Changes

On June 12, 2024 at 12:24:40 PM UTC, Tiziana Koch:

Updated description of Sentinel-2 imagery of Switzerland from
# Sentinel-2 imagery of Switzerland We processed Sentinel-2 images from 2017 to 2023 for Switzerland with the Software FORCE (Frantz 2019). The respective parameter files can be found here: [Github](https://github.com/TLKoch/Sentinel-2_CH). All the images consist of several TB and therefore, access will be granted upon request. The available bands (in spatial reference system EPSG 3035) are the following: *Red, Green, Blue, NIR, Red-Edge-1, Red-Edge-2, Red-Edge-3, SWIR-1, SWIR-2* The available indices (in spatial reference system EPSG 3035) are the following: *CCI, CIRE, NDWI/NDMI, NDVI, EVI* Further indices might be provided upon request. ### Processing After downloading Level 1C data for the 14 Sentinel-2 tiles covering Switzerland (T31TGN, T32TLT, T32TMT, T32UMU, T32TNT, T32TPT, T31TGM, T32TLS, T32TMS, T32TNS, T32TPS, T32TLR, T32TMR, T32TNR) with an estimated cloud cover of less than 80 \%, we processed the data further with FORCE v. 3.7.8-12. FORCE was used for radiometric correction, including atmospheric and topographic corrections using the digital elevation model from Copernicus Land Monitoring Service (EU-DEM v. 1.1), with a 25 m spatial resolution, a bidirectional reflectance distribution function (BRDF) correction, and an adjacency effect correction. For cloud masking, the improved Fmask algorithm with buffers of 300 m for clouds, 90 m for shadows, and 30 m for snow were used (Frantz et al. 2018; Zhu et al. 2015). All bands were resampled using cubic convolution to 10 m spatial resolution. Shadows, low and poor illumination as well as saturation were masked out. The co-registration of all images was made with monthly composites of near-infrared Landsat Collection 2 images from 2014 to 2021 (Rengarajan et al. 2020;Rufin et al. 2021). With this the geometric consistency improved. The processed images are available in tiles of 30 by 30 km. ### Example images Uploaded is an example of the index EVI for one of the generated 30 by 30 km tiles located around the city of Zürich. The values are multiplied by 10.000. The date of the image is 24.07.2018. ### References *D. Frantz, “FORCE—Landsat + Sentinel-2 Analysis Ready Data and Beyond,” Remote Sensing, vol. 11, no. 9, 2019.* *D. Frantz, E. Haß, A. Uhl, J. Stoffels, and J. Hill, “Improvement of the Fmask algorithm for Sentinel-2 images: Separating clouds from bright surfaces based on parallax effects,” Remote Sensing of Environment, vol. 215, pp. 471–481, 2018.* *R. Rengarajan, M. Choate, J. Storey, S. Franks, E. Micijevic, J. J. Butler, X. Xiong, and X. Gu, “Landsat Collection-2 geometric calibration updates,” 2020.* *P. Rufin, D. Frantz, L. Yan, and P. Hostert, “Operational Coregistration of the Sentinel-2A/B Image Archive Using Multitemporal Landsat Spectral Averages,” IEEE Geoscience and Remote Sensing Letters, vol. 18, no. 4, pp. 712–716, 2021.* *Z. Zhu, S. Wang, and C. E. Woodcock, “Improvement and expansion of the Fmask algorithm: cloud, cloud shadow, and snow detection for Landsats 4–7, 8, and Sentinel 2 images,” Remote Sensing of Environment, vol. 159, pp. 269–277, 2015.*
to
# Sentinel-2 imagery of Switzerland We processed Sentinel-2 images from 2017 to 2023 for Switzerland with the Software FORCE (Frantz 2019). The respective parameter files can be found here: [Github](https://github.com/TLKoch/Sentinel-2_CH). All the images consist of several TB and therefore, access will be granted upon request. The available bands (in spatial reference system EPSG 3035) are the following: *Red, Green, Blue, NIR, Red-Edge-1, Red-Edge-2, Red-Edge-3, SWIR-1, SWIR-2* The available indices (in spatial reference system EPSG 3035) are the following: *CCI, CIRE, NDWI/NDMI, NDVI, EVI* Further indices might be provided upon request. ### Processing After downloading Level 