Changes
On September 12, 2023 at 12:16:06 PM UTC,
Christian Ginzler:
-
Changed value of field
restricted
of resource 2019 Vegetation Height Model NFI (current) to{"allowed_users": "", "level": "same_organization", "shared_secret": ""}
(previously{"allowed_users": "cginzler-gmx_net", "level": "same_organization", "shared_secret": ""}
) in Vegetation Height Model NFI
| f | 1 | { | f | 1 | { |
| 2 | "author": "[{\"affiliation\": \"Swiss Federal Institute for Forest, | 2 | "author": "[{\"affiliation\": \"Swiss Federal Institute for Forest, | ||
| 3 | Snow and Landscape Research WSL \", \"affiliation_02\": \"\", | 3 | Snow and Landscape Research WSL \", \"affiliation_02\": \"\", | ||
| 4 | \"affiliation_03\": \"\", \"email\": \"christian.ginzler@wsl.ch\", | 4 | \"affiliation_03\": \"\", \"email\": \"christian.ginzler@wsl.ch\", | ||
| 5 | \"given_name\": \"Christian\", \"identifier\": \"E-9544-2012\", | 5 | \"given_name\": \"Christian\", \"identifier\": \"E-9544-2012\", | ||
| 6 | \"name\": \"Ginzler\"}]", | 6 | \"name\": \"Ginzler\"}]", | ||
| 7 | "author_email": null, | 7 | "author_email": null, | ||
| 8 | "creator_user_id": "6d44d5cd-9ac6-4100-bc2c-c02034a41b48", | 8 | "creator_user_id": "6d44d5cd-9ac6-4100-bc2c-c02034a41b48", | ||
| 9 | "date": "[{\"date\": \"2007-05-01\", \"date_type\": \"created\", | 9 | "date": "[{\"date\": \"2007-05-01\", \"date_type\": \"created\", | ||
| 10 | \"end_date\": \"2019-10-30\"}]", | 10 | \"end_date\": \"2019-10-30\"}]", | ||
| 11 | "doi": "10.16904/1000001.1", | 11 | "doi": "10.16904/1000001.1", | ||
| 12 | "extras": [ | 12 | "extras": [ | ||
| 13 | { | 13 | { | ||
| 14 | "key": "dora_link", | 14 | "key": "dora_link", | ||
| 15 | "value": "" | 15 | "value": "" | ||
| 16 | } | 16 | } | ||
| 17 | ], | 17 | ], | ||
| 18 | "funding": "[{\"grant_number\": \"\", \"institution\": \"Federal | 18 | "funding": "[{\"grant_number\": \"\", \"institution\": \"Federal | ||
| 19 | Office for the Environment (FOEN).\", \"institution_url\": \"\"}]", | 19 | Office for the Environment (FOEN).\", \"institution_url\": \"\"}]", | ||
| 20 | "groups": [], | 20 | "groups": [], | ||
| 21 | "id": "d0e70abe-cc8a-4d91-8798-fa2d9991230f", | 21 | "id": "d0e70abe-cc8a-4d91-8798-fa2d9991230f", | ||
| 22 | "isopen": true, | 22 | "isopen": true, | ||
| 23 | "language": "en", | 23 | "language": "en", | ||
| 24 | "license_id": "odc-odbl", | 24 | "license_id": "odc-odbl", | ||
| 25 | "license_title": "ODbL with Database Contents License (DbCL)", | 25 | "license_title": "ODbL with Database Contents License (DbCL)", | ||
| 26 | "license_url": "https://opendefinition.org/licenses/odc-odbl", | 26 | "license_url": "https://opendefinition.org/licenses/odc-odbl", | ||
| 27 | "maintainer": "{\"affiliation\": \"Swiss Federal Institute for | 27 | "maintainer": "{\"affiliation\": \"Swiss Federal Institute for | ||
| 28 | Forest, Snow and Landscape Research WSL \", \"email\": | 28 | Forest, Snow and Landscape Research WSL \", \"email\": | ||
| 29 | \"christian.ginzler@wsl.ch\", \"given_name\": \"Christian\", | 29 | \"christian.ginzler@wsl.ch\", \"given_name\": \"Christian\", | ||
| 30 | \"identifier\": \"E-9544-2012\", \"name\": \"Ginzler\"}", | 30 | \"identifier\": \"E-9544-2012\", \"name\": \"Ginzler\"}", | ||
| 31 | "maintainer_email": null, | 31 | "maintainer_email": null, | ||
| 32 | "metadata_created": "2017-05-01T12:38:08.518327", | 32 | "metadata_created": "2017-05-01T12:38:08.518327", | ||
| n | 33 | "metadata_modified": "2023-01-19T10:33:19.379530", | n | 33 | "metadata_modified": "2023-09-12T12:16:06.649422", |
| 34 | "name": "vegetation-height-model-nfi", | 34 | "name": "vegetation-height-model-nfi", | ||
| 35 | "notes": "A national vegetation height model was calculated for | 35 | "notes": "A national vegetation height model was calculated for | ||
| 36 | Switzerland using digital aerial images.\r\nWe used the stereo aerial | 36 | Switzerland using digital aerial images.\r\nWe used the stereo aerial | ||
| 37 | images acquired by the Federal Office of Topography swisstopo using | 37 | images acquired by the Federal Office of Topography swisstopo using | ||
