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200 10$aIntroduction to the physics and techniques of remote sensing$b[electronic resource]
205   $a2nd ed.
210   $aHoboken, N.J. $cWiley-Interscience$dc2006
215   $a1 online resource (572 p.)
225 1 $aWiley series in remote sensing
300   $aDescription based upon print version of record.
311   $a0-471-47569-6 
320   $aIncludes bibliographical references and index.
327   $aIntroduction to the Physics and Techniques of Remote Sensing; Contents; Preface; 1 Introduction; 1-1 Types and Classes of Remote Sensing Data; 1-2 Brief History of Remote Sensing; 1-3 Remote Sensing Space Platforms; 1-4 Transmission Through the Earth and Planetary Atmospheres; References and Further Reading; 2 Nature and Properties of Electromagnetic Waves; 2-1 Fundamental Properties of Electromagnetic Waves; 2-1-1 Electromagnetic Spectrum; 2-1-2 Maxwell's Equations; 2-1-3 Wave Equation and Solution; 2-1-4 Quantum Properties of Electromagnetic Radiation; 2-1-5 Polarization; 2-1-6 Coherency
327   $a2-1-7 Group and Phase Velocity2-1-8 Doppler Effect; 2-2 Nomenclature and Definition of Radiation Quantities; 2-2-1 Radiation Quantities; 2-2-2 Spectral Quantities; 2-2-3 Luminous Quantities; 2-3 Generation of Electromagnetic Radiation; 2-4 Detection of Electromagnetic Radiation; 2-5 Interaction of Electromagnetic Waves with Matter: Quick Overview; 2-6 Interaction Mechanisms Throughout the Electromagnetic Spectrum; Exercises; References and Further Reading; 3 Solid Surfaces Sensing in the Visible and Near Infrared; 3-1 Source Spectral Characteristics; 3-2 Wave-Surface Interaction Mechanisms
327   $a3-2-1 Reflection, Transmission, and Scattering3-2-2 Vibrational Processes; 3-2-3 Electronic Processes; 3-2-4 Fluorescence; 3-3 Signature of Solid Surface Materials; 3-3-1 Signature of Geologic Materials; 3-3-2 Signature of Biologic Materials; 3-3-3 Depth of Penetration; 3-4 Passive Imaging Sensors; 3-4-1 Imaging Basics; 3-4-2 Sensor Elements; 3-4-3 Detectors; 3-5 Types of Imaging Systems; 3-6 Description of Some Visible/Infrared Imaging Sensors; 3-6-1 Landsat-Enhanced Thematic Mapper Plus (ETM+); 3-6-2 Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER)
327   $a3-6-3 Mars Orbiter Camera (MOC)3-6-4 Mars Exploration Rover Panchromatic Camera (Pancam); 3-7 Active Sensors; 3-8 Surface Sensing at Very Short Wavelengths; 3-8-1 Radiation Sources; 3-8-2 Detection; 3-9 Image Data Analysis; 3-9-1 Detection and Delineation; 3-9-2 Classification; 3-9-3 Identification; Exercises; References and Further Reading; 4 Solid-Surface Sensing: Thermal Infrared; 4-1 Thermal Radiation Laws; 4-1-1 Emissivity of Natural Terrain; 4-1-2 Emissivity from the Sun and Planetary Surfaces; 4-2 Heat Conduction Theory; 4-3 Effect of Periodic Heating
327   $a4-4 Use of Thermal Emission in Surface Remote Sensing4-4-1 Surface Heating by the Sun; 4-4-2 Effect of Surface Cover; 4-4-3 Separation of Surface Units Based on Their Thermal Signature; 4-4-4 Example of Application in Geology; 4-4-5 Effects of Clouds on Thermal Infrared Sensing; 4-5 Use of Thermal Infrared Spectral Signatures in Sensing; 4-6 Thermal Infrared Sensors; 4-6-1 Heat Capacity Mapping Radiometer; 4-6-2 Thermal Infrared Multispectral Scanner; 4-6-3 ASTER Thermal Infrared Sensor; 4-6-4 Spitzer Space Telescope; 4-6-5 2001 Mars Odyssey Thermal Emission Imaging System (THEMIS)
327   $a4-6-6 Advanced Very High Resolution Radiometer (AVHRR)
330   $aThe science and engineering of remote sensing--theory and applicationsThe Second Edition of this authoritative book offers readers the essential science and engineering foundation needed to understand remote sensing and apply it in real-world situations. Thoroughly updated to reflect the tremendous technological leaps made since the publication of the first edition, this book covers the gamut of knowledge and skills needed to work in this dynamic field, including:* Physics involved in wave-matter interaction, the building blocks for interpreting data* Techniques used to
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606   $aRemote sensing
615  0$aRemote sensing.
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200 00$aCinemas and Cinema-Going in the United Kingdom : $eDecades of Decline, 1945-65 /$fSam Manning
210  1$a[s.l.] :$cUniversity of London Press,$d2020.
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225 1 $aNew Historical Perspectives
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327   $a1. Cinema-going experiences -- 2. The decline of cinema-going -- 3. Cinema-going and the built environment -- 4. Cinema exhibition, programming and audience preferences in Belfast -- 5. Film exhibition in post-war Sheffield.
330   $aCinema-going was the most popular commercial leisure activity in the first half of the twentieth century, peaking in 1946 with 1.6 billion recorded admissions. Though 'going to the pictures' remained a popular pastime, the transition to peacetime altered citizens' leisure habits. During the 1950s increased affluence, the growth of television ownership and the diversification of leisure led to rapid declines in attendance. Cinema attendances fell in all regions, but the speed, nature and extent of decline varied widely across the United Kingdom. By linking national developments to detailed case studies of Belfast and Sheffield, this book adds nuance to our understanding of regional variations in film exhibition, audience habits and cinema-going experiences during a period of profound social and cultural change. Drawing on a wide range of quantitative and qualitative sources, Cinema and Cinema-Going conveys the diverse nature of this important industry, and the significance of place as a determinant of film attendance in post-war Britain. Dr Sam Manning teaches at Queen's University Belfast and is a postdoctoral researcher on the AHRC European Cinema Audiences project at Oxford Brookes University. He has recently published articles on the history of cinemas in Northern Ireland in Cultural and Social History and Media History.
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