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On November 20, 2020 at 6:25:23 AM UTC, Administrator:

Changed title to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland) (previously Intercomparison of photogrammetric platforms for spatially continuous snow depth mapping)

Set maintainer of Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland) to {"affiliation": "WSL Institute for Snow and Avalanche Research SLF", "email": "lucie.eberhard@slf.ch", "given_name": "Lucie A.", "identifier": "200021_172800", "name": "Eberhard"} (previously {"affiliation": "SLF", "email": "lucie.eberhard@slf.ch", "given_name": "Lucie A.", "identifier": "", "name": "Eberhard"})

Set author of Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland) to [{"affiliation": "WSL Institute for Snow and Avalanche Research SLF", "affiliation_02": "Institute of Geodesy and Photogrammetry, ETH Zurich", "affiliation_03": "", "data_credit": ["collection", "validation", "curation", "publication"], "email": "lucie.eberhard@slf.ch", "given_name": "Lucie A.", "identifier": "200021_172800", "name": "Eberhard"}, {"affiliation": "WSL Institute for Snow and Avalanche Research SLF", "affiliation_02": "", "affiliation_03": "", "data_credit": ["collection", "validation", "curation", "publication", "supervision"], "email": "buehler@slf.ch", "given_name": "Yves", "identifier": "0000-0002-0815-2717", "name": "B\u00fchler"}, {"affiliation": "WSL", "affiliation_02": "", "affiliation_03": "", "data_credit": ["validation", "curation"], "email": "mauro.marty@wsl.ch", "given_name": "Mauro", "identifier": "0000-0002-0943-2454", "name": "Marty"}, {"affiliation": "National School of Surveying, University of Otago", "affiliation_02": "", "affiliation_03": "", "data_credit": ["validation", "curation"], "email": " pascal.sirguey@otago.ac.nz", "given_name": "Pascal", "identifier": "0000-0003-2612-8347", "name": "Sirguey"}] (previously [{"affiliation": "SLF", "affiliation_02": "ETH", "affiliation_03": "", "data_credit": ["collection", "validation", "curation", "publication"], "email": "lucie.eberhard@slf.ch", "given_name": "Lucie A.", "identifier": "", "name": "Eberhard"}])

Updated description of Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland) from
Snow depth has traditionally been estimated based on point measurements collected either manually or at automated 10 weather stations. Point measurements, though, do not represent the high spatial variability of snow depths present in alpine terrain. Photogrammetric mapping techniques have progressed in recent years and are capable of accurately maping snow depth in a spatially continuous manner, over larger areas, and at various spatial resolutions. However, the strengths and weaknesses associated with specific platforms and photogrammetric techniques, as well as the accuracy of the photogrammetric performance on snow surfaces have not yet been sufficiently investigated. Therefore, industry-standard 15 photogrammetric platforms, including high-resolution satellites (Pléiades), airplane (Ultracam Eagle M3), Unmanned Aerial System (eBee+ with S.O.D.A. camera) and terrestrial (single lens reflex camera, Canon EOS 750D), were tested for snow depth mapping in the alpine Dischma valley (Switzerland) in spring 2018. Imagery was acquired with airborne and space-borne platforms over the entire valley, while Unmanned Aerial Systems (UAS) and terrestrial photogrammetric imagery was acquired over a subset of the valley. For independent validation of the photogrammetric products, snow depth was measured 20 by probing, as well as using remote observations of fixed snow poles.
to
This data set contains the produced snow depth maps as well as the reference data set (manual and snow pole measurements) from our paper "Intercomparison of photogrammetric platforms for spatially continuous snow depth mapping". __Abstract.__ Snow depth has traditionally been estimated based on point measurements collected either manually or at automated weather stations. Point measurements, though, do not represent the high spatial variability of snow depths present in alpine terrain. Photogrammetric mapping techniques have progressed in recent years and are capable of accurately mapping snow depth in a spatially continuous manner, over larger areas, and at various spatial resolutions. However, the strengths and weaknesses associated with specific platforms and photogrammetric techniques, as well as the accuracy of the photogrammetric performance on snow surfaces have not yet been sufficiently investigated. Therefore, industry-standard photogrammetric platforms, including high-resolution satellites (Pléiades), airplane (Ultracam Eagle M3), Unmanned Aerial System (eBee+ with S.O.D.A. camera) and terrestrial (single lens reflex camera, Canon EOS 750D), were tested for snow depth mapping in the alpine Dischma valley (Switzerland) in spring 2018. Imagery was acquired with airborne and space-borne platforms over the entire valley, while Unmanned Aerial Systems (UAS) and terrestrial photogrammetric imagery was acquired over a subset of the valley. For independent validation of the photogrammetric products, snow depth was measured by probing, as well as using remote observations of fixed snow poles. When comparing snow depth maps with manual and snow pole measurements the root mean square error (RMSE) values and the normalized median deviation (NMAD) values were 0.52 m and 0.47 m respectively for the satellite snow depth map, 0.17 m and 0.17 m for the airplane snow depth map, 0.16 m and 0.11 m for the UAS snow depth map. The area covered by the terrestrial snow depth map only intersected with 4 manual measurements and did not generate statistically relevant measurements. When using the UAS snow depth map as a reference surface, the RMSE and NMAD values were 0.44 m and 0.38 m for the satellite snow depth map, 0.12 m and 0.11 m for the airplane snow depth map, 0.21 and 0.19 m for the terrestrial snow depth map. When compared to the airplane dataset over a large part of the Dischma valley (40 km2), the snow depth map from the satellite yielded a RMSE value of 0.92 m and a NMAD value of 0.65 m. This study provides comparative measurements between photogrammetric platforms to evaluate their specific advantages and disadvantages for operational, spatially continuous snow depth mapping in alpine terrain over both small and large geographic areas.

