Analysis of refraction influences in geodesy using image processing and turbulence models:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Zürich
Inst. für Geodäsie und Photogrammetrie
2001
|
| Schriftenreihe: | Geodätisch-geophysikalische Arbeiten in der Schweiz
63 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Zsfassung in dt. Sprache. -Literaturverz. S. 165 - 175 |
| Beschreibung: | V, 175 S. Ill., graph. Darst. |
| ISBN: | 390844005X |
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Datensatz im Suchindex
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| adam_text | GEODATISCH-GEOPHYSIKALISCHE ARBEITEN IN DER SCHWEIZ (FORTSETZUNG DER
PUBLIKATIONSREIHE ASTRONOMISCH-GEODATISCHE ARBEITEN IN DER SCHWEIZ»)
HERAUSGEGEBEN VON DER SCHWEIZERISCHEN GEODATISCHEN KOMMISSION (ORGAN DER
SCHWEIZERISCHEN AKADEMIE DER NATURWISSENSCHAFTEN) DREIUNDSECHZIGSTER
BAND ANALYSIS OF REFRACTION INFLUENCES VOLUME 63 IN GEODESY USING IMAGE
PROCESSING AND TURBULENCE MODELS SUB GSTTINGEN 7 215 093 550 2002 B 3822
PHILIPP FLACH 2001 ILL CONTENTS 1 INTRODUCTION 1 1.1 CORRECTION METHODS
1 1.2 PREVIOUS RESEARCH WORK ON TURBULENCE MODELS AND REFRACTION 2 1.3
NEW DEVELOPMENTS AND CONCEPTS OF THE PRESENTED RESEARCH WORK 3 2 WAVE
PROPAGATION IN REFRACTIVE MEDIA. 6 2.1 REFRACTIVE INDEX 6 2.2 REFRACTION
INFLUENCE ON PROPAGATION PATH. 7 2.3 REFRACTION ANGLE 11 2.4 ENERGY
FLUXES CAUSING REFRACTIVE INDEX GRADIENTS IN THE ATMOSPHERE. 13 2.4.1
ENERGY BALANCE AND STRATIFICATION 13 2.4.2 SENSIBLE HEAT FLUX AND
TEMPERATURE GRADIENT 14 2.5 RELEVANCE OF REFRACTION INFLUENCES FOR
GEODETIC APPLICATIONS 16 2.5.1 REFRACTION INFLUENCES IN THE CONTEXT OF
OTHER THERMAL INFLUENCES 16 2.5.2 PRECISE LEVELLING 16 2.5.3 VERTICAL
ANGLE MEASUREMENTS 18 2.6 CONCLUSIONS 20 3 ATMOSPHERIC TURBULENCE MODEL
21 3.1 INTRODUCTION 21 3.2 ENERGY SPECTRUM 23 3.2.1 ENERGY DENSITY
FUNCTION OF TURBULENT KINETIC ENERGY 23 3.2.2 VISCOUS SUBRANGE AND
DISSIPATION RATE 26 3.2.3 INERTIAL SUBRANGE 26 3.2.4 ENERGY INPUT RANGE
28 3.2.5 STATIONARITY OF ENERGY SPECTRUM 28 3.2.6 INNER SCALE 28 3.2.7
STRUCTURE CONSTANTS OF VELOCITY AND TEMPERATURE 30 3.3 MONIN-OBUKHOV
SIMILARITY 31 3.3.1 SCALING PARAMETERS 31 3.3.2 DIMENSIONLESS PROFILE
FUNCTIONS FOR STRUCTURE PARAMETERS AND TEMPERATURE 34 3.4 CALCULATION OF
REFRACTION ANGLE USING MONIN-OBUKHOV SIMILARITY. 35 3.5 FOOTPRINT
CONSIDERATIONS 37 3.6 CONCLUSIONS 39 4 OPTICAL TURBULENCE. 41 4.1
PHENOMENA OF OPTICAL TURBULENCE 41 4.2 MODELLING OPTICAL TURBULENCE 43
4.2.1 REFRACTIVE INDEX SPECTRUM 43 4.2.2 LIGHT PROPAGATION IN TURBULENT
MEDIA 45 IV 4.3 ANGLE-OF-ARRIVAL FLUCTUATIONS FOR DETERMINATION OF C N2
48 4.3.1 PHENOMENON 48 4.3.2 MODELLING 49 4.4 INTENSITY FLUCTUATIONS FOR
DETERMINATION OF INNER SCALE 52 4.4.1 PHENOMENA 52 4.4.2 MODELLING 52
4.5 ANALYSIS OF ACCURACY 56 4.5.1 RANDOM DEVIATIONS 56 4.5.2 SYSTEMATIC
DEVIATIONS 57 4.6 CONCLUSIONS 61 5 MEASURING SYSTEMS 63 5.1 INTRODUCTION
63 5.2 IMAGING SYSTEMS 64 5.2.1 CCD SENSORS 64 5.2.2 CRITERIA FOR THE
IMAGING SYSTEMS 65 5.2.3 VIDEO THEODOLITE 65 5.2.4 LINE SCAN CAMERA 66