1 data for the 14 Sentinel-2 tiles covering Switzerland (T31TGN, T32TLT, T32TMT, T32UMU, T32TNT, T32TPT, T31TGM, T32TLS, T32TMS, T32TNS, T32TPS, T32TLR, T32TMR, T32TNR) with an estimated cloud cover of less than 80 \%, we processed the data further with FORCE v. 3.7.8-12. FORCE was used for radiometric correction, including atmospheric and topographic corrections using the digital elevation model from Copernicus Land Monitoring Service (EU-DEM v. 1.1), with a 25 m spatial resolution, a bidirectional reflectance distribution function (BRDF) correction, and an adjacency effect correction. For cloud masking, the improved Fmask algorithm with buffers of 300 m for clouds, 90 m for shadows, and 30 m for snow were used (Frantz et al. 2018; Zhu et al. 2015). All bands were resampled using cubic convolution to 10 m spatial resolution. Shadows, low and poor illumination as well as saturation were masked out. The co-registration of all images was made with monthly composites of near-infrared Landsat Collection 2 images from 2014 to 2021 (Rengarajan et al. 2020;Rufin et al. 2021). With this the geometric consistency improved. The processed images are available in tiles of 30 by 30 km. ### Example images Uploaded is an example of the index EVI for one of the generated 30 by 30 km tiles located around the city of Zürich. The values are multiplied by 10.000. The date of the image is 24.07.2018. ### References *D. Frantz, “FORCE—Landsat + Sentinel-2 Analysis Ready Data and Beyond,” Remote Sensing, vol. 11, no. 9, 2019.* *D. Frantz, E. Haß, A. Uhl, J. Stoffels, and J. Hill, “Improvement of the Fmask algorithm for Sentinel-2 images: Separating clouds from bright surfaces based on parallax effects,” Remote Sensing of Environment, vol. 215, pp. 471–481, 2018.* *R. Rengarajan, M. Choate, J. Storey, S. Franks, E. Micijevic, J. J. Butler, X. Xiong, and X. Gu, “Landsat Collection-2 geometric calibration updates,” 2020.* *P. Rufin, D. Frantz, L. Yan, and P. Hostert, “Operational Coregistration of the Sentinel-2A/B Image Archive Using Multitemporal Landsat Spectral Averages,” IEEE Geoscience and Remote Sensing Letters, vol. 18, no. 4, pp. 712–716, 2021.* *Z. Zhu, S. Wang, and C. E. Woodcock, “Improvement and expansion of the Fmask algorithm: cloud, cloud shadow, and snow detection for Landsats 4–7, 8, and Sentinel 2 images,” Remote Sensing of Environment, vol. 159, pp. 269–277, 2015.*

              
    
          
          
        
        
            f 1 { f 1 {
            2   "author": "[{\"given_name\": \"Tiziana\", \"name\": \"Koch\",  2   "author": "[{\"given_name\": \"Tiziana\", \"name\": \"Koch\", 
            3 \"email\": \"tiziana.li@t-online.de\", \"data_credit\": [\"curation\",  3 \"email\": \"tiziana.li@t-online.de\", \"data_credit\": [\"curation\", 
            4 \"software\", \"collection\", \"validation\", \"publication\"],  4 \"software\", \"collection\", \"validation\", \"publication\"], 
            5 \"identifier\": \"0000-0002-0195-4119\", \"affiliation\": \"Swiss  5 \"identifier\": \"0000-0002-0195-4119\", \"affiliation\": \"Swiss 
            6 Federal Research Institute WSL; University of Z\\u00fcrich\"},  6 Federal Research Institute WSL; University of Z\\u00fcrich\"}, 
            7 {\"given_name\": \"Dominique\", \"name\": \"Weber\", \"email\":  7 {\"given_name\": \"Dominique\", \"name\": \"Weber\", \"email\": 
            8 \"dominique.weber@wsl.ch\", \"data_credit\": [\"supervision\",  8 \"dominique.weber@wsl.ch\", \"data_credit\": [\"supervision\", 
            9 \"publication\", \"validation\"], \"identifier\":  9 \"publication\", \"validation\"], \"identifier\": 
            10 \"0000-0002-0402-9682\", \"affiliation\": \"WSL\"}, {\"given_name\":  10 \"0000-0002-0402-9682\", \"affiliation\": \"WSL\"}, {\"given_name\": 
            11 \"Lars\", \"name\": \"Waser\", \"email\": \"lars.waser@wsl.ch\",  11 \"Lars\", \"name\": \"Waser\", \"email\": \"lars.waser@wsl.ch\", 
