Optical Fiber Communications - Keiser - Google Books
Optical Fiber Communication Book by Keiser Free 101
If you are interested in learning about optical fiber communication, one of the best books you can read is Optical Fiber Communications by Gerd Keiser. This book covers the fundamental principles and applications of this technology in a clear and comprehensive way. But how can you get this book for free? And how can you use it effectively for your learning? In this article, we will answer these questions and more. We will also provide you with some background information on optical fiber communication and Gerd Keiser.
optical fiber communication book by keiser free 101
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What is Optical Fiber Communication?
Optical fiber communication is a method of transmitting information using light signals through thin strands of glass or plastic called optical fibers. Optical fibers have many advantages over traditional copper wires or radio waves, such as:
Higher bandwidth and data rate
Lower attenuation and interference
Longer transmission distance
Smaller size and weight
Lower cost and power consumption
Higher security and reliability
Optical fiber communication is widely used in various fields, such as telecommunications, internet, cable TV, medical imaging, industrial automation, sensing, and military applications.
Who is Gerd Keiser?
Gerd Keiser is a renowned expert and author in the field of optical fiber communication. He has over 40 years of experience in research, teaching, and consulting in this area. He has published more than 100 papers and four books on optical fiber technology. He is also a life fellow of the IEEE, a fellow of OSA and SPIE, an associate editor of the journal Optical Fiber Technology, and a recipient of the prestigious Leslie Warner Award from GTE.
Gerd Keiser received his B.A. and M.S. degrees in mathematics and physics from the University of Wisconsin in Milwaukee and his Ph.D. in physics from Northeastern University in Boston. He has worked at Honeywell, GTE, General Dynamics, Boston University, Northeastern University, Tufts University, Wentworth Institute of Technology, National Taiwan University of Science and Technology, and PhotonicsComm Solutions. His professional interests include optical networking and biophotonics.
What are the main features of Keiser's book?
Optical Fiber Communications by Gerd Keiser is one of the most popular textbooks and reference books on optical fiber technology. It was first published in 1983 and has been updated several times since then. The latest edition is the fourth edition, which was published in 2010 by McGraw-Hill Education. The book has 688 pages and 14 chapters, covering topics such as:
ChapterTitle
1Overview of Optical Fiber Communications
2Optical Fibers: Structures, Waveguiding, and Fabrication
3Signal Degradation in Optical Fibers
4Fiber-Optic Components
5Optical Sources
6Power Launching and Coupling
7Photo Detectors
8Receiver Operation and Design
9Transmission Link Analysis
10Optical Amplifiers
11Wavelength-Division Multiplexing Systems and Components
12Fiber-Optic Networks
13Fiber-Optic Measurement Techniques
14Nonlinear Effects in Optical Fibers
The book presents the theoretical and practical aspects of optical fiber communication in a balanced and coherent way. It explains the concepts with diagrams, examples, and exercises. It also provides references, appendices, and a glossary for further reading and learning.
How to get Keiser's book for free?
If you want to get Keiser's book for free, you have two options: legal and illegal. The legal option is to borrow the book from a library, a friend, or a colleague who has a copy of it. You can also try to find a free online version of the book on some websites that offer free ebooks or PDFs, such as Google Books or Google Sheets. However, these versions may not be complete, accurate, or up-to-date. The illegal option is to download the book from a torrent site or a file-sharing platform that violates the copyright of the author and the publisher. This option is not recommended, as it is unethical, illegal, and risky. You may face legal consequences, malware infections, or poor quality downloads.
How to use Keiser's book for learning?
If you have access to Keiser's book, either legally or illegally, you can use it for learning optical fiber communication in various ways. Here are some tips and resources to help you:
Read the book from cover to cover or selectively according to your needs and interests. You can also use the book as a reference for specific topics or problems.
Solve the exercises at the end of each chapter to test your understanding and apply your knowledge. You can also find the solutions manual for the fourth edition online.
Watch the video lectures by Gerd Keiser on YouTube that accompany the fourth edition of the book. These lectures cover the main concepts and examples from each chapter in an engaging and interactive way.
Visit the website of the book at http://www.mhhe.com/keiser4e, where you can find additional resources, such as PowerPoint slides, MATLAB codes, simulation tools, web links, and errata.
Join an online course or a MOOC on optical fiber communication that uses Keiser's book as a textbook or a supplementary material. You can find some examples on Coursera, edX, Udemy, or NPTEL.
Participate in online forums or communities where you can discuss optical fiber communication with other learners or experts. You can find some examples on Reddit, Quora, Stack Exchange, or ResearchGate.
Conclusion
In conclusion, Optical Fiber Communications by Gerd Keiser is a great book for learning about optical fiber technology and its applications. It covers the fundamentals and the advanced topics in a clear and comprehensive way. It also provides many resources and exercises for further learning and practice. However, getting this book for free may not be easy or legal. You should try to obtain it legally from a library or a friend, or buy it from a bookstore or an online platform. Alternatively, you can use other sources of information, such as online courses, videos, websites, or forums.
FAQs
What is the difference between optical fiber communication and optical communication?
Optical communication is a broad term that refers to any communication method that uses light as a carrier of information. Optical fiber communication is a specific type of optical communication that uses optical fibers as transmission media.
What are the types of optical fibers?
core diameter and allow multiple modes of light propagation. They have high attenuation and low bandwidth but are easy to install and use.
What are the applications of optical fiber communication?
Optical fiber communication has many applications in various fields, such as telecommunications, internet, cable TV, medical imaging, industrial automation, sensing, and military applications. Some examples are:
Long-haul and submarine optical networks that connect continents and countries
Metro and access optical networks that provide broadband services to homes and businesses
Fiber-to-the-home (FTTH) and fiber-to-the-premises (FTTP) systems that deliver high-speed internet and TV signals
Optical coherence tomography (OCT) and endoscopy that use optical fibers for medical diagnosis and treatment
Fiber-optic sensors that measure physical parameters such as temperature, pressure, strain, vibration, etc.
Fiber lasers and amplifiers that generate high-power light beams for industrial and military purposes
What are the challenges of optical fiber communication?
Optical fiber communication faces some challenges that limit its performance and efficiency, such as:
Signal degradation due to attenuation, dispersion, scattering, bending, etc.
Nonlinear effects such as self-phase modulation, cross-phase modulation, four-wave mixing, stimulated Brillouin scattering, stimulated Raman scattering, etc.
Noise and crosstalk due to spontaneous emission, amplified spontaneous emission, intermodulation distortion, interchannel interference, etc.
Complexity and cost of optical components such as lasers, modulators, detectors, amplifiers, filters, switches, etc.
Compatibility and interoperability issues among different optical systems and standards
What are the future trends of optical fiber communication?
Optical fiber communication is constantly evolving and improving to meet the increasing demand for higher capacity, lower cost, and better quality. Some of the future trends of optical fiber communication are:
New types of optical fibers such as photonic crystal fibers, hollow-core fibers, multicore fibers, etc.
New modulation formats such as quadrature amplitude modulation (QAM), orthogonal frequency-division multiplexing (OFDM), Nyquist wavelength-division multiplexing (N-WDM), etc.
New techniques for signal processing such as digital signal processing (DSP), coherent detection, forward error correction (FEC), etc.
New architectures for optical networks such as elastic optical networks (EONs), software-defined optical networks (SDONs), optical packet switching (OPS), etc.
New applications for optical communication such as quantum communication, free-space optical communication, visible light communication (VLC), etc.
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