Remote sensing from air and space:
This book will guide you in the use of remote sensing for military and intelligence gathering applications. It is a must read for students working on systems acquisition or for anyone interested in the products derived from remote sensing systems.
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Bellingham, Wash.
SPIE Press
2007
|
| Schriftenreihe: | SPIE PM
162 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | This book will guide you in the use of remote sensing for military and intelligence gathering applications. It is a must read for students working on systems acquisition or for anyone interested in the products derived from remote sensing systems. |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XIV, 255 S. |
| ISBN: | 0819462357 |
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| 100 | 1 | |a Olsen, Richard C. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Remote sensing from air and space |c R. C. Olsen |
| 264 | 1 | |a Bellingham, Wash. |b SPIE Press |c 2007 | |
| 300 | |a XIV, 255 S. | ||
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| 490 | 0 | |a SPIE PM |v 162 | |
| 500 | |a Includes bibliographical references and index | ||
| 520 | 3 | |a This book will guide you in the use of remote sensing for military and intelligence gathering applications. It is a must read for students working on systems acquisition or for anyone interested in the products derived from remote sensing systems. | |
| 650 | 4 | |a Télédétection | |
| 650 | 4 | |a Remote sensing | |
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Datensatz im Suchindex
| _version_ | 1804136522755080192 |
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| adam_text | REMOTE SENSING FROM AIR AND SPACE R. C. OLSEN SPIE PRESS BELLINGHAM,
WASHINGTON USA CONTENTS PREFACE XIII CHAPTER 1 INTRODUCTION TO REMOTE
SENSING 1 1.1 ORDER OF BATTLE 2 1.1.1 AIR ORDER OF BATTLE 3 1.1.2
ELECTRONIC ORDER OF BATTLE 3 1.1.3 SPACE ORDER OF BATTLE 7 1.1.4 NAVAL
ORDER OF BATTLE 8 1.2 IMAGERY SURVEY 9 1.2.1 VISIBLE 9 1.2.1.1 GOES,
WHOLE EARTH 9 1.2.1.2 DMSP (0.5 KM), EARTH AT NIGHT 10 1.2.1.3 UOSAT
(100M), SAN FRANCISCO 11 1.2.1.4 LANDSAT 5 (30M), SAN DIEGO 13 1.2.1.5
ASTRONAUT PHOTOGRAPHY 13 1.2.1.6 SPOT (10 M) 15 1.2.1.7 IRS (5 M) 17
1.2.1.8 IKONOS*SAN DIEGO/CORONADO ISLAND 17 1.2.1.9 HIGH-RESOLUTION
AIRBORNE IMAGERY 19 1.2.2 INFRARED (IR) 20 1.2.2.1 GOES 9 21 1.2.2.2
LANDSAT*IR SAN DIEGO 22 1.2.2.3 DMSP*IR AND MICROWAVE 23 1.2.3 RADAR
(SAR) 24 1.2.3.1 RADARSAT, MAUI AND THE AIRPORT 24 1.2.3.2
SIRC*MULTI-WAVELENGTH/POLARIZATION 26 1.2.3.2.1 MAUI 26 1.2.3.2.2 SIRC,
SAN DIEGO HARBOR 26 1.3 THREE AXES 26 1.4 RESOURCES 28 1.5 PROBLEMS 29
