Terrestrial radiative transfer: modeling, computation, and data analysis
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | German |
| Veröffentlicht: |
Tokyo [u.a.]
Springer
1998
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XX, 279 S. graph. Darst. |
| ISBN: | 4431702067 |
Internformat
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| 245 | 1 | 0 | |a Terrestrial radiative transfer |b modeling, computation, and data analysis |c H. H. Natsuyama ; S. Ueno ; A. P. Wang |
| 264 | 1 | |a Tokyo [u.a.] |b Springer |c 1998 | |
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| 650 | 4 | |a Atmospheric radiation |x Mathematical models | |
| 650 | 4 | |a Meteorology |x Mathematical models | |
| 650 | 4 | |a Radiative transfer |x Mathematical models | |
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Datensatz im Suchindex
| _version_ | 1804126521453969408 |
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| adam_text | H.H. NATSUYAMA, S. UENO, A.P. WANG TERRESTRIAL RADIATIVETRANSFER
MODELING, COMPUTATION, AND DATA ANALYSIS WITH 72 FIGURES SPRINGER
TABLE OF CONTENTS 1. BASIC CONCEPTS 1 1.1 INTRODUCTION 1 1.2 INVARIANT
IMBEDDING AND A SIMPLE MODEL OF REFLECTION 2 1.3 COMPUTATION OF
REFLECTION FUNCTION 5 1.4 INTERNAL INTENSITY AND SOURCE FUNCTIONS 9
1.4.1 INTERNAL INTENSITY MODEL 9 1.4.2 SOURCE FUNCTION 10 1.5
PHYSICAL/MATHEMATICAL DESCRIPTIONS 11 1.6 INTENSITY OF RADIATION AND
SOURCE FUNCTION 14 1.7 DISCUSSION 16 REFERENCES 17 2. INHOMOGENEOUS
PLANE-PARALLEL ATMOSPHERES 19 2.1 INTRODUCTION 19 2.2 DIFFUSE REFLECTION
AND TRANSMISSION 20 2.2.1 THE PHYSICAL PROBLEM 20 2.2.2 INVARIANT
IMBEDDING 21 2.3 COMPUTATIONAL METHOD AND RESULTS 27 2.3.1
DISCRETIZATION BY GAUSSIAN QUADRATURE 27 2.3.2 NUMERICAL INTEGRATION OF
A SYSTEM OF DIFFERENTIAL EQUA- TIONS 28 2.3.3 COMPUTATIONAL PROCEDURE
FOR REFLECTION MATRIX 31 2.3.4 COMPUTATIONAL RESULTS 32 2.4 INTERNAL
INTENSITY AND SOURCE FUNCTIONS 37 2.4.1 BASIC CAUCHY PROBLEM 37 2.4.2
COMPUTATIONAL METHOD 44 2.4.3 COMPUTATIONAL RESULTS 46 2.5 INTERNAL
EMITTING SOURCES 49 2.5.1 EMERGENT INTENSITY 50 2.5.2 COMPUTATIONAL
RESULTS FOR EMERGENT INTENSITIES 52 2.5.3 SOURCE FUNCTION 54 2.5.4
INTERNAL INTENSITY FUNCTIONS 55 2.5.5 ANALYTICAL DERIVATION OF CAUCHY
PROBLEMS 57 2.6 REFLECTING SURFACES 57 XII TABLE OF CONTENTS 2.6.1
LAMBERT SURFACE REFLECTOR 57 2.6.2 COMPUTATIONAL METHOD AND RESULTS 58
2.6.3 SPECULAR REFLECTOR 59 2.6.4 EQUIVALENCE RELATIONSHIPS BETWEEN
CASES WITH REFLECT- ING AND ABSORBING SURFACES 61 2.6.5 DISCUSSION 62
2.7 OMNIDIRECTIONAL ILLUMINATION 63 2.7.1 INTRODUCTION 63 2.7.2 THE B
AND H FUNCTIONS 63 2.7.3 COMPUTATIONAL METHOD AND RESULTS 66 2.7.4
MONODIRECTIONAL ILLUMINATION 67 2.7.5 INTERNAL EMITTING SOURCES 68 2.8