| 38 | the ADS80 sensor to first calculate a digital surface model (DSM) with | 38 | the ADS80 sensor to first calculate a digital surface model (DSM) with | ||
| 39 | a very high spatial resolution\r\n(1 \u00d7 1 m and 0.5 x 0.5 m). The | 39 | a very high spatial resolution\r\n(1 \u00d7 1 m and 0.5 x 0.5 m). The | ||
| 40 | DSM was then normalized to obtain the actual\r\nvegetation heights | 40 | DSM was then normalized to obtain the actual\r\nvegetation heights | ||
| 41 | using a digital terrain model (DTM)\r\nbased on laser data with the | 41 | using a digital terrain model (DTM)\r\nbased on laser data with the | ||
| 42 | buildings masked out, and to\r\nproduce a vegetation height model | 42 | buildings masked out, and to\r\nproduce a vegetation height model | ||
| 43 | (VHM). Such a model\r\nwill be calculated in the framework of the | 43 | (VHM). Such a model\r\nwill be calculated in the framework of the | ||
| 44 | Swiss National Forest Inventory (NFI) with consistent methods and a | 44 | Swiss National Forest Inventory (NFI) with consistent methods and a | ||
| 45 | very\r\nhigh level of detail. For covering the whole of | 45 | very\r\nhigh level of detail. For covering the whole of | ||
| 46 | Switzerland,\r\nwe use summer aerial images from six | 46 | Switzerland,\r\nwe use summer aerial images from six | ||
| 47 | years.\r\n\r\nLatest version is from 2019.", | 47 | years.\r\n\r\nLatest version is from 2019.", | ||
| 48 | "num_resources": 6, | 48 | "num_resources": 6, | ||
| 49 | "num_tags": 5, | 49 | "num_tags": 5, | ||
| 50 | "organization": { | 50 | "organization": { | ||
| 51 | "approval_status": "approved", | 51 | "approval_status": "approved", | ||
| 52 | "created": "2017-04-20T16:51:21.920128", | 52 | "created": "2017-04-20T16:51:21.920128", | ||
| 53 | "description": "We develop and apply comprehensive and robust | 53 | "description": "We develop and apply comprehensive and robust | ||
| 54 | methods to extract and classify natural objects from continuous and | 54 | methods to extract and classify natural objects from continuous and | ||
| 55 | discrete raster datasets. Relevant features are acquired to describe | 55 | discrete raster datasets. Relevant features are acquired to describe | ||
| 56 | changes in landscape and land resources at different levels using | 56 | changes in landscape and land resources at different levels using | ||
| 57 | image data. Mathematical-statistical methods are adopted for automatic | 57 | image data. Mathematical-statistical methods are adopted for automatic | ||
| 58 | detection and description of image objects. Thus we contribute | 58 | detection and description of image objects. Thus we contribute | ||
| 59 | concepts, methods and data to describe/detect area wide changes and | 59 | concepts, methods and data to describe/detect area wide changes and | ||
| 60 | processes in the resources of landscape.\r\n\r\n### Tasks and main | 60 | processes in the resources of landscape.\r\n\r\n### Tasks and main | ||
| 61 | research\r\n\r\n* Development and application of methods to extract | 61 | research\r\n\r\n* Development and application of methods to extract | ||
| 62 | natural objects from continuous data.\r\n* Development of methods for | 62 | natural objects from continuous data.\r\n* Development of methods for | ||
| 63 | a comprehensive description of natural and anthropogenetic boundaries | 63 | a comprehensive description of natural and anthropogenetic boundaries | ||
| 64 | in continuous pattern (e.g. map signatures, vegetation transition, | 64 | in continuous pattern (e.g. map signatures, vegetation transition, | ||
| 65 | forest borders).\r\n* Development and application of methods to | 65 | forest borders).\r\n* Development and application of methods to | ||
| 66 | extract 3D-information from remotely sensed data for description of | 66 | extract 3D-information from remotely sensed data for description of | ||
| 67 | natural structures and changes. The main focus lies on wood and its | 67 | natural structures and changes. The main focus lies on wood and its | ||
| 68 | embedding/interaction within/with the landscape.\r\n* Conception and | 68 | embedding/interaction within/with the landscape.\r\n* Conception and | ||