CHAPTER 2 2.1 2.2 2.3 2.4 2.5 2.6 CHAPTER 3 3.1 ELECTROMAGNETIC BASICS
THE ELECTROMAGNETIC SPECTRUM 2.1.1 MAXWELL S EQUATIONS POLARIZATION OF
RADIATION ENERGY IN ELECTROMAGNETIC WAVES 2.3.1 PHOTOELECTRIC EFFECT
2.3.2 PHOTOMULTIPLIER TUBES SOURCES OF ELECTROMAGNETIC RADIATION 2.4.1
LINE SPECTRA 2.4.2 BLACKBODY RADIATION ELECTROMAGNETIC RADIATION
(EMR)-MATTER INTERACTIONS 2.5.1 TRANSMISSION 2.5.2 REFLECTION 2.5.3
SCATTERING 2.5.4 ABSORPTION PROBLEMS VISIBLE IMAGERY THE FIRST REMOTE
SENSING SATELLITE: CORONA CONTENTS 33 33 33 35 35 38 39 41 42 45 48 49
50 51 52 53 55 55 3.1.1 A LITTLE HISTORY 55 3.1.2 THE TECHNOLOGY 56
3.1.3 SOME ILLUSTRATIONS 59 3.2 ATMOSPHERIC ABSORPTION, SCATTERING, AND
TURBULENCE 63 3.2.1 ATMOSPHERIC ABSORPTION: WAVELENGTH DEPENDENCE 63
3.2.2 ATMOSPHERIC SCATTERING 64 3.2.3 ATMOSPHERIC TURBULENCE 66 3.3
BASIC GEOMETRICAL OPTICS 67 3.3.1 FOCAL LENGTH/GEOMETRY 67 3.3.2 OPTICAL
DIAGRAM: SIMILAR TRIANGLES, MAGNIFICATION 68 3.3.3 APERTURE (F/STOP) 69
3.3.4 IMAGE FORMATION BY LENS OR PINHOLE 69 3.4 DIFFRACTION LIMITS: THE
RAYLEIGH CRITERION 70 3.5 DETECTORS 73 3.5.1 FILM 74 3.5.2 SOLID STATE
74 3.5.3 FOCAL PLANE ARRAYS 78 3.5.4 UNCOOLED FOCAL PLANES:
MICROBOLOMETERS 79 3.6 IMAGING SYSTEM TYPES 80 3.6.1 FRAMING
SYSTEMS*MOSTLY FILM SYSTEMS (CORONA) 80 3.6.2 SCANNING SYSTEMS 80
3.6.2.1 CROSS TRACK (LANDSAT MSS, TM; AVIRIS) 80 3.6.2.2 ALONG TRACK
(SPOT HRV) 81 3.7 HUBBLE: THE BIG TELESCOPE 82 3.7.1 THE HUBBLE
SATELLITE 82 CONTENTS VII 3.7.2 THE REPAIR MISSIONS 84 3.7.3 OPERATING
CONSTRAINTS 86 3.7.3.1 SOUTH ATLANTIC ANOMALY 86 3.7.3.2 SPACECRAFT
POSITION IN ORBIT 86 3.7.4 THE TELESCOPE ITSELF 86 3.7.5 DETECTORS*WIDE
FIELD AND PLANETARY CAMERA 2 88 3.7.5.1 EXAMPLE: DIFFRACTION AND
RESOLUTION LIMITS 90 3.7.5.1.1 RAYLEIGH CRITERIA 90 3.7.5.1.2 GEOMETRIC
RESOLUTION 92 3.8 COMMERCIAL REMOTE SENSING*IKONOS AND QUICKBIRD 92
3.8.1 IKONOS 95 3.8.1.1 IMAGING SENSORS AND ELECTRONICS FOR THE IKONOS
SATELLITE 95 3.8.1.1.1 CAMERA TELESCOPE 95 3.8.1.1.2 IMAGING SENSORS &
ELECTRONICS 96 3.8.2 NOB WITH IKONOS: SEVERODVINSK 97 3.9 DMSP: VISIBLE
SENSOR, EARTH AT NIGHT 98 3.10 EXPOSURE TIMES 99 3.11 PROBLEMS 101
CHAPTER 4 ORBITAL MECHANICS INTERLUDE 103 4.1 GRAVITATIONAL FORCE 103
4.2 CIRCULAR MOTION 104 4.2.1 EQUATIONS OF MOTION 104 4.2.1.1 EXAMPLE: A
CAR IS GOING AROUND IN A CIRCLE OF 200 M RADIUS AT 3 6 KM/HR. WHAT IS
CO? 104 4.2.1.2 EXAMPLE: A SATELLITE IS GOING AROUND THE EARTH ONCE
EVERY 90 MINUTES. WHAT IS CO? 105 4.2.2 CENTRIPETAL FORCE 105 4.3
SATELLITE MOTION 105 4.4 KEPLER S LAWS 106 4.4.1 ELLIPTICAL ORBITS 106
4.4.2 EQUAL AREAS SWEPT OUT IN EQUAL TIMES 107 4.4.3 ORBITAL PERIOD: X 2
~ P 3 108 4.5 ORBITAL ELEMENTS 108 4.5.1 SEMI-MAJOR AXIS: A 108 4.5.2