Changed the license of Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland) to WSL Data Policy (previously ODbL with Database Contents License (DbCL))

Changed value of field related_publications to Eberhard, L. A., Sirguey, P., Miller, A., Marty, M., Schindler, K., Stoffel, A., and Bühler, Y.: Intercomparison of photogrammetric platforms for spatially continuous snow depth mapping, The Cryosphere Discuss., https://doi.org/10.5194/tc-2020-93, accepted, 2020. in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Changed value of field date to [{"date": "2018-04-06", "date_type": "collected", "end_date": "2018-04-11"}] in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Changed value of field funding to [{"grant_number": "200021_172800", "institution": "Swiss National Science Foundation (SNF)", "institution_url": ""}, {"grant_number": "IZSEZ0_185651", "institution": "Swiss National Science Foundation (SNF)", "institution_url": ""}, {"grant_number": "UOOX1914", "institution": "MBIE Endeavour Smart Idea research project", "institution_url": ""}, {"grant_number": "ORG-0118-0319", "institution": "University of Otago Research grant “Glaciers in the picture”", "institution_url": ""}, {"grant_number": "GNS-DCF00043", "institution": "GNS research grant “Topographic 25 mapping of Franz Josef glacier “", "institution_url": ""}] in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Changed value of field publication_state to approved in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Added resource Snow depth map terrestrial (Canon EOS 750D), Schürlialp, Davos, Switzerland to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Added resource Snow depth map satellite (Pléiades), Schürlialp, Davos, Switzerland to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Added resource Snow depth map UAS (eBee+), Schürlialp, Davos, Switzerland to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Added resource Snow depth map airplane (Ultracam Eagle M3), Dischma valley, Davos, Switzerland to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Added resource Snow depth map airplane (Ultracam Eagle M3), Schürilalp, Davos, Switzerland to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Added resource Manual and snow pole measurements, Schürlialp, Davos, Switzerland to Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Renamed resource /dataset/a41c5b83-a803-4527-b6f9-4d365ef84228/resource/e33b05cc-077b-4ad8-8449-095d4c6d2761?activity_id=625f128f-e80b-4a35-909e-db7db86f17cf to Snow depth map satellite (Pléiades), Dischma valley, Davos, Switzerland in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Updated description of resource Snow depth map satellite (Pléiades), Dischma valley, Davos, Switzerland in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland) to
Resolution: 2 m Coordinate system: LV95 LHN95 © CNES 2018, Distribution Airbus DS

Uploaded a new file to resource Snow depth map satellite (Pléiades), Dischma valley, Davos, Switzerland in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

Changed value of field url_type to upload in resource Snow depth map satellite (Pléiades), Dischma valley, Davos, Switzerland in Photogrammetric snow depth maps from satellite-, airplane-, UAS and terrestrial platforms from the Davos region (Switzerland)

              
    
          
          
