Verfügbarkeit: Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions

Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions:

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Bibliographische Detailangaben
1. Verfasser:	Mielke, Christian (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Potsdam 2015
Schlagworte:	Prospektion Satellitenfernerkundung Abraumhalde Hyperspektraler Sensor Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	140 Blätter Illustrationen, Diagramme, Karten

Internformat

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ABSTRACT......................................... ZUSAMMENFASSUNG ....................... 1. INTRODUCTION..................... 1.1 MINERAL EXPLORATION .... 1.2 MINE WASTE MONITORING 1.3 SCIENTIFIC OBJECTIVES................................................................................................ 11 1.4 THESIS OUTLINE........................................................................................................... 11 1.5 CHARACTERISTIC ABSORPTION BANDS............................................................................. 13 1.6 EXPERT SYSTEMS IN IMAGING SPECTROSCOPY............................................................... 15 1.7 GEOLOGICAL MODELS FOR MINE WASTE MONITORING AND EXPLORATION .......................... 15 1.8 SPACEBOME MULTISPECTRAL AND HYPERSPECTRAL SENSORS ............................................ 17 2. SPACEBOME MINE WASTE MINERALOGY MONITORING IN SOUTH AFRICA, APPLICATIONS FOR MODERN PUSH-BROOM MISSIONS: HYPERION/OLI AND ENMAP/SENTINEL-2 ....... 19 2.1 INTRODUCTION............................................................................................................... 21 2.2 STUDY AREA................................................................................................................. 22 2.2.1 GEOLOGICAL BACKGROUND............................................................................ 23 2.2.2 PLATINUM TAILINGS NEAR RUSTENBURG.......................................................... 24 2.2.3 GOLD TAILINGS NEAR STILFONTEIN.................................................................. 25 2.3 FIELDWORK.................................................................................................................. 25 2.4 METHODOLOGY............................................................................................................ 26 2.4.1 PREPORCESSING OF MULTISPECTRAL SPACEBOME DATA .................................... 26 2.4.2 PREPROCESSING OF HYPERSPECTRAL SPACEBOME DATA ................................... 28 2.4.3 LINKING MULTISPECTRAL AND HYPERSPECTRAL DATA THROUGH LABORATORY WORK........................................................................................................ 29 2.5 RESULTS AND DISCUSSION............................................................................................. 33 2.5.1 RESULTS FROM MULTISPECTRAL AND HYPERSPECTRAL SPACEBOME DATA ............ 34 2.5.2 IRON FEATURE DEPTH IN THE TAILINGS ENVIRONMENT ..................................... 38 2.5.3 MULTI-TEMPORAL ANALYSIS.......................................................................... 40 2.6 CONCLUSION AND OUTLOOK........................................................................................... 41 2.7 ACKNOWLEDGEMENTS................................................................................................... 42 2.8 AUTHORS CONTRIBUTIONS............................................................................................... 43 2.9 REFERENCES.................................................................................................................. 43 2.10 SUPPLEMENTS............................................................................................................ 48 2.10.81 TABLE OF THE SHOULDER POSITIONS OF IRON BEARING MINERALS .................. 49 2.10.82 FIELD SAMPLING SCHEME........................................................................ 50 2.10.83 PROCESSING WORKFLOW............................................................................ 51 2.10.84 IRON FEATURE DEPTH OF USGS DIGITAL SPECTRAL LIBRARY ENTRIES ............ 52 2.10.85 FIELD DATA RESAMPLED TO ENMAP/SENTINEL-2 AND HYPERION/OLI ....... 53 3. NEW GEOMETRIC HULL CONTINUUM REMOVAL ALGORITHM FOR AUTOMATIC ABSORPTION BAND DETECTION FROM SPECTROSCOPIC DATA............................................. 55 3.1 INTRODUCTION................................................................................................................ 57 3.2 METHODOLOGY.............................................................................................................. 57 3.2.1 MODIFIED SCALE-SPACE FILTERING................................................................. 58 3.2.2 SCALE-SPACE FILTERING AND ALPHA HULLS..................................................... 