DISCUSSION 69 REFERENCES 70 3. INVERSE PROBLEMS 73 3.1 INTRODUCTION 73
3.2 ASSOCIATIVE MEMORIES 74 3.2.1 ASSOCIATIVE MEMORY METHOD 75 3.2.2
COMPUTATIONAL PROCEDURE 76 3.2.3 COMPUTATIONAL EXPERIMENTS 76 3.2.4
ALBEDO ESTIMATION 77 3.2.5 ESTIMATION OF THICKNESS 79 3.2.6 ESTIMATION
OF THICKNESS WITH DIFFERENT TRAINING SETS ... 79 3.2.7 EXTRAPOLATION AND
INTERPOLATION IN ESTIMATION OF THICK- NESS 80 3.2.8 PERCENT ERROR IN
ESTIMATES OF THICKNESS 80 3.2.9 DISCUSSION 81 3.3 QUASILINEARIZATION 81
3.3.1 MODEL EQUATIONS 82 3.3.2 INVERSE PROBLEM 83 3.3.3
QUASILINEARIZATION PROBLEM 84 3.3.4 QUASILINEARIZATION THEORY 85 3.3.5
QUASILINEARIZATION METHOD 87 3.4 FEED AUTOMATIC DERIVATIVE EVALUATION 87
3.4.1 INTRODUCTION TO FEED 87 3.4.2 DESCRIPTION OF FEED BY AN EXAMPLE 88
3.4.3 REMARKS AND EXTENSIONS 90 3.5 INVERSE PROBLEMS FOR INHOMOGENEOUS
MEDIA AND EFFECT OF CRI- TERION ON ESTIMATES 91 3.5.1 INVERSE PROBLEMS
FOR LAYERED MEDIA 91 3.5.2 ESTIMATION OF OPTICAL THICKNESS 92 3.5.3
NUMERICAL RESULTS FOR ALBEDO OF A LAYERED MEDIUM .... 92 3.5.4 NUMERICAL
RESULTS FOR A PARABOLIC ALBEDO PROFILE 93 3.5.5 EFFECT OF OPTIMIZING
CRITERION 93 TABLE OF CONTENTS XIII 3.5.6 MONTE CARLO AND THE EFFECT OF
NOISE ON ESTIMATES 94 3.6 OTHER INVERSION TECHNIQUES 96 3.7 DISCUSSION
97 REFERENCES 98 4. ANISOTROPIC SCATTERING 99 4.1 INTRODUCTION 99 4.1.1
ONE-DIMENSIONAL REFLECTION FUNCTION 100 4.1.2 ONE-DIMENSIONAL
TRANSMISSION FUNCTION 101 4.2 PHASE FUNCTION DEPENDENT ON POLAR ANGLES
103 4.2.1 BASIC EQUATIONS 103 4.2.2 COMPUTATION 104 4.3 PHASE FUNCTION
EXPANDABLE IN LEGENDRE POLYNOMIALS 104 4.3.1 BASIC EQUATIONS 104 4.3.2
EXPANSION APPROXIMATION 105 4.3.3 COMPUTATION 106 4.4 ESTIMATION OF
PHASE FUNCTION 107 4.4.1 ESTIMATION PROBLEM 107 4.4.2 COMPUTATIONAL
RESULTS 108 4.5 FLUX EQUIVALENCES 110 4.5.1 INTRODUCTION 110 4.5.2
REFLECTED AND TRANSMITTED FLUXES WITH ISOTROPIC SCAT- TERING 110 4.5.3
REFLECTED AND TRANSMITTED FLUXES WITH RAYLEIGH SCAT- TERING IN A SLAB
ILL 4.5.4 APPROXIMATE FORMULAS ILL 4.5.5 COMPUTATIONAL RESULTS 112 4.6
THREE-DIMENSIONAL REFLECTION AND TRANSMISSION 115 4.6.1
THREE-DIMENSIONAL MEDIUM 115 4.6.2 REFLECTION FUNCTION 115 4.7
CONCLUDING REMARKS 116 REFERENCES 118 5. FINITE ORDERS OF SCATTERING 119
5.1 INTRODUCTION 119 5.2 SCATTERING AND TRANSMISSION FUNCTIONS OF FINITE
ORDER 121 5.2.1 FINITE ORDER SCATTERING FUNCTIONS 121 5.2.2 FINITE ORDER
TRANSMISSION FUNCTIONS 122 5.3 THE AUXILIARY EQUATION AND ITS SOLUTION
124 5.4 CUMULATIVE FUNCTIONS 127 5.5 DISCUSSION 132 REFERENCES 133 XIV
TABLE OF CONTENTS 6. SCATTERING MATRIX 135 6.1 INTRODUCTION 135 6.2 THE
SCATTERING MATRIX 136 6.3 THE HOMOGENEOUS MEDIUM 140 6.4 THE TRANSPORT
EQUATION 141 6.5 THE STAR-SEMI-GROUP 143 6.6 THE N TERMS SOLUTIONS 144