| 69 | development of data acquisition based on high resolution remote | 69 | development of data acquisition based on high resolution remote | ||
| 70 | sensing data.\r\n* Conception, development and maintenance of the | 70 | sensing data.\r\n* Conception, development and maintenance of the | ||
| 71 | software interface in area wide data acquisition using airborne remote | 71 | software interface in area wide data acquisition using airborne remote | ||
| 72 | sensing data.\r\n* Scientific expert advice and support in the fields | 72 | sensing data.\r\n* Scientific expert advice and support in the fields | ||
| 73 | of photogrammetry and survey at WSL. Maintenance, enhancements and | 73 | of photogrammetry and survey at WSL. Maintenance, enhancements and | ||
| 74 | future development in these specific fields.\r\n* Adequate | 74 | future development in these specific fields.\r\n* Adequate | ||
| 75 | presentation of scientific results on national level and in noted | 75 | presentation of scientific results on national level and in noted | ||
| 76 | international journals and at international | 76 | international journals and at international | ||
| 77 | congresses/workshops/symposia.\r\n\r\n__Further information__: | 77 | congresses/workshops/symposia.\r\n\r\n__Further information__: | ||
| 78 | l/organization/research-units/landscape-dynamics/remote-sensing.html", | 78 | l/organization/research-units/landscape-dynamics/remote-sensing.html", | ||
| 79 | "id": "5243fbb4-e4e6-4779-9672-32a7ef33d5f9", | 79 | "id": "5243fbb4-e4e6-4779-9672-32a7ef33d5f9", | ||
| 80 | "image_url": "2018-07-10-102816.481589LogoWSL.svg", | 80 | "image_url": "2018-07-10-102816.481589LogoWSL.svg", | ||
| 81 | "is_organization": true, | 81 | "is_organization": true, | ||
| 82 | "name": "remote-sensing", | 82 | "name": "remote-sensing", | ||
| 83 | "state": "active", | 83 | "state": "active", | ||
| 84 | "title": "Remote Sensing", | 84 | "title": "Remote Sensing", | ||
| 85 | "type": "organization" | 85 | "type": "organization" | ||
| 86 | }, | 86 | }, | ||
| 87 | "owner_org": "5243fbb4-e4e6-4779-9672-32a7ef33d5f9", | 87 | "owner_org": "5243fbb4-e4e6-4779-9672-32a7ef33d5f9", | ||
| 88 | "private": false, | 88 | "private": false, | ||
| 89 | "publication": "{\"publication_year\": \"2021\", \"publisher\": | 89 | "publication": "{\"publication_year\": \"2021\", \"publisher\": | ||
| 90 | \"National Forest Inventory (NFI)\"}", | 90 | \"National Forest Inventory (NFI)\"}", | ||
| 91 | "publication_state": "published", | 91 | "publication_state": "published", | ||
| 92 | "related_datasets": "", | 92 | "related_datasets": "", | ||
| 93 | "related_publications": "", | 93 | "related_publications": "", | ||
| 94 | "relationships_as_object": [], | 94 | "relationships_as_object": [], | ||
| 95 | "relationships_as_subject": [], | 95 | "relationships_as_subject": [], | ||
| 96 | "resource_type": "dataset", | 96 | "resource_type": "dataset", | ||
| 97 | "resource_type_general": "dataset", | 97 | "resource_type_general": "dataset", | ||
| 98 | "resources": [ | 98 | "resources": [ | ||
| 99 | { | 99 | { | ||
| 100 | "cache_last_updated": null, | 100 | "cache_last_updated": null, | ||
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| 102 | "created": "2021-06-18T09:15:44.853648", | 102 | "created": "2021-06-18T09:15:44.853648", | ||
| 103 | "description": "Data 'Vegetation Height Model NFI 2019' | 103 | "description": "Data 'Vegetation Height Model NFI 2019' | ||
| 104 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | 104 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | ||
| 105 | vegetation height model was calculated for Switzerland using digital | 105 | vegetation height model was calculated for Switzerland using digital | ||
| 106 | aerial images. We used the stereo aerial images acquired by the | 106 | aerial images. We used the stereo aerial images acquired by the | ||
| 107 | Federal Office of Topography swisstopo using the ADS80 sensor to first | 107 | Federal Office of Topography swisstopo using the ADS80 sensor to first | ||