            12 \"data_credit\": [\"supervision\", \"publication\"], \"identifier\":  12 \"data_credit\": [\"supervision\", \"publication\"], \"identifier\": 
            13 \"D-5937-2011\", \"affiliation\": \"Swiss Federal Institute for  13 \"D-5937-2011\", \"affiliation\": \"Swiss Federal Institute for 
            14 Forest, Snow and Landscape Research WSL \"}]", 14 Forest, Snow and Landscape Research WSL \"}]",
            15   "author_email": null, 15   "author_email": null,
            16   "creator_user_id": "06333ba0-47fe-41e8-9b65-5945024eca8a", 16   "creator_user_id": "06333ba0-47fe-41e8-9b65-5945024eca8a",
            17   "date":  17   "date": 
            18 \":\"created\",\"date\":\"2017-01-01\",\"end_date\":\"2023-12-31\"}]", 18 \":\"created\",\"date\":\"2017-01-01\",\"end_date\":\"2023-12-31\"}]",
            19   "doi": "10.16904/envidat.510", 19   "doi": "10.16904/envidat.510",
            20   "funding": "[{\"institution\":\"Swiss National Science  20   "funding": "[{\"institution\":\"Swiss National Science 
            21 tion\",\"grant_number\":\"200021_184605\",\"institution_url\":\"\"}]", 21 tion\",\"grant_number\":\"200021_184605\",\"institution_url\":\"\"}]",
            22   "groups": [], 22   "groups": [],
            23   "id": "eb913ad8-aec4-472f-a827-179b4ec87371", 23   "id": "eb913ad8-aec4-472f-a827-179b4ec87371",
            24   "isopen": true, 24   "isopen": true,
            25   "license_id": "cc-by-sa", 25   "license_id": "cc-by-sa",
            26   "license_title": "Creative Commons Attribution Share-Alike  26   "license_title": "Creative Commons Attribution Share-Alike 
            27 (CC-BY-SA)", 27 (CC-BY-SA)",
            28   "license_url": "https://creativecommons.org/licenses/by-sa/4.0/", 28   "license_url": "https://creativecommons.org/licenses/by-sa/4.0/",
            29   "maintainer":  29   "maintainer": 
            30 ziana.li@t-online.de\",\"given_name\":\"Tiziana\",\"name\":\"Koch\"}", 30 ziana.li@t-online.de\",\"given_name\":\"Tiziana\",\"name\":\"Koch\"}",
            31   "maintainer_email": null, 31   "maintainer_email": null,
            32   "metadata_created": "2024-05-23T09:00:09.022414", 32   "metadata_created": "2024-05-23T09:00:09.022414",
            n 33   "metadata_modified": "2024-05-23T12:25:16.032515", n 33   "metadata_modified": "2024-06-12T12:24:40.758786",
            34   "name": "sentinel-2-imagery-of-switzerland", 34   "name": "sentinel-2-imagery-of-switzerland",
            35   "notes": "\n# Sentinel-2 imagery of Switzerland \n\nWe processed  35   "notes": "\n# Sentinel-2 imagery of Switzerland \n\nWe processed 
            36 Sentinel-2 images from 2017 to 2023 for Switzerland with the Software  36 Sentinel-2 images from 2017 to 2023 for Switzerland with the Software 
            37 FORCE (Frantz 2019). The respective parameter files can be found here:  37 FORCE (Frantz 2019). The respective parameter files can be found here: 
            38 [Github](https://github.com/TLKoch/Sentinel-2_CH). All the images  38 [Github](https://github.com/TLKoch/Sentinel-2_CH). All the images 
            39 consist of several TB and therefore, access will be granted upon  39 consist of several TB and therefore, access will be granted upon 
            40 request. \nThe available bands (in spatial reference system EPSG 3035)  40 request. \nThe available bands (in spatial reference system EPSG 3035) 
            41 are the following:\n*Red, Green, Blue, NIR, Red-Edge-1, Red-Edge-2,  41 are the following:\n*Red, Green, Blue, NIR, Red-Edge-1, Red-Edge-2, 
            42 Red-Edge-3, SWIR-1, SWIR-2*\nThe available indices (in spatial  42 Red-Edge-3, SWIR-1, SWIR-2*\nThe available indices (in spatial 
            43 reference system EPSG 3035) are the following:\n*CCI, CIRE, NDWI/NDMI,  43 reference system EPSG 3035) are the following:\n*CCI, CIRE, NDWI/NDMI, 