ECCENTRICITY: E OR E 108 4.5.3 INCLINATION ANGLE: / 108 4.5.4 RIGHT
ASCENSION OF THE ASCENDING NODE: Q 109 4.5.5 CLOSEST POINT OF APPROACH
(ARGUMENT OF PERIGEE): CO 109 4.6 A FEW STANDARD ORBITS 109 4.6.1 LOW
EARTH ORBIT (LEO) 110 4.6.2 MEDIUM EARTH ORBIT (MEO) 111 4.6.3
GEOSYNCHRONOUS ORBIT (GEO) 111 CONTENTS 4.7 CHAPTER 5 5.1 5.2 5.3 5.4
5.5 5.6 5.7 CHAPTER 6 6.1 6.2 4.6.4 MOLMYA ORBIT (HEO) 4.6.5 SUMMARY
TABLE*ILLUSTRATIONS PROBLEMS EO * SPECTRAL IMAGERY REFLECTANCE OF
MATERIALS HUMAN VISUAL RESPONSE LANDSAT 5.3.1 ORBIT 5.3.2 SENSOR:
THEMATIC MAPPER 5.3.2.1 OPTICS 5.3.2.2 FOCAL PLANES 5.3.2.2.1 PRIME
FOCAL PLANE 5.3.2.2.2 COLD FOCAL PLANE 5.3.2.2.3 SPECTRAL RESPONSE
5.3.2.3 SPATIAL RESOLUTION*SWATH 5.3.2.4 DYNAMIC RANGE 5.3.2.5 DATA
LINKS SYSTEME PROBATOIRE D OBSERVATION DE LA TERRE (SPOT) 5.4.1 HRV
SENSOR, PAN/SPECTRAL*BOTH 60-KM SWATH 5.4.1.1 IMAGING MODES*SPATIAL AND
SPECTRAL RESOLUTION SPECTRAL RESPONSES FOR THE COMMERCIAL SYSTEMS
IMAGING SPECTROSCOPY 5.6.1 AVIRIS 5.6.2 HYPERION 5.6.3 MIGHTYSAT
II*FTHSI PROBLEMS , IMAGE ANALYSIS INTERPRETATION KEYS (ELEMENTS OF
RECOGNITION) 6.1.1 SHAPE 6.1.2 SIZE 6.1.3 SHADOW 6.1.4 HEIGHT (DEPTH)
6.1.5 TONE OR COLOR 6.1.6 TEXTURE 6.1.7 PATTERN 6.1.8 ASSOCIATION 6.1.9
SITE 6.1.10 TIME IMAGE PROCESSING 6.2.1 DIGITAL NUMBERS: PIXELS AND
PICTURES, HISTOGRAMS 6.2.2 DVNAMIC RANEE*SNOW AND BLACK CATS 113 114 115
117 117 118 120 121 122 122 124 124 125 125 126 127 127 128 130 130 131
132 132 133 135 136 137 137 137 138 138 138 138 139 139 140 140 140 140
142 143 CONTENTS 6.3 6.4 6.5 6.6 CHAPTER 7 7.1 6.2.3 FILTERS 6.2.3.1
SMOOTHING 6.2.3.2 EDGE DETECTION HISTOGRAMS AND TARGET DETECTION
HISTOGRAMS, SPECTRAL DATA, AND TRANSFORMS SUPPLEMENTAL NOTES ON
STATISTICS PROBLEMS THERMAL INFRARED IR BASICS 146 146 146 147 149 153
156 157 157 7.1.1 BLACKBODY RADIATION 157 7.1.2 WIEN S DISPLACEMENT LAW
, 158 7.1.3 STEFAN-BOLTZMANN LAW T 4 158 7.1.4 EMISSIVITY 159 7.1.5
ATMOSPHERIC ABSORPTION 159 7.2 IR CONCEPTS 159 7.2.1 KINETIC TEMPERATURE
159 7.2.2 THERMAL INERTIA, CONDUCTIVITY, CAPACITY, DIFFUSIVITY 160
7.2.2.1 HEAT CAPACITY (SPECIFIC HEAT) 160 7.2.2.2 THERMAL CONDUCTIVITY
161 7.2.2.3 THERMAL INERTIA 161 7.2.2.4 THERMAL DIFFUSIVITY 161 7.2.2.5
DIURNAL TEMPERATURE VARIATION 162 7.3 LANDSAT 163 7.4 EARLY WEATHER
SATELLITES 165 7.4.1 TIROS 166 7.4.2 NIMBUS 166 7.5 GOES 167 7.5.1
SATELLITE AND SENSOR 167 7.5.2 WEATHER AND STORMS*HURRICANE MITCH 169=
7.5.3 VOLCANOES AND ASH CLOUDS 170 7.5.4 SHUTTLE LAUNCH: VAPOR TRAIL,
ROCKET 171 7.6 DEFENSE SUPPORT PROGRAM*DSP 172 7.7 SEBASS*THERMAL
SPECTRAL 175 7.7.1 HARD TARGETS 175 7.7.2 GAS MEASUREMENTS: KILAUEA*PU
U O O VENT 176 7.8 PROBLEMS 178 179 179 179 179 182 183 CHAPTER 8 8.1