5.3 REFERENCE MEASURING SYSTEMS 71 5.3.1 SCINTILLOMETER 71 5.3.2
TEMPERATURE GRADIENT MEASURING SYSTEM 73 5.4 CALIBRATION OF IMAGE
SENSORS 74 5.4.1 VIDEO THEODOLITE 75 5.4.2 LINE SCAN CAMERA 77 5.4.3
RADIOMETRIC CALIBRATION 78 5.5 TARGET 79 5.5.1 REFLECTORS 79 5.5.2 CODED
LEVELLING STAFFS 81 5.6 DATA RECORDING 83 6 IMAGE PROCESSING 85 6.1
INTRODUCTION 85 6.2 SPECTRAL ANALYSIS 86 6.2.1 INTRODUCTION 86 6.2.2
STOCHASTIC MODEL FOR THE IMAGE SIGNAL. 87 6.2.3 ESTIMATION OF POWER
SPECTRAL DENSITY 88 6.2.4 OUTLOOK: WAVELET TRANSFORMATION 91 6.3 WIENER
FILTER FOR DETERMINATION OF INTENSITY FLUCTUATION 94 6.3.1 INTRODUCTION
94 6.3.2 NONCAUSAL WIENER FILTER 96 6.3.3 MODEL OF THE POWER SPECTRAL
DENSITY USED FOR THE WIENER FILTER 98 6.3.4 IMPLEMENTATION USING
ADAPTIVE WIENER FILTER 100 6.3.5 CONCLUSIONS AND OUTLOOK 104 6.4 EDGE
DETECTION FOR DETERMINATION OF ANGLE-OF-ARRIVAL FLUCTUATION 105 6.4.1
INTRODUCTION 105 6.4.2 EDGE OPERATORS 107 V 6.4.3 COMPARISON AND
EVALUATION 113 6.4.4 IMPLEMENTATION OF LEAST SQUARES TEMPLATE MATCHING
(LSM) 115 6.4.5 IMPLEMENTATION OF CANNY OPERATOR 118 6.4.6 ACCURACY OF
EDGE DETECTION 124 6.4.7 CONCLUSIONS 125 7 MEASUREMENTS AND RESULTS 127
7.1 VIDEO THEODOLITE 127 7.1.1 FIELD EXPERIMENT 127 7.1.2 RESULTS AND
CONCLUSIONS 129 7.2 LINE SCAN CAMERA 133 7.2.1 FIELD EXPERIMENT 133
7.2.2 RESULTS AND CONCLUSIONS 137 7.3 TEMPERATURE MEASUREMENTS 143 7.4
TEMPERATURE GRADIENT PROFILE 147 7.5 ACCURACY OF TEMPERATURE GRADIENT
AND REFRACTION ANGLE 148 7.5.1 DERIVATION 148 7.5.2 CONCLUSIONS 150 8
CONCLUSIONS AND OUTLOOK 152 8.1 DETERMINATION OF C N2 152 8.2 INNER
SCALE 153 8.3 FIELD EXPERIMENTS 154 8.4 DISTURBING INFLUENCES ON IMAGING
SYSTEMS 155 8.5 OUTLOOK 155 APPENDIX A: FRACTALS 157 APPENDIX B: LIST OF
SYMBOLS 161 REFERENCES 165
|
| adam_txt |
GEODATISCH-GEOPHYSIKALISCHE ARBEITEN IN DER SCHWEIZ (FORTSETZUNG DER
PUBLIKATIONSREIHE ASTRONOMISCH-GEODATISCHE ARBEITEN IN DER SCHWEIZ»)
HERAUSGEGEBEN VON DER SCHWEIZERISCHEN GEODATISCHEN KOMMISSION (ORGAN DER
SCHWEIZERISCHEN AKADEMIE DER NATURWISSENSCHAFTEN) DREIUNDSECHZIGSTER
BAND ANALYSIS OF REFRACTION INFLUENCES VOLUME 63 IN GEODESY USING IMAGE
PROCESSING AND TURBULENCE MODELS SUB GSTTINGEN 7 215 093 550 2002 B 3822
PHILIPP FLACH 2001 ILL CONTENTS 1 INTRODUCTION 1 1.1 CORRECTION METHODS
1 1.2 PREVIOUS RESEARCH WORK ON TURBULENCE MODELS AND REFRACTION 2 1.3
NEW DEVELOPMENTS AND CONCEPTS OF THE PRESENTED RESEARCH WORK 3 2 WAVE
PROPAGATION IN REFRACTIVE MEDIA. 6 2.1 REFRACTIVE INDEX 6 2.2 REFRACTION
INFLUENCE ON PROPAGATION PATH. 7 2.3 REFRACTION ANGLE 11 2.4 ENERGY
FLUXES CAUSING REFRACTIVE INDEX GRADIENTS IN THE ATMOSPHERE. 13 2.4.1
ENERGY BALANCE AND STRATIFICATION 13 2.4.2 SENSIBLE HEAT FLUX AND
TEMPERATURE GRADIENT 14 2.5 RELEVANCE OF REFRACTION INFLUENCES FOR
GEODETIC APPLICATIONS 16 2.5.1 REFRACTION INFLUENCES IN THE CONTEXT OF
OTHER THERMAL INFLUENCES 16 2.5.2 PRECISE LEVELLING 16 2.5.3 VERTICAL
ANGLE MEASUREMENTS 18 2.6 CONCLUSIONS 20 3 ATMOSPHERIC TURBULENCE MODEL