| 108 | calculate a digital surface model (DSM) with a very high spatial | 108 | calculate a digital surface model (DSM) with a very high spatial | ||
| 109 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | 109 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | ||
| 110 | actual vegetation heights using the digital terrain model (DTM) | 110 | actual vegetation heights using the digital terrain model (DTM) | ||
| 111 | SwissAlti3D based on airborne laser data. Buildings are masked out | 111 | SwissAlti3D based on airborne laser data. Buildings are masked out | ||
| 112 | using the NDVI information of the aerial images to produce a | 112 | using the NDVI information of the aerial images to produce a | ||
| 113 | vegetation height model, and to produce a vegetation height model | 113 | vegetation height model, and to produce a vegetation height model | ||
| 114 | (VHM). Such a model will be calculated in the framework of the Swiss | 114 | (VHM). Such a model will be calculated in the framework of the Swiss | ||
| 115 | National Forest Inventory (NFI) with consistent methods and a very | 115 | National Forest Inventory (NFI) with consistent methods and a very | ||
| 116 | high level of detail. For covering the whole of Switzerland, we used | 116 | high level of detail. For covering the whole of Switzerland, we used | ||
| 117 | summer aerial images from 2013 to 2019.", | 117 | summer aerial images from 2013 to 2019.", | ||
| 118 | "doi": "10.16904/1000001.8", | 118 | "doi": "10.16904/1000001.8", | ||
| 119 | "format": "geotiff", | 119 | "format": "geotiff", | ||
| 120 | "hash": "", | 120 | "hash": "", | ||
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| 126 | "name": "2019 Vegetation Height Model NFI (current)", | 126 | "name": "2019 Vegetation Height Model NFI (current)", | ||
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| 129 | "publication_state": "published", | 129 | "publication_state": "published", | ||
| 130 | "resource_size": "{\"size_units\": \"gb\", \"size_value\": | 130 | "resource_size": "{\"size_units\": \"gb\", \"size_value\": | ||
| 131 | \"70\"}", | 131 | \"70\"}", | ||
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| 139 | }, | 139 | }, | ||
| 140 | { | 140 | { | ||
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| 142 | "cache_url": null, | 142 | "cache_url": null, | ||
| 143 | "created": "2018-04-03T05:11:09.208337", | 143 | "created": "2018-04-03T05:11:09.208337", | ||
| 144 | "description": "Data 'Vegetation Height Model NFI 2016' | 144 | "description": "Data 'Vegetation Height Model NFI 2016' | ||
| 145 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | 145 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | ||
| 146 | vegetation height model was calculated for Switzerland using digital | 146 | vegetation height model was calculated for Switzerland using digital | ||
| 147 | aerial images. We used the stereo aerial images acquired by the | 147 | aerial images. We used the stereo aerial images acquired by the | ||
| 148 | Federal Office of Topography swisstopo using the ADS80 sensor to first | 148 | Federal Office of Topography swisstopo using the ADS80 sensor to first | ||
| 149 | calculate a digital surface model (DSM) with a very high spatial | 149 | calculate a digital surface model (DSM) with a very high spatial | ||
| 150 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | 150 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | ||
| 151 | actual vegetation heights using the digital terrain model (DTM) | 151 | actual vegetation heights using the digital terrain model (DTM) | ||
| 152 | SwissAlti3D based on airborne laser data. Buildings are masked out | 152 | SwissAlti3D based on airborne laser data. Buildings are masked out | ||
| 153 | using the NDVI information of the aerial images to produce a | 153 | using the NDVI information of the aerial images to produce a | ||
| 154 | vegetation height model, and to produce a vegetation height model | 154 | vegetation height model, and to produce a vegetation height model | ||
| 155 | (VHM). Such a model will be calculated in the framework of the Swiss | 155 | (VHM). Such a model will be calculated in the framework of the Swiss | ||