8.2 RADAR IMAGING RADAR THEORY 8.2.1 IMAGING RADAR BASICS 8.2.2 RADAR
RANGE RESOLUTION 8.2.2.1 SIGNAL SHAPE CONTENTS 8.3 8.4 8.5 8.6 8.7 8.8
CHAPTER 9 9.1 9.2 9.3 APPENDIX 1 AL.L 8.2.3 RADAR AZIMUTHAL RESOLUTION
8.2.4 BEAM PATTERN AND RESOLUTION SYNTHETIC-APERTURE RADAR RADAR CROSS
SECTION (A) 8.4.1 DIELECTRIC COEFFICIENT: SOIL MOISTURE 8.4.2 ROUGHNESS
8.4.3 TETRAHEDRONS/CORNER REFLECTORS POLARIZATION WAVELENGTH VEHICLES
8.7.1 SHUTTLE IMAGING RADAR (SIR) 8.7.1.1 SOIL PENETRATION 8.7.1.2 OIL
SLICKS AND INTERNAL WAVES 8.7.2 RADARSAT: SHIP DETECTION 8.7.3 EUROPEAN
RADAR SATELLITES: ERS-1, ERS-2 8.7.3.1 SHIP WAKES 8.7.3.2 MULTI-TEMPORAL
IMAGES: ROME 8.7.3.3 SPAIN*MOROCCO*STRAIT OF GIBRALTAR 8.7.4 SANDIA
KU-BAND AIRBORNE RADAR PROBLEMS RADAR AND LIDAR RADAR INTERFEROMETRY
9.1.1 TOPOGRAPHIC MAPPING 9.1.2 THE SHUTTLE RADAR TOPOGRAPHIC MAPPING
(SRTM) MISSION 9.1.2.1 MISSION DESIGN 9.1.2.2 MISSION RESULTS: LEVEL-2
TERRAIN-HEIGHT DATASETS (DIGITAL TOPOGRAPHIC MAPS) LIDAR 9.2.1
INTRODUCTION 9.2.2 OPTECH: AIRBORNE LASER TERRAIN MAPPER (ALTM) 9.2.3
BATHYMETRY EXERCISE DERIVATIONS DERIVATION OF THE BOHR ATOM 185 186 188
191 192 194 194 195 196 197 197 199 200 201 202 203 204 204 206 208 211
211 211 214 215 217 219 219 220 222 224 225 225 ASSUMPTION 1: THE ATOM
IS HELD TOGETHER BY THE COULOMB FORCE 225 ASSUMPTION 2: THE ELECTRON
MOVES IN AN ELLIPTICAL ORBIT AROUND THE NUCLEUS (AS IN PLANETARY
MOTION). 226 ASSUMPTION 3: QUANTIZED ANGULAR MOMENTUM 226 ASSUMPTION 4:
RADIATION IS EMITTED ONLY FROM TRANSITIONS BETWEEN THE DISCRETE ENERGY
LEVELS 228 CONTENTS XI A 1.2 DIELECTRIC THEORY 229 AL .3 DERIVATION OF
THE BEAM PATTERN FOR A SQUARE APERTURE 230 APPENDIX 2 CORONA 233 A2.1
MISSION OVERVIEW 233 A2.2 CAMERA DATA 234 A2.3 MISSION SUMMARY 235 A2.4
ORBITS*AN EXAMPLE 242 APPENDIX 3 TRACKING AND DATA RELAY SATELLITE
SYSTEM 243 A3.1 RELAY SATELLITES*TDRSS 243 A3.2 WHITE SANDS 244 A3.3
TDRS 1 TO 7 245 A3.3.1 SATELLITES 245 A3.3.2PAYLOAD 246 A3.4 TDRSH 247
A3.4.1 TDRS H, I, AND J PAYLOAD CHARACTERISTICS 247 A3.4.1.1 S-BAND
MULTIPLE ACCESS 248 A3.4.1.2 SINGLE-ACCESS (SA) ANTENNA (2) 248 A3.4.1.3
SPACE-GROUND-LINK ANTENNA (KU BAND) 248 APPENDIX 4 USEFUL EQUATIONS AND
CONSTANTS 249 EM WAVES 249 BOHR-ATOM 249 BLACKBODY RADIATION 249
REFLECTION AND REFRACTION 250 OPTICS 250 ORBITAL MECHANICS AND CIRCULAR
MOTION 250 INDEX 251
|
| adam_txt |
REMOTE SENSING FROM AIR AND SPACE R. C. OLSEN SPIE PRESS BELLINGHAM,
WASHINGTON USA CONTENTS PREFACE XIII CHAPTER 1 INTRODUCTION TO REMOTE
SENSING 1 1.1 ORDER OF BATTLE 2 1.1.1 AIR ORDER OF BATTLE 3 1.1.2
ELECTRONIC ORDER OF BATTLE 3 1.1.3 SPACE ORDER OF BATTLE 7 1.1.4 NAVAL
ORDER OF BATTLE 8 1.2 IMAGERY SURVEY 9 1.2.1 VISIBLE 9 1.2.1.1 GOES,