21 3.1 INTRODUCTION 21 3.2 ENERGY SPECTRUM 23 3.2.1 ENERGY DENSITY
FUNCTION OF TURBULENT KINETIC ENERGY 23 3.2.2 VISCOUS SUBRANGE AND
DISSIPATION RATE 26 3.2.3 INERTIAL SUBRANGE 26 3.2.4 ENERGY INPUT RANGE
28 3.2.5 STATIONARITY OF ENERGY SPECTRUM 28 3.2.6 INNER SCALE 28 3.2.7
STRUCTURE CONSTANTS OF VELOCITY AND TEMPERATURE 30 3.3 MONIN-OBUKHOV
SIMILARITY 31 3.3.1 SCALING PARAMETERS 31 3.3.2 DIMENSIONLESS PROFILE
FUNCTIONS FOR STRUCTURE PARAMETERS AND TEMPERATURE 34 3.4 CALCULATION OF
REFRACTION ANGLE USING MONIN-OBUKHOV SIMILARITY. 35 3.5 FOOTPRINT
CONSIDERATIONS 37 3.6 CONCLUSIONS 39 4 OPTICAL TURBULENCE. 41 4.1
PHENOMENA OF OPTICAL TURBULENCE 41 4.2 MODELLING OPTICAL TURBULENCE 43
4.2.1 REFRACTIVE INDEX SPECTRUM 43 4.2.2 LIGHT PROPAGATION IN TURBULENT
MEDIA 45 IV 4.3 ANGLE-OF-ARRIVAL FLUCTUATIONS FOR DETERMINATION OF C N2
48 4.3.1 PHENOMENON 48 4.3.2 MODELLING 49 4.4 INTENSITY FLUCTUATIONS FOR
DETERMINATION OF INNER SCALE 52 4.4.1 PHENOMENA 52 4.4.2 MODELLING 52
4.5 ANALYSIS OF ACCURACY 56 4.5.1 RANDOM DEVIATIONS 56 4.5.2 SYSTEMATIC
DEVIATIONS 57 4.6 CONCLUSIONS 61 5 MEASURING SYSTEMS 63 5.1 INTRODUCTION
63 5.2 IMAGING SYSTEMS 64 5.2.1 CCD SENSORS 64 5.2.2 CRITERIA FOR THE
IMAGING SYSTEMS 65 5.2.3 VIDEO THEODOLITE 65 5.2.4 LINE SCAN CAMERA 66
5.3 REFERENCE MEASURING SYSTEMS 71 5.3.1 SCINTILLOMETER 71 5.3.2
TEMPERATURE GRADIENT MEASURING SYSTEM 73 5.4 CALIBRATION OF IMAGE
SENSORS 74 5.4.1 VIDEO THEODOLITE 75 5.4.2 LINE SCAN CAMERA 77 5.4.3
RADIOMETRIC CALIBRATION 78 5.5 TARGET 79 5.5.1 REFLECTORS 79 5.5.2 CODED
LEVELLING STAFFS 81 5.6 DATA RECORDING 83 6 IMAGE PROCESSING 85 6.1
INTRODUCTION 85 6.2 SPECTRAL ANALYSIS 86 6.2.1 INTRODUCTION 86 6.2.2
STOCHASTIC MODEL FOR THE IMAGE SIGNAL. 87 6.2.3 ESTIMATION OF POWER
SPECTRAL DENSITY 88 6.2.4 OUTLOOK: WAVELET TRANSFORMATION 91 6.3 WIENER
FILTER FOR DETERMINATION OF INTENSITY FLUCTUATION 94 6.3.1 INTRODUCTION
94 6.3.2 NONCAUSAL WIENER FILTER 96 6.3.3 MODEL OF THE POWER SPECTRAL
DENSITY USED FOR THE WIENER FILTER 98 6.3.4 IMPLEMENTATION USING
ADAPTIVE WIENER FILTER 100 6.3.5 CONCLUSIONS AND OUTLOOK 104 6.4 EDGE
DETECTION FOR DETERMINATION OF ANGLE-OF-ARRIVAL FLUCTUATION 105 6.4.1
INTRODUCTION 105 6.4.2 EDGE OPERATORS 107 V 6.4.3 COMPARISON AND
EVALUATION 113 6.4.4 IMPLEMENTATION OF LEAST SQUARES TEMPLATE MATCHING
(LSM) 115 6.4.5 IMPLEMENTATION OF CANNY OPERATOR 118 6.4.6 ACCURACY OF
EDGE DETECTION 124 6.4.7 CONCLUSIONS 125 7 MEASUREMENTS AND RESULTS 127
7.1 VIDEO THEODOLITE 127 7.1.1 FIELD EXPERIMENT 127 7.1.2 RESULTS AND
CONCLUSIONS 129 7.2 LINE SCAN CAMERA 133 7.2.1 FIELD EXPERIMENT 133
7.2.2 RESULTS AND CONCLUSIONS 137 7.3 TEMPERATURE MEASUREMENTS 143 7.4
TEMPERATURE GRADIENT PROFILE 147 7.5 ACCURACY OF TEMPERATURE GRADIENT
AND REFRACTION ANGLE 148 7.5.1 DERIVATION 148 7.5.2 CONCLUSIONS 150 8
CONCLUSIONS AND OUTLOOK 152 8.1 DETERMINATION OF C N2 152 8.2 INNER
SCALE 153 8.3 FIELD EXPERIMENTS 154 8.4 DISTURBING INFLUENCES ON IMAGING
SYSTEMS 155 8.5 OUTLOOK 155 APPENDIX A: FRACTALS 157 APPENDIX B: LIST OF
SYMBOLS 161 REFERENCES 165 |