| 156 | National Forest Inventory (NFI) with consistent methods and a very | 156 | National Forest Inventory (NFI) with consistent methods and a very | ||
| 157 | high level of detail. For covering the whole of Switzerland, we used | 157 | high level of detail. For covering the whole of Switzerland, we used | ||
| 158 | summer aerial images from 2011 to 2016.", | 158 | summer aerial images from 2011 to 2016.", | ||
| 159 | "doi": "10.16904/1000001.1", | 159 | "doi": "10.16904/1000001.1", | ||
| 160 | "format": "geotiff", | 160 | "format": "geotiff", | ||
| 161 | "hash": "", | 161 | "hash": "", | ||
| 162 | "id": "6b41c421-dc79-4174-ad3f-34bcbe337cad", | 162 | "id": "6b41c421-dc79-4174-ad3f-34bcbe337cad", | ||
| 163 | "last_modified": "2018-04-03T09:12:32.273270", | 163 | "last_modified": "2018-04-03T09:12:32.273270", | ||
| 164 | "metadata_modified": "2021-07-13T08:29:08.270551", | 164 | "metadata_modified": "2021-07-13T08:29:08.270551", | ||
| 165 | "mimetype": null, | 165 | "mimetype": null, | ||
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| 167 | "name": "2016 Vegetation Height Model NFI", | 167 | "name": "2016 Vegetation Height Model NFI", | ||
| 168 | "package_id": "d0e70abe-cc8a-4d91-8798-fa2d9991230f", | 168 | "package_id": "d0e70abe-cc8a-4d91-8798-fa2d9991230f", | ||
| 169 | "position": 1, | 169 | "position": 1, | ||
| 170 | "publication_state": "published", | 170 | "publication_state": "published", | ||
| 171 | "resource_size": "{\"size_units\": \"gb\", \"size_value\": | 171 | "resource_size": "{\"size_units\": \"gb\", \"size_value\": | ||
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| 177 | "state": "active", | 177 | "state": "active", | ||
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| 184 | "created": "2018-04-03T09:21:25.325756", | 184 | "created": "2018-04-03T09:21:25.325756", | ||
| 185 | "description": "Data 'Vegetation Height Model NFI 2015' | 185 | "description": "Data 'Vegetation Height Model NFI 2015' | ||
| 186 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | 186 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | ||
| 187 | vegetation height model was calculated for Switzerland using digital | 187 | vegetation height model was calculated for Switzerland using digital | ||
| 188 | aerial images. We used the stereo aerial images acquired by the | 188 | aerial images. We used the stereo aerial images acquired by the | ||
| 189 | Federal Office of Topography swisstopo using the ADS80 sensor to first | 189 | Federal Office of Topography swisstopo using the ADS80 sensor to first | ||
| 190 | calculate a digital surface model (DSM) with a very high spatial | 190 | calculate a digital surface model (DSM) with a very high spatial | ||
| 191 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | 191 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | ||
| 192 | actual vegetation heights using the digital terrain model (DTM) | 192 | actual vegetation heights using the digital terrain model (DTM) | ||
| 193 | SwissAlti3D based on airborne laser data. Buildings are masked out | 193 | SwissAlti3D based on airborne laser data. Buildings are masked out | ||
| 194 | using the NDVI information of the aerial images to produce a | 194 | using the NDVI information of the aerial images to produce a | ||
| 195 | vegetation height model, and to produce a vegetation height model | 195 | vegetation height model, and to produce a vegetation height model | ||
| 196 | (VHM). Such a model will be calculated in the framework of the Swiss | 196 | (VHM). Such a model will be calculated in the framework of the Swiss | ||
| 197 | National Forest Inventory (NFI) with consistent methods and a very | 197 | National Forest Inventory (NFI) with consistent methods and a very | ||
| 198 | high level of detail. For covering the whole of Switzerland, we used | 198 | high level of detail. For covering the whole of Switzerland, we used | ||
| 199 | summer aerial images from 2010 to 2015.", | 199 | summer aerial images from 2010 to 2015.", | ||
| 200 | "doi": "10.16904/1000001.5", | 200 | "doi": "10.16904/1000001.5", | ||
| 201 | "format": "geotiff", | 201 | "format": "geotiff", | ||