WHOLE EARTH 9 1.2.1.2 DMSP (0.5 KM), EARTH AT NIGHT 10 1.2.1.3 UOSAT
(100M), SAN FRANCISCO 11 1.2.1.4 LANDSAT 5 (30M), SAN DIEGO 13 1.2.1.5
ASTRONAUT PHOTOGRAPHY 13 1.2.1.6 SPOT (10 M) 15 1.2.1.7 IRS (5 M) 17
1.2.1.8 IKONOS*SAN DIEGO/CORONADO ISLAND 17 1.2.1.9 HIGH-RESOLUTION
AIRBORNE IMAGERY 19 1.2.2 INFRARED (IR) 20 1.2.2.1 GOES 9 21 1.2.2.2
LANDSAT*IR SAN DIEGO 22 1.2.2.3 DMSP*IR AND MICROWAVE 23 1.2.3 RADAR
(SAR) 24 1.2.3.1 RADARSAT, MAUI AND THE AIRPORT 24 1.2.3.2
SIRC*MULTI-WAVELENGTH/POLARIZATION 26 1.2.3.2.1 MAUI 26 1.2.3.2.2 SIRC,
SAN DIEGO HARBOR 26 1.3 THREE AXES 26 1.4 RESOURCES 28 1.5 PROBLEMS 29
CHAPTER 2 2.1 2.2 2.3 2.4 2.5 2.6 CHAPTER 3 3.1 ELECTROMAGNETIC BASICS
THE ELECTROMAGNETIC SPECTRUM 2.1.1 MAXWELL'S EQUATIONS POLARIZATION OF
RADIATION ENERGY IN ELECTROMAGNETIC WAVES 2.3.1 PHOTOELECTRIC EFFECT
2.3.2 PHOTOMULTIPLIER TUBES SOURCES OF ELECTROMAGNETIC RADIATION 2.4.1
LINE SPECTRA 2.4.2 BLACKBODY RADIATION ELECTROMAGNETIC RADIATION
(EMR)-MATTER INTERACTIONS 2.5.1 TRANSMISSION 2.5.2 REFLECTION 2.5.3
SCATTERING 2.5.4 ABSORPTION PROBLEMS VISIBLE IMAGERY THE FIRST REMOTE
SENSING SATELLITE: CORONA CONTENTS 33 33 33 35 35 38 39 41 42 45 48 49
50 51 52 53 55 55 3.1.1 A LITTLE HISTORY 55 3.1.2 THE TECHNOLOGY 56
3.1.3 SOME ILLUSTRATIONS 59 3.2 ATMOSPHERIC ABSORPTION, SCATTERING, AND
TURBULENCE 63 3.2.1 ATMOSPHERIC ABSORPTION: WAVELENGTH DEPENDENCE 63
3.2.2 ATMOSPHERIC SCATTERING 64 3.2.3 ATMOSPHERIC TURBULENCE 66 3.3
BASIC GEOMETRICAL OPTICS 67 3.3.1 FOCAL LENGTH/GEOMETRY 67 3.3.2 OPTICAL
DIAGRAM: SIMILAR TRIANGLES, MAGNIFICATION 68 3.3.3 APERTURE (F/STOP) 69
3.3.4 IMAGE FORMATION BY LENS OR PINHOLE 69 3.4 DIFFRACTION LIMITS: THE
RAYLEIGH CRITERION 70 3.5 DETECTORS 73 3.5.1 FILM 74 3.5.2 SOLID STATE
74 3.5.3 FOCAL PLANE ARRAYS 78 3.5.4 UNCOOLED FOCAL PLANES:
MICROBOLOMETERS 79 3.6 IMAGING SYSTEM TYPES 80 3.6.1 FRAMING
SYSTEMS*MOSTLY FILM SYSTEMS (CORONA) 80 3.6.2 SCANNING SYSTEMS 80
3.6.2.1 CROSS TRACK (LANDSAT MSS, TM; AVIRIS) 80 3.6.2.2 ALONG TRACK
(SPOT HRV) 81 3.7 HUBBLE: THE BIG TELESCOPE 82 3.7.1 THE HUBBLE
SATELLITE 82 CONTENTS VII 3.7.2 THE REPAIR MISSIONS 84 3.7.3 OPERATING
CONSTRAINTS 86 3.7.3.1 SOUTH ATLANTIC ANOMALY 86 3.7.3.2 SPACECRAFT
POSITION IN ORBIT 86 3.7.4 THE TELESCOPE ITSELF 86 3.7.5 DETECTORS*WIDE
FIELD AND PLANETARY CAMERA 2 88 3.7.5.1 EXAMPLE: DIFFRACTION AND
RESOLUTION LIMITS 90 3.7.5.1.1 RAYLEIGH CRITERIA 90 3.7.5.1.2 GEOMETRIC
RESOLUTION 92 3.8 COMMERCIAL REMOTE SENSING*IKONOS AND QUICKBIRD 92
3.8.1 IKONOS 95 3.8.1.1 IMAGING SENSORS AND ELECTRONICS FOR THE IKONOS
SATELLITE 95 3.8.1.1.1 CAMERA TELESCOPE 95 3.8.1.1.2 IMAGING SENSORS &
ELECTRONICS 96 3.8.2 NOB WITH IKONOS: SEVERODVINSK 97 3.9 DMSP: VISIBLE