            44 NDVI, EVI*\nFurther indices might be provided upon request.\n\n\n###  44 NDVI, EVI*\nFurther indices might be provided upon request.\n\n\n### 
            t 45 Processing\nAfter downloading Level 1C data for the 14 Sentinel-2  t 45 Processing\nAfter downloading Level 1 data for the 14 Sentinel-2 tiles 
            46 tiles covering Switzerland (T31TGN, T32TLT, T32TMT, T32UMU, T32TNT,  46 covering Switzerland (T31TGN, T32TLT, T32TMT, T32UMU, T32TNT, T32TPT, 
            47 T32TPT, T31TGM, T32TLS, T32TMS, T32TNS, T32TPS, T32TLR, T32TMR,  47 T31TGM, T32TLS, T32TMS, T32TNS, T32TPS, T32TLR, T32TMR, T32TNR) with 
            48 T32TNR) with an estimated cloud cover of less than 80 \\%, we  48 an estimated cloud cover of less than 80 \\%, we processed the data 
            49 processed the data further with FORCE v. 3.7.8-12.\nFORCE was used for  49 further with FORCE v. 3.7.8-12.\nFORCE was used for radiometric 
            50 radiometric correction, including atmospheric and topographic  50 correction, including atmospheric and topographic corrections using 
            51 corrections using the digital elevation model from Copernicus Land  51 the digital elevation model from Copernicus Land Monitoring Service 
            52 Monitoring Service (EU-DEM v. 1.1), with a 25 m spatial resolution, a  52 (EU-DEM v. 1.1), with a 25 m spatial resolution, a bidirectional 
            53 bidirectional reflectance distribution function (BRDF) correction, and  53 reflectance distribution function (BRDF) correction, and an adjacency 
            54 an adjacency effect correction. For cloud masking, the improved Fmask  54 effect correction. For cloud masking, the improved Fmask algorithm 
            55 algorithm with buffers of 300 m for clouds, 90 m for shadows, and 30 m  55 with buffers of 300 m for clouds, 90 m for shadows, and 30 m for snow 
            56 for snow were used (Frantz et al. 2018; Zhu et al. 2015). All bands  56 were used (Frantz et al. 2018; Zhu et al. 2015). All bands were 
            57 were resampled using cubic convolution to 10 m spatial resolution.  57 resampled using cubic convolution to 10 m spatial resolution. Shadows, 
            58 Shadows, low and poor illumination as well as saturation were masked  58 low and poor illumination as well as saturation were masked out. The 
            59 out. The co-registration of all images  was made with monthly  59 co-registration of all images  was made with monthly composites of 
            60 composites of near-infrared Landsat Collection 2 images from 2014 to  60 near-infrared Landsat Collection 2 images from 2014 to 2021 
            61 2021 (Rengarajan et al. 2020;Rufin et al. 2021). With this the  61 (Rengarajan et al. 2020;Rufin et al. 2021). With this the geometric 
            62 geometric consistency improved. The processed images are available in  62 consistency improved. The processed images are available in tiles of 
            63 tiles of 30 by 30 km.   \n\n\n### Example images\nUploaded is an  63 30 by 30 km.   \n\n\n### Example images\nUploaded is an example of the 
            64 example of the index EVI for one of the generated 30 by 30 km tiles  64 index EVI for one of the generated 30 by 30 km tiles located around 
            65 located around the city of Z\u00fcrich. The values are multiplied by  65 the city of Z\u00fcrich. The values are multiplied by 10.000. The date 
            66 10.000. The date of the image is 24.07.2018.\n\n\n\n\n###  66 of the image is 24.07.2018.\n\n\n\n\n### References\n*D. Frantz, 
            67 References\n*D. Frantz, \u201cFORCE\u2014Landsat + Sentinel-2 Analysis  67 \u201cFORCE\u2014Landsat + Sentinel-2 Analysis Ready Data and 
            68 Ready Data and Beyond,\u201d Remote Sensing, vol. 11, no. 9,  68 Beyond,\u201d Remote Sensing, vol. 11, no. 9, 2019.*\n\n*D. Frantz, E. 