6.7 THE DISCRETE CASE 145 6.8 THE TIME-DEPENDENT CASE 147 6.9 CONCLUDING
REMARKS 153 REFERENCES 154 7. ATMOSPHERIC CORRECTION 155 7.1
INTRODUCTION 155 7.2 RADIATIVE PROCESSES IN THE ATMOSPHERE 156 7.2.1
DIFFUSE RADIANCE IN THE ATMOSPHERE 156 7.2.2 ATMOSPHERIC MODELS 158 7.3
ATMOSPHERIC CORRECTION FOR LANDSAT DATA 160 7.3.1 SINGLE-REFLECTION
APPROXIMATION 160 7.3.2 CORRECTION PROCEDURE (CONVOLUTION METHOD) 161
7.3.3 RESULTS AND DISCUSSION 162 7.4 ATMOSPHERIC CORRECTION FOR AIRCRAFT
DATA 162 7.4.1 EVALUATION OF THE INTERNAL RADIATION FIELD 162 7.4.2
RESULTS AND DISCUSSION 163 7.5 OUTLINE OF THE AECS SOFTWARE 164 7.6
GENERAL MODELS AND APPROXIMATIONS 166 7.6.1 GENERAL SOLUTION 167 7.6.2
APPROXIMATION METHODS 172 7.7 RESULTS AND DISCUSSION 175 REFERENCES 176
8. TOPOGRAPHIC EFFECTS IN TERRESTRIAL REMOTE SENSING 179 8.1
INTRODUCTION 179 8.2 FLAT TERRAIN 179 8.2.1 THREE-DIMENSIONAL MODEL 179
8.2.2 BIDIRECTIONAL REFLECTANCE 180 8.2.3 THREE-DIMENSIONAL SCATTERING
FUNCTION 181 8.3 RUGGED TERRAIN 181 8.3.1 MODEL OF RUGGED TERRAIN 181
8.3.2 TARGET GROUND ALBEDO 181 8.3.3 COMPUTATIONAL RESULTS 182 8.4 MODEL
RENDERING 182 8.4.1 INTRODUCTION 182 8.4.2 MODEL RENDERING INTEGRAL
EQUATION 183 8.4.3 APPROXIMATE SOLUTION 183 TABLE OF CONTENTS XV 8.5
TOPOGRAPHIE AND ATMOSPHERIC CORRECTION OF SATELLITE DATA .... 184 8.5.1
TOPOGRAPHIC CORRECTION 184 8.5.2 ESTIMATION OF GROUND ALBEDO 184 8.6
DISCUSSION 185 REFERENCES 186 9. SEARCHLIGHT PROBLEM 187 9.1
INTRODUCTION 187 9.2 BASIC EQUATIONS 188 9.3 EQUATION OF TRANSFER 189
9.4 ASYMPTOTIC SOLUTIONS 191 9.5 APPROXIMATIONS 193 9.6 NUMERICAL
SIMULATION 195 9.7 CONCLUSIONS 197 REFERENCES 198 10. TRANSFER OF
RADIATION WITH SPHERICAL SYMMETRY 199 10.1 INTRODUCTION 199 10.2
INTENSITY AND OPERATIONS 199 10.3 TRANSFER OF RADIATION 201 10.4
COEFFICIENTS OF THE MEDIUM 204 10.5 STATE AND LOCAL FORM 206 10.6 THE
REFLECTING CORE 208 10.7 SPECIAL CASES AND APPLICATIONS 211 10.7.1
EXTERNAL ILLUMINATION 212 10.7.2 INTERNAL ILLUMINATION 215 10.8
NUMERICAL SOLUTION OF FUNCTIONAL EQUATIONS FOR SPHERICAL GE- OMETRY 217
10.9 NUMERICAL ESTIMATION OF DERIVATIVES 218 10.10PERTURBATION
APPROXIMATION 219 LO.LLNUMERICAL RESULTS 221 10.12DISCUSSION 224
REFERENCES 226 11. BIBLIOGRAPHY 227 A. APPENDIX A THE PHYSICAL PROBLEM
OF RADIATIVE TRANSFER 235 A.L THE INTENSITY OF RADIATION 235 A.2 THE
ABSORPTION AND THE SCATTERING COEFFICIENTS 237 A.3 THE PHASE FUNCTION
238 A.4 THE EMISSION COEFFICIENT, THE MEAN INTENSITY AND THE SOURCE
FUNCTION 239 A.5 THE NET FLUX AND THE DENSITY OF RADIATION 241 A.6 THE
EQUATION OF TRANSFER 243 A.7 DISCUSSION 249 XVI TABLE OF CONTENTS
REFERENCES 250 B. APPENDIX * DERIVATION AND VALIDATION OF IMBEDDING