SENSOR, EARTH AT NIGHT 98 3.10 EXPOSURE TIMES 99 3.11 PROBLEMS 101
CHAPTER 4 ORBITAL MECHANICS INTERLUDE 103 4.1 GRAVITATIONAL FORCE 103
4.2 CIRCULAR MOTION 104 4.2.1 EQUATIONS OF MOTION 104 4.2.1.1 EXAMPLE: A
CAR IS GOING AROUND IN A CIRCLE OF 200 M RADIUS AT 3 6 KM/HR. WHAT IS
CO? 104 4.2.1.2 EXAMPLE: A SATELLITE IS GOING AROUND THE EARTH ONCE
EVERY 90 MINUTES. WHAT IS CO? 105 4.2.2 CENTRIPETAL FORCE 105 4.3
SATELLITE MOTION 105 4.4 KEPLER'S LAWS 106 4.4.1 ELLIPTICAL ORBITS 106
4.4.2 EQUAL AREAS SWEPT OUT IN EQUAL TIMES 107 4.4.3 ORBITAL PERIOD: X 2
~ P 3 108 4.5 ORBITAL ELEMENTS 108 4.5.1 SEMI-MAJOR AXIS: A 108 4.5.2
ECCENTRICITY: E OR E 108 4.5.3 INCLINATION ANGLE: / 108 4.5.4 RIGHT
ASCENSION OF THE ASCENDING NODE: Q 109 4.5.5 CLOSEST POINT OF APPROACH
(ARGUMENT OF PERIGEE): CO 109 4.6 A FEW STANDARD ORBITS 109 4.6.1 LOW
EARTH ORBIT (LEO) 110 4.6.2 MEDIUM EARTH ORBIT (MEO) 111 4.6.3
GEOSYNCHRONOUS ORBIT (GEO) 111 CONTENTS 4.7 CHAPTER 5 5.1 5.2 5.3 5.4
5.5 5.6 5.7 CHAPTER 6 6.1 6.2 4.6.4 MOLMYA ORBIT (HEO) 4.6.5 SUMMARY
TABLE*ILLUSTRATIONS PROBLEMS EO * SPECTRAL IMAGERY REFLECTANCE OF
MATERIALS HUMAN VISUAL RESPONSE LANDSAT 5.3.1 ORBIT 5.3.2 SENSOR:
THEMATIC MAPPER 5.3.2.1 OPTICS 5.3.2.2 FOCAL PLANES 5.3.2.2.1 PRIME
FOCAL PLANE 5.3.2.2.2 COLD FOCAL PLANE 5.3.2.2.3 SPECTRAL RESPONSE
5.3.2.3 SPATIAL RESOLUTION*SWATH 5.3.2.4 DYNAMIC RANGE 5.3.2.5 DATA
LINKS SYSTEME PROBATOIRE D 'OBSERVATION DE LA TERRE (SPOT) 5.4.1 HRV
SENSOR, PAN/SPECTRAL*BOTH 60-KM SWATH 5.4.1.1 IMAGING MODES*SPATIAL AND
SPECTRAL RESOLUTION SPECTRAL RESPONSES FOR THE COMMERCIAL SYSTEMS
IMAGING SPECTROSCOPY 5.6.1 AVIRIS 5.6.2 HYPERION 5.6.3 MIGHTYSAT
II*FTHSI PROBLEMS , IMAGE ANALYSIS INTERPRETATION KEYS (ELEMENTS OF
RECOGNITION) 6.1.1 SHAPE 6.1.2 SIZE 6.1.3 SHADOW 6.1.4 HEIGHT (DEPTH)
6.1.5 TONE OR COLOR 6.1.6 TEXTURE 6.1.7 PATTERN 6.1.8 ASSOCIATION 6.1.9
SITE 6.1.10 TIME IMAGE PROCESSING 6.2.1 DIGITAL NUMBERS: PIXELS AND
PICTURES, HISTOGRAMS 6.2.2 DVNAMIC RANEE*SNOW AND BLACK CATS 113 114 115
117 117 118 120 121 122 122 124 124 125 125 126 127 127 128 130 130 131
132 132 133 135 136 137 137 137 138 138 138 138 139 139 140 140 140 140
142 143 CONTENTS 6.3 6.4 6.5 6.6 CHAPTER 7 7.1 6.2.3 FILTERS 6.2.3.1
SMOOTHING 6.2.3.2 EDGE DETECTION HISTOGRAMS AND TARGET DETECTION
HISTOGRAMS, SPECTRAL DATA, AND TRANSFORMS SUPPLEMENTAL NOTES ON
STATISTICS PROBLEMS THERMAL INFRARED IR BASICS 146 146 146 147 149 153
156 157 157 7.1.1 BLACKBODY RADIATION 157 7.1.2 WIEN'S DISPLACEMENT LAW
, 158 7.1.3 STEFAN-BOLTZMANN LAW T 4 158 7.1.4 EMISSIVITY 159 7.1.5
ATMOSPHERIC ABSORPTION 159 7.2 IR CONCEPTS 159 7.2.1 KINETIC TEMPERATURE
159 7.2.2 THERMAL INERTIA, CONDUCTIVITY, CAPACITY, DIFFUSIVITY 160
7.2.2.1 HEAT CAPACITY (SPECIFIC HEAT) 160 7.2.2.2 THERMAL CONDUCTIVITY
