Fiber Optic and Atmospheric Optical Communication.

Cover -- Title Page -- Copyright -- Contents -- Preface -- Acknowledgments -- Abbreviations -- Nomenclature -- Part I Optical Communication Link Fundamentals -- Chapter 1 Basic Elements of Optical Communication -- 1.1 Spectrum of Optical Waves -- 1.2 Optical Communication in Historical Perspective -- 1.3 Optical Communication Link Presentation -- References -- Chapter 2 Optical Wave Propagation -- 2.1 Similarity of Optical and Radio Waves -- 2.2 Electromagnetic Aspects of Optical Wave Propagation -- 2.3 Propagation of Optical Waves in Free Space -- 2.4 Propagation of Optical Waves Through the Boundary of Two Media -- 2.4.1 Boundary Conditions -- 2.4.2 Main Formulations of Reflection and Refraction Coefficients -- 2.5 Total Intrinsic Reflection in Optics -- 2.6 Propagation of Optical Waves in Material Media -- 2.6.1 Imperfect Dielectric Medium -- 2.6.2 Good Conductor Medium -- References -- Part II Fundamentals of Optical Communication -- Chapter 3 Types of Signals in Optical Communication Channels -- 3.1 Types of Optical Signals -- 3.1.1 Narrowband Optical Signals -- 3.1.2 Wideband Optical Signals -- 3.2 Mathematical Description of Narrowband Signals -- 3.3 Mathematical Description of Wideband Signals -- References -- Chapter 4 An Introduction to the Principles of Coding and Decoding of Discrete Signals -- 4.1 Basic Concepts of Coding and Decoding -- 4.1.1 General Communication Scheme -- 4.1.2 The Binary Symmetric Channel (BSC) -- 4.1.3 Channel Model with AWGN -- 4.2 Basic Aspects of Coding and Decoding -- 4.2.1 Criteria of Coding -- 4.2.2 Code Parameters for Error Correction -- 4.2.3 Linear Codes -- 4.2.4 Estimation of Error Probability of Decoding -- 4.3 Codes with Algebraic Decoding -- 4.3.1 Cyclic Codes -- 4.3.2 BCH Codes -- 4.3.3 Reed-Solomon Codes -- 4.4 Decoding of Cyclic Codes -- References.

Chapter 5 Coding in Optical Communication Channels -- 5.1 Peculiarities of Cyclic Codes in Communication Systems -- 5.2 Codes with Low Density of Parity Checks -- 5.2.1 Basic Definitions -- 5.2.2 Decoding of LDPC Codes -- 5.2.3 Construction of Irregular LDPC Codes -- 5.2.4 Construction of Regular LDPC Codes -- 5.3 Methods of Combining Codes -- 5.4 Coding in Optical Channels -- References -- Chapter 6 Fading in Optical Communication Channels -- 6.1 Parameters of Fading in Optical Communication Channel -- 6.1.1 Time Dispersion Parameters -- 6.1.2 Coherence Bandwidth -- 6.1.3 Doppler Spread and Coherence Time -- 6.2 Types of Small‐Scale Fading -- 6.3 Mathematical Description of Fast Fading -- 6.3.1 Rayleigh PDF and CDF -- 6.3.2 Ricean PDF and CDF -- 6.3.2.1 Gamma‐Gamma Distribution -- 6.4 Mathematical Description of Large‐Scale Fading -- 6.4.1 Gaussian PDF and CDF -- References -- Chapter 7 Modulation of Signals in Optical Communication Links -- 7.1 Analog Modulation -- 7.1.1 Analog Amplitude Modulation -- 7.1.2 Analog Angle Modulation - Frequency and Phase -- 7.1.2.1 Phase Modulation -- 7.1.3 Spectra and Bandwidth of FM or PM Signals -- 7.1.4 Relations Between SNR and Bandwidth in AM and FM Signals -- 7.2 Digital Signal Modulation -- 7.2.1 Main Characteristics of Digital Modulation -- 7.2.1.1 Power Efficiency and Bandwidth Efficiency -- 7.2.1.2 Bandwidth and Power Spectral Density of Digital Signals -- 7.2.2 Linear Digital Modulation -- 7.2.2.1 Amplitude Shift Keying (ASK) Modulation -- 7.2.2.2 Binary Phase Shift Keying (BPSK) Modulation -- 7.2.2.3 Quadrature Phase Shift Keying (QPSK) Modulation -- 7.2.3 Nonlinear Digital Modulation -- 7.2.3.1 Frequency Shift Keying (FSK) Modulation -- References -- Chapter 8 Optical Sources and Detectors -- 8.1 Emission and Absorption of Optical Waves -- 8.2 Operational Characteristics of Laser.

8.3 Light‐Emitting Sources and Detectors -- 8.3.1 Light‐Emitting p-n Type Diode -- 8.3.2 Laser p-n Type Diode -- 8.3.3 Photodiode -- 8.3.4 PiN and p-n Photodiodes - Principle of Operation -- 8.4 Operational Characteristics of Light Diodes -- References -- Part III Wired Optical Communication Links -- Chapter 9 Light Waves in Fiber Optic Guiding Structures -- 9.1 Propagation of Light in Fiber Optic Structures -- 9.1.1 Types of Optical Fibers -- 9.1.2 Propagation of Optical Wave Inside the Fiber Optic Structure -- References -- Chapter 10 Dispersion Properties of Fiber Optic Structures -- 10.1 Characteristic Parameters of Fiber Optic Structures -- 10.2 Dispersion of Optical Signal in Fiber Optic Structures -- 10.2.1 Material Dispersion -- 10.2.2 Modal Dispersion -- References -- Part IV Wireless Optical Channels -- Chapter 11 Atmospheric Communication Channels -- 11.1 Basic Characteristics of Atmospheric Channel -- 11.2 Effects of Aerosols on Atmospheric Communication Links -- 11.2.1 Aerosol Dimensions -- 11.2.2 Aerosol Altitudes Localization -- 11.2.3 Aerosol Concentration -- 11.2.4 Aerosol Size Distribution and Spectral Extinction -- 11.3 Effects of Hydrometeors -- 11.3.1 Effects of Fog -- 11.3.2 Effects of Rain -- 11.3.3 Effects of Clouds -- 11.3.3.1 Snow -- 11.4 Effects of Turbulent Gaseous Structures on Optical Waves Propagation -- 11.4.1 Turbulence Phenomenon -- 11.4.2 Scintillation Phenomenon of Optical Wave Passing the Turbulent Atmosphere -- 11.4.3 Scintillation Index -- 11.4.4 Signal Intensity Scintillations in the Turbulent Atmosphere -- 11.4.5 Effects of Atmosphere Turbulences on Signal Fading -- 11.5 Optical Waves Propagation Caused by Atmospheric Scattering -- References -- Part V Data Stream Parameters in Atmospheric and Fiber Optic Communication Links with Fading.

Chapter 12 Transmission of Information Data in Optical Channels: Atmospheric and Fiber Optics -- 12.1 Characteristics of Information Signal Data in Optical Communication Links -- 12.2 Bit Error Rate in Optical Communication Channel -- 12.3 Relations Between Signal Data Parameters and Fading Parameters in Atmospheric Links -- 12.4 Effects of Fading in Fiber Optic Communication Link -- References -- Index -- EULA.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.