| 202 | "hash": "", | 202 | "hash": "", | ||
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| 204 | "last_modified": "2018-04-03T09:21:25.276943", | 204 | "last_modified": "2018-04-03T09:21:25.276943", | ||
| 205 | "metadata_modified": "2023-01-19T10:33:19.384736", | 205 | "metadata_modified": "2023-01-19T10:33:19.384736", | ||
| 206 | "mimetype": null, | 206 | "mimetype": null, | ||
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| 208 | "name": "2015 Vegetation Height Model NFI", | 208 | "name": "2015 Vegetation Height Model NFI", | ||
| 209 | "package_id": "d0e70abe-cc8a-4d91-8798-fa2d9991230f", | 209 | "package_id": "d0e70abe-cc8a-4d91-8798-fa2d9991230f", | ||
| 210 | "position": 2, | 210 | "position": 2, | ||
| 211 | "publication_state": "", | 211 | "publication_state": "", | ||
| 212 | "resource_size": "{\"size_units\": \"gb\", \"size_value\": | 212 | "resource_size": "{\"size_units\": \"gb\", \"size_value\": | ||
| 213 | \"70\"}", | 213 | \"70\"}", | ||
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| 217 | "size": 88, | 217 | "size": 88, | ||
| 218 | "state": "active", | 218 | "state": "active", | ||
| 219 | "url": "", | 219 | "url": "", | ||
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| 221 | }, | 221 | }, | ||
| 222 | { | 222 | { | ||
| 223 | "cache_last_updated": null, | 223 | "cache_last_updated": null, | ||
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| 225 | "created": "2018-04-03T09:24:01.591091", | 225 | "created": "2018-04-03T09:24:01.591091", | ||
| 226 | "description": "Data 'Vegetation Height Model NFI 2012' | 226 | "description": "Data 'Vegetation Height Model NFI 2012' | ||
| 227 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | 227 | available on request (christian.ginzler@wsl.ch).\r\n\r\nA national | ||
| 228 | vegetation height model was calculated for Switzerland using digital | 228 | vegetation height model was calculated for Switzerland using digital | ||
| 229 | aerial images. We used the stereo aerial images acquired by the | 229 | aerial images. We used the stereo aerial images acquired by the | ||
| 230 | Federal Office of Topography swisstopo using the ADS80 sensor to first | 230 | Federal Office of Topography swisstopo using the ADS80 sensor to first | ||
| 231 | calculate a digital surface model (DSM) with a very high spatial | 231 | calculate a digital surface model (DSM) with a very high spatial | ||
| 232 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | 232 | resolution (1 \u00d7 1 m). The DSM was then normalized to obtain the | ||
| 233 | actual vegetation heights using the digital terrain model (DTM) | 233 | actual vegetation heights using the digital terrain model (DTM) | ||
| 234 | SwissAlti3D based on airborne laser data. Buildings are masked out | 234 | SwissAlti3D based on airborne laser data. Buildings are masked out | ||
| 235 | using the NDVI information of the aerial images to produce a | 235 | using the NDVI information of the aerial images to produce a | ||
| 236 | vegetation height model, and to produce a vegetation height model | 236 | vegetation height model, and to produce a vegetation height model | ||
| 237 | (VHM). Such a model will be calculated in the framework of the Swiss | 237 | (VHM). Such a model will be calculated in the framework of the Swiss | ||
| 238 | National Forest Inventory (NFI) with consistent methods and a very | 238 | National Forest Inventory (NFI) with consistent methods and a very | ||
| 239 | high level of detail. For covering the whole of Switzerland, we used | 239 | high level of detail. For covering the whole of Switzerland, we used | ||
| 240 | summer aerial images from 2007 to 2012.", | 240 | summer aerial images from 2007 to 2012.", | ||
| 241 | "doi": "10.16904/1000001.4", | 241 | "doi": "10.16904/1000001.4", | ||
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| 366 | "title": "Vegetation Height Model NFI", | 366 | "title": "Vegetation Height Model NFI", | ||
| 367 | "type": "dataset", | 367 | "type": "dataset", | ||
| 368 | "url": null, | 368 | "url": null, | ||
| 369 | "version": "2019 (current)" | 369 | "version": "2019 (current)" | ||
| 370 | } | 370 | } |