        
        
            f 1 { f 1 {
            n 2   "author": "[{\"affiliation\": \"SLF\", \"affiliation_02\": \"ETH\",  n 2   "author": "[{\"affiliation\": \"WSL Institute for Snow and Avalanche 
            3 Research SLF\", \"affiliation_02\": \"Institute of Geodesy and 
            4 Photogrammetry, ETH Zurich\", \"affiliation_03\": \"\", 
            5 \"data_credit\": [\"collection\", \"validation\", \"curation\", 
            6 \"publication\"], \"email\": \"lucie.eberhard@slf.ch\", 
            7 \"given_name\": \"Lucie A.\", \"identifier\": \"200021_172800\", 
            8 \"name\": \"Eberhard\"}, {\"affiliation\": \"WSL Institute for Snow 
            9 and Avalanche Research SLF\", \"affiliation_02\": \"\", 
            3 \"affiliation_03\": \"\", \"data_credit\": [\"collection\",  10 \"affiliation_03\": \"\", \"data_credit\": [\"collection\", 
            n 4 \"validation\", \"curation\", \"publication\"], \"email\":  n 11 \"validation\", \"curation\", \"publication\", \"supervision\"], 
            5 \"lucie.eberhard@slf.ch\", \"given_name\": \"Lucie A.\",  12 \"email\": \"buehler@slf.ch\", \"given_name\": \"Yves\", 
            6 \"identifier\": \"\", \"name\": \"Eberhard\"}]", 13 \"identifier\": \"0000-0002-0815-2717\", \"name\": \"B\\u00fchler\"}, 
            14 {\"affiliation\": \"WSL\", \"affiliation_02\": \"\", 
            15 \"affiliation_03\": \"\", \"data_credit\": [\"validation\", 
            16 \"curation\"], \"email\": \"mauro.marty@wsl.ch\", \"given_name\": 
            17 \"Mauro\", \"identifier\": \"0000-0002-0943-2454\", \"name\": 
            18 \"Marty\"}, {\"affiliation\": \"National School of Surveying, 
            19 University of Otago\", \"affiliation_02\": \"\", \"affiliation_03\": 
            20 \"\", \"data_credit\": [\"validation\", \"curation\"], \"email\": \" 
            21 pascal.sirguey@otago.ac.nz\", \"given_name\": \"Pascal\", 
            22 \"identifier\": \"0000-0003-2612-8347\", \"name\": \"Sirguey\"}]",
            7   "author_email": null, 23   "author_email": null,
            8   "creator_user_id": "c66f3f87-ad37-4c39-be16-5977313953df", 24   "creator_user_id": "c66f3f87-ad37-4c39-be16-5977313953df",
            n 9   "date": "[{\"date\": \"2018-04-07\", \"date_type\": \"collected\",  n 25   "date": "[{\"date\": \"2018-04-06\", \"date_type\": \"collected\", 
            10 \"end_date\": \"\"}]", 26 \"end_date\": \"2018-04-11\"}]",
            11   "doi": "10.16904/envidat.189", 27   "doi": "10.16904/envidat.189",
            n 12   "funding": "[{\"grant_number\": \"\", \"institution\": \"SNF\",  n 28   "funding": "[{\"grant_number\": \"200021_172800\", \"institution\": 
            13 \"institution_url\": \"\"}]", 29 \"Swiss National Science Foundation (SNF)\", \"institution_url\": 
            30 \"\"}, {\"grant_number\": \"IZSEZ0_185651\", \"institution\": \"Swiss 
            31 National Science Foundation (SNF)\", \"institution_url\": \"\"}, 
            32 {\"grant_number\": \"UOOX1914\", \"institution\": \"MBIE Endeavour 
            33 Smart Idea research project\", \"institution_url\": \"\"}, 
            34 {\"grant_number\": \"ORG-0118-0319\", \"institution\": \"University of 
            35 Otago Research grant \u201cGlaciers in the picture\u201d\", 
            36 \"institution_url\": \"\"}, {\"grant_number\": \"GNS-DCF00043\", 
            37 \"institution\": \"GNS research grant \u201cTopographic 25 mapping of 
            38 Franz Josef glacier \u201c\", \"institution_url\": \"\"}]",
            14   "groups": [], 39   "groups": [],
            15   "id": "a41c5b83-a803-4527-b6f9-4d365ef84228", 40   "id": "a41c5b83-a803-4527-b6f9-4d365ef84228",
            n 16   "isopen": true, n 41   "isopen": false,
            17   "language": "en", 42   "language": "en",
            n 18   "license_id": "odc-odbl", n 43   "license_id": "wsl-data",
            19   "license_title": "ODbL with Database Contents License (DbCL)", 44   "license_title": "WSL Data Policy",
            20   "license_url": "https://opendefinition.org/licenses/odc-odbl", 45   "license_url": 
            21   "maintainer": "{\"affiliation\": \"SLF\", \"email\":  46 ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html",
            22 \"lucie.eberhard@slf.ch\", \"given_name\": \"Lucie A.\",  47   "maintainer": "{\"affiliation\": \"WSL Institute for Snow and 
            23 \"identifier\": \"\", \"name\": \"Eberhard\"}", 48 Avalanche Research SLF\", \"email\": \"lucie.eberhard@slf.ch\", 
            49 \"given_name\": \"Lucie A.\", \"identifier\": \"200021_172800\", 
            50 \"name\": \"Eberhard\"}",
            24   "maintainer_email": null, 51   "maintainer_email": null,
            25   "metadata_created": "2020-11-11T09:35:16.232747", 52   "metadata_created": "2020-11-11T09:35:16.232747",