58 3.2.3 GEOMETRIC HULL.......................................................................................... 58 3.3 RESULTS AND DISCUSSION .............................................................................................. 59 3.3.1 KEY FACTORS FOR THE DEFINITION OF CHARACTERISTIC FEATURES ....................... 59 3.3.2 COMPARING THE PERFORMANCE OF THE HULL ALGORITHMS FOR FEATURE DEFINITION AND ISOLATION........................................................................... 60 3.3.3 FACTORS INFLUENCING AUTOMATIC ABSORPTION BAND DETECTION .................... 61 3.3.4 OVERALL EVALUATION OF THE PROPOSED GEOMETRIC HULL TECHNIQUE .............. 62 3.4 CONCLUSION AND OUTLOOK........................................................................................... 62 VO VO 00 **4 O N 3.5 ACKNOWLEDGEMENTS.................................................................................................... 63 3.6 REFERENCES.................................................................................................................. 63 4. ENGEOMAP 2.0 -AUTOMATED HYPERSPECTRAL MINERAL IDENTIFICATION FOR THE GERMAN ENMAP SPACE MISSION................................................................................ 65 4.1 INTRODUCTION................................................................................................................ 67 4.2 STUDY SITES.................................................................................................................. 68 4.2.1 THE RODALQUILAR MINERAL DEPOSITS......................................................... 68 4.2.2 THE HAIB RIVER PORPHYRY COPPER-MOLYBDENUM DEPOSIT ..................... 69 4.3 METHODOLOGY.............................................................................................................. 70 4.3.2 FIELDWORK................................................................................................. 70 4.3.2 DATA PREPROCESSING................................................................................. 71 4.3.3 AUTOMATED IDENTIFICATION OF CHARACTERISTIC ABSORPTION BANDS ............. 71 4.3.4 MINERAL IDENTIFICATION AND CHARACTERIZATION........................................... 72 4.3.4.1 CONTINUUM REMOVAL FOR ABSORPTION BAND RETRIEVAL ................. 73 4.3.4.2 USER INDEPENDENT SNR THRESHOLDING.......................................... 74 4.3.4.3 WEIGHTED FITTING.......................................................................... 74 4.3.5 CALCULATION OF SPATIO-SPECTRAL GRADIENTS............................................... 76 4.3.6 AUTOMATED RETRIEVAL OF POTENTIAL EXPLORATION ANOMALIES .................... 76 4.4 RESULTS AND DISCUSSION ........................................................................................... 77 4.4.1 RODALQUILAR............................................................................................. 77 4.4.1.1 RESULTS FROM SIMULATED ENMAP DATA ........................................ 77 4.4.1.2 RESULTS FROM HYPERION DATA........................................................ 79 4.4.2 HAIB RIVER.............................................................................................. 80 4.4.2.1 RESULTS FROM SIMULATED ENMAP DATA......................................... 80 4.4.2.2 RESULTS FROM HYPERION DATA........................................................ 82 4.4.3 VALIDATION AND PERFORMANCE OF ENGEOMAP 2.0 FOR ENMAP AND HYPERION.............................................................................................. 82 4.4.4 AUTOMATED DELINEATION OF EXPLORATION ANOMALIES ............................... 85 4.4.4.1 RODALQUILAR................................................................................... 85 4.4.4.2 HAIB RIVER.................................................................................... 86 4.5 CONCLUSION AND OUTLOOK......................................................................................... 86 4.6 ACKNOWLEDGEMENTS................................................................................................. 87 4.7 AUTHORS CONTRIBUTIONS............................................................................................. 87 4.8 REFERENCES AND NOTES.............................................................................................. 88 4.9 SUPPLEMENTS............................................................................................................ 92 4.9.81 ENGEOMAP 2.0 RESULTS FROM HYMAP DATA OF RODALQUILAR .............. 92 4.9.82 ENGEOMAP 2.0 RESULTS FROM HYPERION DATA OF RODALQUILAR ............. 93 4.9.83 ENGEOMAP 2.0 RESULTS FROM HYMAP DATA OF HAIB RIVER ............... 95 5. RESULTS AND DISCUSSION................................................................................................ 