161 7.2.2.3 THERMAL INERTIA 161 7.2.2.4 THERMAL DIFFUSIVITY 161 7.2.2.5
DIURNAL TEMPERATURE VARIATION 162 7.3 LANDSAT 163 7.4 EARLY WEATHER
SATELLITES 165 7.4.1 TIROS 166 7.4.2 NIMBUS 166 7.5 GOES 167 7.5.1
SATELLITE AND SENSOR 167 7.5.2 WEATHER AND STORMS*HURRICANE MITCH 169=
7.5.3 VOLCANOES AND ASH CLOUDS 170 7.5.4 SHUTTLE LAUNCH: VAPOR TRAIL,
ROCKET 171 7.6 DEFENSE SUPPORT PROGRAM*DSP 172 7.7 SEBASS*THERMAL
SPECTRAL 175 7.7.1 HARD TARGETS 175 7.7.2 GAS MEASUREMENTS: KILAUEA*PU
'U 'O 'O VENT 176 7.8 PROBLEMS 178 179 179 179 179 182 183 CHAPTER 8 8.1
8.2 RADAR IMAGING RADAR THEORY 8.2.1 IMAGING RADAR BASICS 8.2.2 RADAR
RANGE RESOLUTION 8.2.2.1 SIGNAL SHAPE CONTENTS 8.3 8.4 8.5 8.6 8.7 8.8
CHAPTER 9 9.1 9.2 9.3 APPENDIX 1 AL.L 8.2.3 RADAR AZIMUTHAL RESOLUTION
8.2.4 BEAM PATTERN AND RESOLUTION SYNTHETIC-APERTURE RADAR RADAR CROSS
SECTION (A) 8.4.1 DIELECTRIC COEFFICIENT: SOIL MOISTURE 8.4.2 ROUGHNESS
8.4.3 TETRAHEDRONS/CORNER REFLECTORS POLARIZATION WAVELENGTH VEHICLES
8.7.1 SHUTTLE IMAGING RADAR (SIR) 8.7.1.1 SOIL PENETRATION 8.7.1.2 OIL
SLICKS AND INTERNAL WAVES 8.7.2 RADARSAT: SHIP DETECTION 8.7.3 EUROPEAN
RADAR SATELLITES: ERS-1, ERS-2 8.7.3.1 SHIP WAKES 8.7.3.2 MULTI-TEMPORAL
IMAGES: ROME 8.7.3.3 SPAIN*MOROCCO*STRAIT OF GIBRALTAR 8.7.4 SANDIA
KU-BAND AIRBORNE RADAR PROBLEMS RADAR AND LIDAR RADAR INTERFEROMETRY
9.1.1 TOPOGRAPHIC MAPPING 9.1.2 THE SHUTTLE RADAR TOPOGRAPHIC MAPPING
(SRTM) MISSION 9.1.2.1 MISSION DESIGN 9.1.2.2 MISSION RESULTS: LEVEL-2
TERRAIN-HEIGHT DATASETS (DIGITAL TOPOGRAPHIC MAPS) LIDAR 9.2.1
INTRODUCTION 9.2.2 OPTECH: AIRBORNE LASER TERRAIN MAPPER (ALTM) 9.2.3
BATHYMETRY EXERCISE DERIVATIONS DERIVATION OF THE BOHR ATOM 185 186 188
191 192 194 194 195 196 197 197 199 200 201 202 203 204 204 206 208 211
211 211 214 215 217 219 219 220 222 224 225 225 ASSUMPTION 1: THE ATOM
IS HELD TOGETHER BY THE COULOMB FORCE 225 ASSUMPTION 2: THE ELECTRON
MOVES IN AN ELLIPTICAL ORBIT AROUND THE NUCLEUS (AS IN PLANETARY
MOTION). 226 ASSUMPTION 3: QUANTIZED ANGULAR MOMENTUM 226 ASSUMPTION 4:
RADIATION IS EMITTED ONLY FROM TRANSITIONS BETWEEN THE DISCRETE ENERGY
LEVELS 228 CONTENTS XI A 1.2 DIELECTRIC THEORY 229 AL .3 DERIVATION OF
THE BEAM PATTERN FOR A SQUARE APERTURE 230 APPENDIX 2 CORONA 233 A2.1
MISSION OVERVIEW 233 A2.2 CAMERA DATA 234 A2.3 MISSION SUMMARY 235 A2.4
ORBITS*AN EXAMPLE 242 APPENDIX 3 TRACKING AND DATA RELAY SATELLITE
SYSTEM 243 A3.1 RELAY SATELLITES*TDRSS 243 A3.2 WHITE SANDS 244 A3.3
TDRS 1 TO 7 245 A3.3.1 SATELLITES 245 A3.3.2PAYLOAD 246 A3.4 TDRSH 247
A3.4.1 TDRS H, I, AND J PAYLOAD CHARACTERISTICS 247 A3.4.1.1 S-BAND
MULTIPLE ACCESS 248 A3.4.1.2 SINGLE-ACCESS (SA) ANTENNA (2) 248 A3.4.1.3