            n 26   "metadata_modified": "2020-11-11T09:42:27.114171", n 53   "metadata_modified": "2020-11-20T06:25:23.319507",
            27   "name": "intercomparison-of-photogrammetric-platforms", 54   "name": "intercomparison-of-photogrammetric-platforms",
            n n 55   "notes": "This data set contains the produced snow depth maps as 
            56 well as the reference data set (manual and snow pole measurements) 
            57 from our paper \"Intercomparison of photogrammetric platforms for 
            58 spatially continuous snow depth mapping\".\r\n\r\n__Abstract.__ Snow 
            28   "notes": "Snow depth has traditionally been estimated based on point  59 depth has traditionally been estimated based on point measurements 
            29 measurements collected either manually or at automated 10 weather  60 collected either manually or at automated weather stations. Point 
            30 stations. Point measurements, though, do not represent the high  61 measurements, though, do not represent the high spatial variability of 
            31 spatial variability of snow depths present in alpine terrain.  62 snow depths present in alpine terrain. Photogrammetric mapping 
            32 Photogrammetric mapping techniques have progressed in recent years and  63 techniques have progressed in recent years and are capable of 
            33 are capable of accurately maping snow depth in a spatially continuous  64 accurately mapping snow depth in a spatially continuous manner, over 
            34 manner, over larger areas, and at various spatial resolutions.  65 larger areas, and at various spatial resolutions. However, the 
            35 However, the strengths and weaknesses associated with specific  66 strengths and weaknesses associated with specific platforms and 
            36 platforms and photogrammetric techniques, as well as the accuracy of  67 photogrammetric techniques, as well as the accuracy of the 
            37 the photogrammetric performance on snow surfaces have not yet been  68 photogrammetric performance on snow surfaces have not yet been 
            38 sufficiently investigated. Therefore, industry-standard 15  69 sufficiently investigated. Therefore, industry-standard 
            39 photogrammetric platforms, including high-resolution satellites  70 photogrammetric platforms, including high-resolution satellites 
            40 (Pl\u00e9iades), airplane (Ultracam Eagle M3), Unmanned Aerial System  71 (Pl\u00e9iades), airplane (Ultracam Eagle M3), Unmanned Aerial System 
            41 (eBee+ with S.O.D.A. camera) and terrestrial (single lens reflex  72 (eBee+ with S.O.D.A. camera) and terrestrial (single lens reflex 
            42 camera, Canon EOS 750D), were tested for snow depth mapping in the  73 camera, Canon EOS 750D), were tested for snow depth mapping in the 
            43 alpine Dischma valley (Switzerland) in spring 2018. Imagery was  74 alpine Dischma valley (Switzerland) in spring 2018. Imagery was 
            44 acquired with airborne and space-borne platforms over the entire  75 acquired with airborne and space-borne platforms over the entire 
            45 valley, while Unmanned Aerial Systems (UAS) and terrestrial  76 valley, while Unmanned Aerial Systems (UAS) and terrestrial 
            46 photogrammetric imagery was acquired over a subset of the valley. For  77 photogrammetric imagery was acquired over a subset of the valley. For 
            47 independent validation of the photogrammetric products, snow depth was  78 independent validation of the photogrammetric products, snow depth was 
            n 48 measured 20 by probing, as well as using remote observations of fixed  n 79 measured by probing, as well as using remote observations of fixed 
            49 snow poles.", 80 snow poles.\r\n\r\nWhen comparing snow depth maps with manual and snow 
            81 pole measurements the root mean square error (RMSE) values and the 
            82 normalized median deviation (NMAD) values were 0.52 m and 0.47 m 
            83 respectively for the satellite snow depth map, 0.17 m and 0.17 m for 
            84 the airplane snow depth map, 0.16 m and 0.11 m for the UAS snow depth 
            85 map. The area covered by the terrestrial snow depth map only 
            86 intersected with 4 manual measurements and did not generate 
            87 statistically relevant measurements. When using the UAS snow depth map 
            88 as a reference surface, the RMSE and NMAD values were 0.44 m and 0.38 
            89 m for the satellite snow depth map, 0.12 m and 0.11 m for the airplane 
            90 snow depth map, 0.21 and 0.19 m for the terrestrial snow depth map. 
            91 When compared to the airplane dataset over a large part of the Dischma 