EQUATIONS 251 B.L INTRODUCTION 251 B.2 SOURCE FUNCTION 251 B.2.1
INTEGRAL EQUATION 251 B.2.2 DERIVATION OF THE INTEGRAL EQUATION 253
B.2.3 THE * FUNCTION 254 B.2.4 ANALYTICAL DERIVATION OF THE IMBEDDING
EQUATIONS 255 B.3 REFLECTED INTENSITIES 256 B.3.1 THE 5 FUNCTION 256
B.3.2 IMBEDDING EQUATIONS 257 B.4 INTERNAL INTENSITIES 257 B.4.1
INTRODUCTION 257 B.4.2 IMBEDDING EQUATIONS 258 B.4.3 DISCUSSION 258 B.5
THE FREDHOLM RESOLVENT 259 B.5.1 RESOLVENT FOR FREDHOLM INTEGRAL
EQUATIONS 259 B.5.2 RESOLVENT FOR RADIATIVE TRANSFER IN A HOMOGENEOUS
SLAB 259 B.5.3 INVARIANT IMBEDDING FOR THE RESOLVENT 261 B.6 DISCUSSION
261 REFERENCES 262 C. APPENDIX * GREENHOUSE EFFECT 263 C.L INTRODUCTION
263 C.2 INTEGRAL EQUATION FOR SOURCE FUNCTION 264 C.3 INVARIANT
IMBEDDING 264 C.4 COMPUTATIONAL METHOD 268 C.5 COMPUTATIONAL RESULTS 268
REFERENCES 270 D. APPENDIX D IDENTIFICATION OF AN ATMOSPHERIC MEDIUM 271
D.L INTRODUCTION 271 D.2 SCATTERING MATRIX FROM MATRIX OF MEDIUM
COEFFICIENTS M(Z) . 271 D.3 SCATTERING MATRIX FROM INPUTS AND OUTPUTS
273 D.4 RELATIONSHIP BETWEEN SCATTERING MATRICES 273 D.5 CONCLUSION 275
REFERENCES 276 INDEX
|
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| illustrated | Illustrated |
| indexdate | 2024-07-09T18:18:47Z |
| institution | BVB |
| isbn | 4431702067 |
| language | German |
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| physical | XX, 279 S. graph. Darst. |
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| publisher | Springer |
| record_format | marc |
| spelling | Natsuyama, Harriet H. Verfasser aut Terrestrial radiative transfer modeling, computation, and data analysis H. H. Natsuyama ; S. Ueno ; A. P. Wang Tokyo [u.a.] Springer 1998 XX, 279 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Atmosphère terrestre Transfert du rayonnement radiatif Télédétection Mathematisches Modell Atmospheric radiation Mathematical models Meteorology Mathematical models Radiative transfer Mathematical models Remote sensing Mathematical models Scattering (Physics) Mathematical models Strahlungstransport (DE-588)4183546-3 gnd rswk-swf Fernerkundung (DE-588)4016796-3 gnd rswk-swf Inhomogenes Medium (DE-588)4228459-4 gnd rswk-swf Atmosphäre (DE-588)4003397-1 gnd rswk-swf Geschichtetes Medium (DE-588)4232784-2 gnd rswk-swf Strahlungstransport (DE-588)4183546-3 s Inhomogenes Medium (DE-588)4228459-4 s Geschichtetes Medium (DE-588)4232784-2 s DE-604 Fernerkundung (DE-588)4016796-3 s Atmosphäre (DE-588)4003397-1 s Ueno, Sueo Verfasser aut Wang, Alan P. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008066856&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Natsuyama, Harriet H. Ueno, Sueo Wang, Alan P. Terrestrial radiative transfer modeling, computation, and data analysis Atmosphère terrestre Transfert du rayonnement radiatif Télédétection Mathematisches Modell Atmospheric radiation Mathematical models Meteorology Mathematical models Radiative transfer Mathematical models Remote sensing Mathematical models Scattering (Physics) Mathematical models Strahlungstransport (DE-588)4183546-3 gnd Fernerkundung (DE-588)4016796-3 gnd Inhomogenes Medium (DE-588)4228459-4 gnd Atmosphäre (DE-588)4003397-1 gnd Geschichtetes Medium (DE-588)4232784-2 gnd |
| subject_GND | (DE-588)4183546-3 (DE-588)4016796-3 (DE-588)4228459-4 (DE-588)4003397-1 (DE-588)4232784-2 |
| title | Terrestrial radiative transfer modeling, computation, and data analysis |
| title_auth | Terrestrial radiative transfer modeling, computation, and data analysis |
| title_exact_search | Terrestrial radiative transfer modeling, computation, and data analysis |
| title_full | Terrestrial radiative transfer modeling, computation, and data analysis H. H. Natsuyama ; S. Ueno ; A. P. Wang |
| title_fullStr | Terrestrial radiative transfer modeling, computation, and data analysis H. H. Natsuyama ; S. Ueno ; A. P. Wang |
| title_full_unstemmed | Terrestrial radiative transfer modeling, computation, and data analysis H. H. Natsuyama ; S. Ueno ; A. P. Wang |
| title_short | Terrestrial radiative transfer |
| title_sort | terrestrial radiative transfer modeling computation and data analysis |
| title_sub | modeling, computation, and data analysis |
| topic | Atmosphère terrestre Transfert du rayonnement radiatif Télédétection Mathematisches Modell Atmospheric radiation Mathematical models Meteorology Mathematical models Radiative transfer Mathematical models Remote sensing Mathematical models Scattering (Physics) Mathematical models Strahlungstransport (DE-588)4183546-3 gnd Fernerkundung (DE-588)4016796-3 gnd Inhomogenes Medium (DE-588)4228459-4 gnd Atmosphäre (DE-588)4003397-1 gnd Geschichtetes Medium (DE-588)4232784-2 gnd |
| topic_facet | Atmosphère terrestre Transfert du rayonnement radiatif Télédétection Mathematisches Modell Atmospheric radiation Mathematical models Meteorology Mathematical models Radiative transfer Mathematical models Remote sensing Mathematical models Scattering (Physics) Mathematical models Strahlungstransport Fernerkundung Inhomogenes Medium Atmosphäre Geschichtetes Medium |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008066856&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT natsuyamaharrieth terrestrialradiativetransfermodelingcomputationanddataanalysis AT uenosueo terrestrialradiativetransfermodelingcomputationanddataanalysis AT wangalanp terrestrialradiativetransfermodelingcomputationanddataanalysis |