Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic
Remote and extreme regions such as in the Arctic remain a challenging ground for geological mapping and mineral exploration. Coastal cliffs are often the only major well-exposed outcrops, but are mostly not observable by air/spaceborne nadir remote sensing sensors. Current outcrop mapping efforts re...
| Published in: | Remote Sensing |
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| Format: | Text |
| Language: | English |
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Multidisciplinary Digital Publishing Institute
2018
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| Online Access: | https://doi.org/10.3390/rs10020175 |
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ftmdpi:oai:mdpi.com:/2072-4292/10/2/175/ |
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ftmdpi:oai:mdpi.com:/2072-4292/10/2/175/ 2023-08-20T04:04:25+02:00 Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic Sara Salehi Sandra Lorenz Erik Vest Sørensen Robert Zimmermann Rasmus Fensholt Bjørn Henning Heincke Moritz Kirsch Richard Gloaguen agris 2018-01-26 application/pdf https://doi.org/10.3390/rs10020175 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/rs10020175 https://creativecommons.org/licenses/by/4.0/ Remote Sensing; Volume 10; Issue 2; Pages: 175 hyperspectral remote sensing digital outcrop models spectral mobile mapping scale invariant feature transform method multi-source data integration near-vertical topography Text 2018 ftmdpi https://doi.org/10.3390/rs10020175 2023-07-31T21:21:56Z Remote and extreme regions such as in the Arctic remain a challenging ground for geological mapping and mineral exploration. Coastal cliffs are often the only major well-exposed outcrops, but are mostly not observable by air/spaceborne nadir remote sensing sensors. Current outcrop mapping efforts rely on the interpretation of Terrestrial Laser Scanning and oblique photogrammetry, which have inadequate spectral resolution to allow for detection of subtle lithological differences. This study aims to integrate 3D-photogrammetry with vessel-based hyperspectral imaging to complement geological outcrop models with quantitative information regarding mineral variations and thus enables the differentiation of barren rocks from potential economic ore deposits. We propose an innovative workflow based on: (1) the correction of hyperspectral images by eliminating the distortion effects originating from the periodic movements of the vessel; (2) lithological mapping based on spectral information; and (3) accurate 3D integration of spectral products with photogrammetric terrain data. The method is tested using experimental data acquired from near-vertical cliff sections in two parts of Greenland, in Karrat (Central West) and Søndre Strømfjord (South West). Root-Mean-Square Error of (6.7, 8.4) pixels for Karrat and (3.9, 4.5) pixels for Søndre Strømfjord in X and Y directions demonstrate the geometric accuracy of final 3D products and allow a precise mapping of the targets identified using the hyperspectral data contents. This study highlights the potential of using other operational mobile platforms (e.g., unmanned systems) for regional mineral mapping based on horizontal viewing geometry and multi-source and multi-scale data fusion approaches. Text Arctic Greenland Søndre strømfjord MDPI Open Access Publishing Arctic Greenland Barren Rocks ENVELOPE(-130.553,-130.553,53.749,53.749) Remote Sensing 10 2 175 |
| institution |
Open Polar |
| collection |
MDPI Open Access Publishing |
| op_collection_id |
ftmdpi |
| language |
English |
| topic |
hyperspectral remote sensing digital outcrop models spectral mobile mapping scale invariant feature transform method multi-source data integration near-vertical topography |
| spellingShingle |
hyperspectral remote sensing digital outcrop models spectral mobile mapping scale invariant feature transform method multi-source data integration near-vertical topography Sara Salehi Sandra Lorenz Erik Vest Sørensen Robert Zimmermann Rasmus Fensholt Bjørn Henning Heincke Moritz Kirsch Richard Gloaguen Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic |
| topic_facet |
hyperspectral remote sensing digital outcrop models spectral mobile mapping scale invariant feature transform method multi-source data integration near-vertical topography |
| description |
Remote and extreme regions such as in the Arctic remain a challenging ground for geological mapping and mineral exploration. Coastal cliffs are often the only major well-exposed outcrops, but are mostly not observable by air/spaceborne nadir remote sensing sensors. Current outcrop mapping efforts rely on the interpretation of Terrestrial Laser Scanning and oblique photogrammetry, which have inadequate spectral resolution to allow for detection of subtle lithological differences. This study aims to integrate 3D-photogrammetry with vessel-based hyperspectral imaging to complement geological outcrop models with quantitative information regarding mineral variations and thus enables the differentiation of barren rocks from potential economic ore deposits. We propose an innovative workflow based on: (1) the correction of hyperspectral images by eliminating the distortion effects originating from the periodic movements of the vessel; (2) lithological mapping based on spectral information; and (3) accurate 3D integration of spectral products with photogrammetric terrain data. The method is tested using experimental data acquired from near-vertical cliff sections in two parts of Greenland, in Karrat (Central West) and Søndre Strømfjord (South West). Root-Mean-Square Error of (6.7, 8.4) pixels for Karrat and (3.9, 4.5) pixels for Søndre Strømfjord in X and Y directions demonstrate the geometric accuracy of final 3D products and allow a precise mapping of the targets identified using the hyperspectral data contents. This study highlights the potential of using other operational mobile platforms (e.g., unmanned systems) for regional mineral mapping based on horizontal viewing geometry and multi-source and multi-scale data fusion approaches. |
| format |
Text |
| author |
Sara Salehi Sandra Lorenz Erik Vest Sørensen Robert Zimmermann Rasmus Fensholt Bjørn Henning Heincke Moritz Kirsch Richard Gloaguen |
| author_facet |
Sara Salehi Sandra Lorenz Erik Vest Sørensen Robert Zimmermann Rasmus Fensholt Bjørn Henning Heincke Moritz Kirsch Richard Gloaguen |
| author_sort |
Sara Salehi |
| title |
Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic |
| title_short |
Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic |
| title_full |
Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic |
| title_fullStr |
Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic |
| title_full_unstemmed |
Integration of Vessel-Based Hyperspectral Scanning and 3D-Photogrammetry for Mobile Mapping of Steep Coastal Cliffs in the Arctic |
| title_sort |
integration of vessel-based hyperspectral scanning and 3d-photogrammetry for mobile mapping of steep coastal cliffs in the arctic |
| publisher |
Multidisciplinary Digital Publishing Institute |
| publishDate |
2018 |
| url |
https://doi.org/10.3390/rs10020175 |
| op_coverage |
agris |
| long_lat |
ENVELOPE(-130.553,-130.553,53.749,53.749) |
| geographic |
Arctic Greenland Barren Rocks |
| geographic_facet |
Arctic Greenland Barren Rocks |
| genre |
Arctic Greenland Søndre strømfjord |
| genre_facet |
Arctic Greenland Søndre strømfjord |
| op_source |
Remote Sensing; Volume 10; Issue 2; Pages: 175 |
| op_relation |
https://dx.doi.org/10.3390/rs10020175 |
| op_rights |
https://creativecommons.org/licenses/by/4.0/ |
| op_doi |
https://doi.org/10.3390/rs10020175 |
| container_title |
Remote Sensing |
| container_volume |
10 |
| container_issue |
2 |
| container_start_page |
175 |
| _version_ |
1774714798536130560 |