SPACE-GROUND-LINK ANTENNA (KU BAND) 248 APPENDIX 4 USEFUL EQUATIONS AND
CONSTANTS 249 EM WAVES 249 BOHR-ATOM 249 BLACKBODY RADIATION 249
REFLECTION AND REFRACTION 250 OPTICS 250 ORBITAL MECHANICS AND CIRCULAR
MOTION 250 INDEX 251 |
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| discipline | Bauingenieurwesen Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Bauingenieurwesen Elektrotechnik / Elektronik / Nachrichtentechnik |
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| id | DE-604.BV022445179 |
| illustrated | Not Illustrated |
| index_date | 2024-07-02T17:34:10Z |
| indexdate | 2024-07-09T20:57:45Z |
| institution | BVB |
| isbn | 0819462357 |
| language | English |
| lccn | 006051183 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015653163 |
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| physical | XIV, 255 S. |
| publishDate | 2007 |
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| publisher | SPIE Press |
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| spelling | Olsen, Richard C. Verfasser aut Remote sensing from air and space R. C. Olsen Bellingham, Wash. SPIE Press 2007 XIV, 255 S. txt rdacontent n rdamedia nc rdacarrier SPIE PM 162 Includes bibliographical references and index This book will guide you in the use of remote sensing for military and intelligence gathering applications. It is a must read for students working on systems acquisition or for anyone interested in the products derived from remote sensing systems. Télédétection Remote sensing Fernerkundung (DE-588)4016796-3 gnd rswk-swf Fernerkundung (DE-588)4016796-3 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015653163&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Olsen, Richard C. Remote sensing from air and space Télédétection Remote sensing Fernerkundung (DE-588)4016796-3 gnd |
| subject_GND | (DE-588)4016796-3 |
| title | Remote sensing from air and space |
| title_auth | Remote sensing from air and space |
| title_exact_search | Remote sensing from air and space |
| title_exact_search_txtP | Remote sensing from air and space |
| title_full | Remote sensing from air and space R. C. Olsen |
| title_fullStr | Remote sensing from air and space R. C. Olsen |
| title_full_unstemmed | Remote sensing from air and space R. C. Olsen |
| title_short | Remote sensing from air and space |
| title_sort | remote sensing from air and space |
| topic | Télédétection Remote sensing Fernerkundung (DE-588)4016796-3 gnd |
| topic_facet | Télédétection Remote sensing Fernerkundung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015653163&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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