Microwave Engineering : Land & Space Radiocommunications
Gérard. Barué
Bok Engelsk 2008 · Electronic books.
| Annen tittel | |
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| Utgitt | Hoboken : : Wiley, , 2008.
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| Omfang | 1 online resource (457 p.)
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| Opplysninger | Description based upon print version of record.. - MICROWAVE ENGINEERING; CONTENTS; Foreword; Preface; Acknowledgments; 1. Electromagnetic Wave Propagation; 1.1 Properties of Plane Electromagnetic Wave; 1.1.1 Equation of Wave or Propagation; 1.1.2 Wave Velocity; 1.1.3 Power Flux Density; 1.1.4 Field Created in Free Space by Isotropic Radiator; 1.1.5 Wave Polarization; 1.2 Radiant Continuous Aperture; 1.2.1 Expression of Directivity and Gain; 1.2.2 Radiation Pattern; 1.2.3 Near Field and Far Field; 1.2.4 Effective Aperture; 1.2.5 Skin Effect; 1.3 General Characteristics of Antennas; 1.3.1 Expression of Gain and Beamwidth. - 1.11.2 Depolarization by Hydrometeors1.11.2.1 Polarization of Electromagnetic Wave; 1.11.2.2 Cross-Polarization Effects; 1.12 Influence of Ionosphere; 1.12.1 Scintillation; 1.12.2 Faraday's Rotation; 1.12.3 Propagation Time Delay; 1.13 Thermal Radiation; 1.13.1 Origin of Thermal Radiation; 1.13.2 Propagation of Thermal Radiation; 1.13.3 BlackBody; 1.13.4 Gray Body; 1.14 Probability Distributions; 1.14.1 Introduction; 1.14.2 Gauss's Law of Distribution; 1.14.3 Rayleigh's Law of Distribution; 1.14.4 Other Laws of Distribution; 2. Principles of Digital Communication Systems. - 1.3.2 Reference Radiation Patterns1.3.3 Characteristics of Polarization; 1.4 Free-Space Loss and Electromagnetic Field Strength; 1.4.1 Attenuation of Propagation; 1.4.2 Electromagnetic Field Strength; 1.5 Reflector and Passive Repeater; 1.5.1 Reflector in Far Field; 1.5.2 Passive Repeater in Far Field; 1.5.3 Reflector in Near Field (Periscope); 1.6 Model of Propagation; 1.6.1 Spherical Diffraction; 1.6.2 Fresnel's Ellipsoid; 1.7 Reflection and Refraction; 1.7.1 General Laws; 1.7.2 Divergence Factor; 1.7.3 Roughness Factor; 1.7.4 Factor of Limitation of Reflection Zone. - 1.8 Influence of Atmosphere1.8.1 Refractivity; 1.8.2 Vertical Gradient of Refractive Index; 1.8.3 Curvature of Radioelectric Rays; 1.8.4 Effective Earth Radius; 1.8.5 Variation of Launch and Arrival Angles of Rays; 1.8.6 Positive Minimal Value of Effective Earth-radius Factor; 1.8.7 Tropospheric Radio Ducts; 1.8.7.1 Conditions of Appearance; 1.8.7.2 Trajectories of Rays in Radio Duct; 1.9 Propagation by Diffraction; 1.9.1 Diffraction over Smooth Spherical Earth; 1.9.2 Diffraction over Single-Knife-Edge Obstacle; 1.9.3 Diffraction over Single Rounded Obstacle. - 1.9.4 Diffraction over Double Isolated Edges1.9.5 Diffraction Loss General Curves; 1.9.6 Attenuation by Vegetation; 1.10 Attenuation by Atmospheric Gases; 1.10.1 Specific Attenuation; 1.10.2 Terrestrial Paths; 1.10.3 Slant Paths; 1.10.3.1 Elevation Angle Greater Than 10°; 1.10.3.2 Elevation Angle between 0° and 10°; 1.11 Attenuation and Depolarization by Hydrometeors; 1.11.1 Rain Attenuation; 1.11.1.1 Terrestrial Paths; 1.11.1.2 Earth-Space Paths; 1.11.1.3 Site Diversity (Rayleigh's Equations for Correlation between Random Variables); 1.11.1.4 Attenuation Due to Gases, Clouds, and Fog. - 2.1 Signal Processing. - Everything readers need to implement and support a wireless point-to-point communications environment In order to cope with the tremendous explosion of the telecommunications market, the field of wireless communications has greatly expanded in the past fifty years, especially in the domains of microwave radio systems including line-of-sight, satellites, and tropospheric-scatter. Now, Microwave Engineering: Land & Space Radio- communications answers the growing worldwide demand for an authoritative book on this important and emerging subject area. In five succinct chapters, the book introdu
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| Emner | |
| Sjanger | |
| Dewey | |
| ISBN | 9780470089965
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