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" Microwave radar and radiometric remote sensing / "
Fawwaz T. Ulaby, David G. Long with contributions by William Blackwell, Charles Elachi, Adrian Fung, Chris Ruf, Kamal Sarabandi, Howard Zebker, Jakob van Zyl.
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BL
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| Record Number
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878447
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| Main Entry
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Ulaby, Fawwaz T., (Fawwaz Tayssir),1943-
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| Title & Author
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Microwave radar and radiometric remote sensing /\ Fawwaz T. Ulaby, David G. Long with contributions by William Blackwell, Charles Elachi, Adrian Fung, Chris Ruf, Kamal Sarabandi, Howard Zebker, Jakob van Zyl.
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| Publication Statement
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Ann Arbor :: The University of Michigan Press,, 2014.
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1 online resource
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| ISBN
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1630810509
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: 9781630810504
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0472119354
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9780472119356
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| Bibliographies/Indexes
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Includes bibliographical references and index.
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| Contents
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Microwave Radar and Radiometric Remote Sensing; Preface; Chapter 1 Introduction ; Chapter 2 Electromagnetic Wave Propagation and Reflection ; Chapter 3 Remote-Sensing Antennas ; Chapter 4 Microwave Dielectric Properties of Natural Earth Materials; Chapter 5 Radar Scattering ; 5-1 Wave Polarization in a Spherical Coordinate System; 5-2 Scattering Coordinate Systems; 5-2.1 Forward Scattering Alignment (FSA) Convention; 5-2.2 Backscatter Alignment (BSA)Convention; Photo Credits; Computer Codes; 1-1 Why Microwaves for Remote Sensing?; 1-2 A Brief Overview of Microwave Sensors.
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1-3 A Short History of Microwave Remote Sensing1-4 The Electromagnetic Spectrum; 1-5 Basic Operation and Applications of Radar; 1-6 Basic Operation and Applications of Radiometers; 1-7 Image Examples; 2-1 EM Plane Waves; 2-2 Plane-Wave Propagation in Lossless Media; 2-3 Wave Polarization in a Lossless Medium; 2-4 Plane-Wave Propagation in Lossy Media; 2-5 Electromagnetic Power Density; 2-6 Wave Reflection and Transmission at Normal Incidence; 2-7 Wave Reflection and Transmission at Oblique Incidence; 2-8 Reflectivity and Transmissivity; 2-9 Oblique Incidence onto a Lossy Medium.
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2-10 Oblique Incidence onto a Two-Layer CompositePROBLEMS; 3-1 The Hertzian Dipole; 3-2 Antenna Radiation Characteristics; 3-3 Friis Transmission Formula; 3-4 Radiation by Large-Aperture Antennas; 3-5 Rectangular Aperture with Uniform Field Distribution ; 3-6 Circular Aperture with Uniform Field Illumination; 3-7 Nonuniform-Amplitude Illumination; 3-8 Beam Efficiency; 3-9 Antenna Arrays; 3-10 N-Element Array with Uniform Phase Distribution; 3-11 Electronic Scanning of Arrays; 3-12 Antenna Types; 3-13 Active Antennas; PROBLEMS; 4-1 Pure-Water Single-Debye Dielectric Model (f d"50 GHz).
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2-3.3 Elliptical Polarization2-4.1 Low-Loss Dielectric; 2-4.2 Good Conductor; 2-5.1 PlaneWave in a Lossless Medium; 2-5.2 PlaneWave in a Lossy Medium; 2-5.3 Decibel Scale for Power Ratios; 2-6.1 Boundary between Lossless Media; 2-6.2 Boundary between Lossy Media; 2-7.1 Horizontal Polarization-Lossless Media; 2-7.2 Vertical Polarization; 2-10.1 Input Parameters; 2-10.2 Propagation Matrix Method; 2-10.3 Multiple Reflection Method; 3-2.1 Antenna Pattern; 3-2.2 Beam Dimensions; 3-2.3 Antenna Directivity; 3-2.4 Antenna Gain; 3-2.5 Radiation Efficiency; 3-2.6 Effective Area of a Receiving Antenna.
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4-2 Saline-Water Double-Debye Dielectric Model (f d"1000 GHz)4-4 Dielectric Mixing Models for Heterogeneous Materials; 4-5 Sea Ice; 4-6 Dielectric Constant of Snow; 4-7 Dielectric Constant of Dry Rocks; 4-8 Dielectric Constant of Soils; 4-9 Dielectric Constant of Vegetation; PROBLEMS; 1-3.1 Radar; 1-3.2 Radiometers; 1-5.1 Operation of Remote-Sensing Radars; 1-6.1 Radiometer Operation; 1-6.2 Applications of Microwave Radiometry; 2-1.1 Constitutive Parameter; 2-1.2 Maxwell's Equations; 2-1.3 Complex Permittivity; 2-1.4 Wave Equations; 2-3.1 Linear Polarization; 2-3.2 Circular Polarization.
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| Abstract
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A successor to the classic Artech House Microwave Remote Sensing series, this comprehensive and up-to-date resource previously published by University of Michigan Press provides you with theoretical models, system design and operation, and geoscientific applications of active and passive microwave remote sensing systems. To facilitate understanding and use of the material, the book includes 50 MATLAB-based computer codes and the book's website (http://mrs.eecs.umich.edu/) includes interactive modules based on theoretical and empirical models.
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Microwave devices.
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Remote sensing.
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Microwave devices.
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Remote sensing.
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TECHNOLOGY ENGINEERING-- Remote Sensing Geographic Information Systems.
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| Dewey Classification
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621.3678
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| LC Classification
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G70.6.U43 2014eb
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| Added Entry
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Blackwell, William J.
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Elachi, Charles
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Fung, Adrian K.
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Long, David G., (David Gardner),1958-
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Ruf, Chris
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Sarabandi, Kamal
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Van Zyl, Jakob,1967-
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Zebker, Howard A.
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