            92 valley (40 km2), the snow depth map from the satellite yielded a RMSE 
            93 value of 0.92 m and a NMAD value of 0.65 m. This study provides 
            94 comparative measurements between photogrammetric platforms to evaluate 
            95 their specific advantages and disadvantages for operational, spatially 
            96 continuous snow depth mapping in alpine terrain over both small and 
            97 large geographic areas.",
            50   "num_resources": 1, 98   "num_resources": 7,
            51   "num_tags": 7, 99   "num_tags": 7,
            52   "organization": { 100   "organization": {
            53     "approval_status": "approved", 101     "approval_status": "approved",
            54     "created": "2016-05-24T16:15:21.861195", 102     "created": "2016-05-24T16:15:21.861195",
            55     "description": "The WSL Institute for Snow and Avalanche Research  103     "description": "The WSL Institute for Snow and Avalanche Research 
            56 SLF is an interdisciplinary research and service centre located in  104 SLF is an interdisciplinary research and service centre located in 
            57 Davos Dorf. It forms part of the WSL \u2013 the Swiss Federal  105 Davos Dorf. It forms part of the WSL \u2013 the Swiss Federal 
            58 Institute for Forest, Snow and Landscape Research \u2013 and thus  106 Institute for Forest, Snow and Landscape Research \u2013 and thus 
            59 belongs to the domain of the ETH (Swiss Federal Institutes of  107 belongs to the domain of the ETH (Swiss Federal Institutes of 
            60 Technology). Its scientists conduct research on snow, the atmosphere,  108 Technology). Its scientists conduct research on snow, the atmosphere, 
            61 natural hazards, permafrost and mountain ecological systems, and  109 natural hazards, permafrost and mountain ecological systems, and 
            62 develop innovative products that translate their knowledge into  110 develop innovative products that translate their knowledge into 
            63 practical applications. The SLF seeks to engage in top-level research  111 practical applications. The SLF seeks to engage in top-level research 
            64 while contributing to the resolution of urgent societal issues, for  112 while contributing to the resolution of urgent societal issues, for 
            65 example in the fields of natural hazard warning systems and the  113 example in the fields of natural hazard warning systems and the 
            66 analysis of climate and environmental change. \r\n\r\n__Further  114 analysis of climate and environmental change. \r\n\r\n__Further 
            67 information__: https://www.slf.ch", 115 information__: https://www.slf.ch",
            68     "id": "a17b145f-2191-4c21-aabf-55661d5cb140", 116     "id": "a17b145f-2191-4c21-aabf-55661d5cb140",
            69     "image_url": "2016-05-24-141521.837240logoslf.png", 117     "image_url": "2016-05-24-141521.837240logoslf.png",
            70     "is_organization": true, 118     "is_organization": true,
            71     "name": "slf", 119     "name": "slf",
            72     "state": "active", 120     "state": "active",
            73     "title": "SLF", 121     "title": "SLF",
            74     "type": "organization" 122     "type": "organization"
            75   }, 123   },
            76   "owner_org": "a17b145f-2191-4c21-aabf-55661d5cb140", 124   "owner_org": "a17b145f-2191-4c21-aabf-55661d5cb140",
            77   "private": false, 125   "private": false,
            78   "publication": "{\"publication_year\": \"2020\", \"publisher\":  126   "publication": "{\"publication_year\": \"2020\", \"publisher\": 
            79 \"EnviDat\"}", 127 \"EnviDat\"}",
            n 80   "publication_state": "pub_pending", n 128   "publication_state": "approved",
            81   "related_datasets": "", 129   "related_datasets": "",
            n 82   "related_publications": "", n 130   "related_publications": "Eberhard, L. A., Sirguey, P., Miller, A., 
            131 Marty, M., Schindler, K., Stoffel, A., and B\u00fchler, Y.: 
            132 Intercomparison of photogrammetric platforms for spatially continuous 
            133 snow depth mapping, The Cryosphere Discuss., 
            134 https://doi.org/10.5194/tc-2020-93, accepted, 2020. ",
            83   "relationships_as_object": [], 135   "relationships_as_object": [],
            84   "relationships_as_subject": [], 136   "relationships_as_subject": [],
            85   "resource_type": "dataset", 137   "resource_type": "dataset",
            86   "resource_type_general": "dataset", 138   "resource_type_general": "dataset",
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            174   "url": null, 407   "url": null,
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