to radio communications: the widely spread on-off keying (OOK) modulation format is equivalent to the rough amplitude modulation (AM) format, whereas the DWDM technique is nothing more than the optical version of the frequency - vision multiplexing (FDM) technique. Moreover, adaptive equalization, ch- nel coding or maximum likelihood detection are still considered something “exotic” in the optical world. This is mainly due to the favourable char- teristics of the fiber optic channel (large bandwidth, low attenuation, channel stability, ...), which so far allowed us to use very simple transmission and detection techniques.
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