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| index_date | 2024-07-02T16:18:24Z |
| indexdate | 2024-07-09T20:51:29Z |
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| isbn | 390844005X |
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| spelling | Flach, Philipp Verfasser aut Analysis of refraction influences in geodesy using image processing and turbulence models Philipp Flach Zürich Inst. für Geodäsie und Photogrammetrie 2001 V, 175 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Geodätisch-geophysikalische Arbeiten in der Schweiz 63 Zsfassung in dt. Sprache. -Literaturverz. S. 165 - 175 Lichtbrechung (DE-588)4195918-8 gnd rswk-swf Korrektur (DE-588)4205358-4 gnd rswk-swf Geodätisches Instrument (DE-588)4020207-0 gnd rswk-swf Claro (DE-588)4636571-0 gnd rswk-swf 1\p (DE-588)4113937-9 Hochschulschrift gnd-content Claro (DE-588)4636571-0 g DE-604 Geodätisches Instrument (DE-588)4020207-0 s Lichtbrechung (DE-588)4195918-8 s Korrektur (DE-588)4205358-4 s Geodätisch-geophysikalische Arbeiten in der Schweiz 63 (DE-604)BV001895327 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015369145&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Flach, Philipp Analysis of refraction influences in geodesy using image processing and turbulence models Geodätisch-geophysikalische Arbeiten in der Schweiz Lichtbrechung (DE-588)4195918-8 gnd Korrektur (DE-588)4205358-4 gnd Geodätisches Instrument (DE-588)4020207-0 gnd |
| subject_GND | (DE-588)4195918-8 (DE-588)4205358-4 (DE-588)4020207-0 (DE-588)4636571-0 (DE-588)4113937-9 |
| title | Analysis of refraction influences in geodesy using image processing and turbulence models |
| title_auth | Analysis of refraction influences in geodesy using image processing and turbulence models |
| title_exact_search | Analysis of refraction influences in geodesy using image processing and turbulence models |
| title_exact_search_txtP | Analysis of refraction influences in geodesy using image processing and turbulence models |
| title_full | Analysis of refraction influences in geodesy using image processing and turbulence models Philipp Flach |
| title_fullStr | Analysis of refraction influences in geodesy using image processing and turbulence models Philipp Flach |
| title_full_unstemmed | Analysis of refraction influences in geodesy using image processing and turbulence models Philipp Flach |
| title_short | Analysis of refraction influences in geodesy using image processing and turbulence models |
| title_sort | analysis of refraction influences in geodesy using image processing and turbulence models |
| topic | Lichtbrechung (DE-588)4195918-8 gnd Korrektur (DE-588)4205358-4 gnd Geodätisches Instrument (DE-588)4020207-0 gnd |
| topic_facet | Lichtbrechung Korrektur Geodätisches Instrument Claro Hochschulschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015369145&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV001895327 |
| work_keys_str_mv | AT flachphilipp analysisofrefractioninfluencesingeodesyusingimageprocessingandturbulencemodels |