96 5.1 MULTISPECTRAL AND HYPERSPECTRAL SPACEBOME DATA IN ENVIRONMENTAL MAPPING AND MONITORING...................................................................................................... 97 5.2 AUTOMATED MINERAL MAPPING ALGORITHMS FOR SPACEBOME HYPERSPECTRAL DATA.... 98 5.3 PERFORMANCE EVALUATION OF ENMAP AND HYPERION FOR MINERAL MAPPING ............. 101 5.4 CONCLUSIONS.............................................................................................................. 103 5.5 RECOMMENDATIONS FOR FUTURE EARTH OBSERVATION MISSIONS IN GEOSCIENCE ........... 103 5.6 ACKNOWLEDGEMENTS................................................................................................ 104 6. REFERENCES..................................................................................................................... 104 7. APPENDIX....................................................................................................................... 108 7.1. POTENTIAL APPLICATIONS OF THE SENTINEL-2 MULTISPECTRAL SENSOR AND THE ENMAP HYPERSPECTRAL SENSOR IN MINERAL EXPLORATION ................................... 109 7.1.1 INTRODUCTION.................................................................................................... I L L 7.1.2 METHODS.......................................................................................................... I L L 7.1.3 RESULTS............................................................................................................. 114 7.1.4 CONCLUSIONS.................................................................................................... 118 7.1.5 ACKNOWLEDGEMENTS........................................................................................ 119 7.1.6 REFERENCES....................................................................................................... 119 7.2. MULTI- AND HYPERSPECTRAL SPACEBORNE REMOTE SENSING OF THE AGGENEYS BASE METAL SULPHIDE MINERAL DEPOSIT SITES IN THE LOWER ORANGE RIVER REGION, SOUTH AFRICA.................................................................................................................. 121 7.2.1 INTRODUCTION.................................................................................................... 123 7.2.2 REGIONAL GEOLOGICAL SETTING........................................................................... 123 7.2.3 METHODS........................................................................................................... 124 7.2.3.1 CHARACTERISTIC ABSORPTION FEATURES.................................................... 125 1.2.3.2 MULTISPECTRAL DATA AND THE IFD......................................................... 126 7.2.3.3 EXPERT SYSTEMS IN IMAGING SPECTROSCOPY......................................... 128 7.2.4 RESULTS............................................................................................................ 129 7.2.5 FIELDWORK AND VERIFICATION............................................................................ 132 7.2.6 DISCUSSION....................................................................................................... 135 7.2.7 CONCLUSION AND OUTLOOK ................................................................................. 137 7.2.8 ACKNOWLEDGEMENTS........................................................................................ 138 7.2.9 REFERENCES....................................................................................................... 138
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spellingShingle	Mielke, Christian Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions Prospektion (DE-588)4047505-0 gnd Satellitenfernerkundung (DE-588)4224344-0 gnd Abraumhalde (DE-588)4272750-9 gnd Hyperspektraler Sensor (DE-588)1078791082 gnd
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title	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions
title_auth	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions
title_exact_search	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions
title_full	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions von Christian Mielke
title_fullStr	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions von Christian Mielke
title_full_unstemmed	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions von Christian Mielke
title_short	Multi- and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization, new applications to the EnMAP and Sentinel-2 missions
title_sort	multi and hyperspectral spaceborne remote sensing for mine waste and mineral deposit characterization new applications to the enmap and sentinel 2 missions
topic	Prospektion (DE-588)4047505-0 gnd Satellitenfernerkundung (DE-588)4224344-0 gnd Abraumhalde (DE-588)4272750-9 gnd Hyperspektraler Sensor (DE-588)1078791082 gnd
topic_facet	Prospektion Satellitenfernerkundung Abraumhalde Hyperspektraler Sensor Hochschulschrift
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