            69 2019.*\n\n*D. Frantz, E. Ha\u00df, A. Uhl, J. Stoffels, and J. Hill,  69 Ha\u00df, A. Uhl, J. Stoffels, and J. Hill, \u201cImprovement of the 
            70 \u201cImprovement of the Fmask algorithm for Sentinel-2 images:  70 Fmask algorithm for Sentinel-2 images: Separating clouds from bright 
            71 Separating clouds from bright surfaces based on parallax  71 surfaces based on parallax effects,\u201d Remote Sensing of 
            72 Environment, vol. 215, pp. 471\u2013481, 2018.* \n\n*R. Rengarajan, M. 
            73 Choate, J. Storey, S. Franks, E. Micijevic, J. J. Butler, X. Xiong, 
            74 and X. Gu, \u201cLandsat Collection-2 geometric calibration 
            75 updates,\u201d 2020.* \n\n*P. Rufin, D. Frantz, L. Yan, and P. 
            76 Hostert, \u201cOperational Coregistration of the Sentinel-2A/B Image 
            77 Archive Using Multitemporal Landsat Spectral Averages,\u201d IEEE 
            78 Geoscience and Remote Sensing Letters, vol. 18, no. 4, pp. 
            79 712\u2013716, 2021.* \n\n*Z. Zhu, S. Wang, and C. E. Woodcock, 
            80 \u201cImprovement and expansion of the Fmask algorithm: cloud, cloud 
            81 shadow, and snow detection for Landsats 4\u20137, 8, and Sentinel 2 
            72 effects,\u201d Remote Sensing of Environment, vol. 215, pp.  82 images,\u201d Remote Sensing of Environment, vol. 159, pp. 
            73 471\u2013481, 2018.* \n\n*R. Rengarajan, M. Choate, J. Storey, S.  83 269\u2013277, 2015.* ",
            74 Franks, E. Micijevic, J. J. Butler, X. Xiong, and X. Gu, \u201cLandsat  
            75 Collection-2 geometric calibration updates,\u201d 2020.* \n\n*P.  
            76 Rufin, D. Frantz, L. Yan, and P. Hostert, \u201cOperational  
            77 Coregistration of the Sentinel-2A/B Image Archive Using Multitemporal  
            78 Landsat Spectral Averages,\u201d IEEE Geoscience and Remote Sensing  
            79 Letters, vol. 18, no. 4, pp. 712\u2013716, 2021.* \n\n*Z. Zhu, S.  
            80 Wang, and C. E. Woodcock, \u201cImprovement and expansion of the Fmask  
            81 algorithm: cloud, cloud shadow, and snow detection for Landsats  
            82 4\u20137, 8, and Sentinel 2 images,\u201d Remote Sensing of  
            83 Environment, vol. 159, pp. 269\u2013277, 2015.* ", 
            84   "num_resources": 1, 84   "num_resources": 1,
            85   "num_tags": 5, 85   "num_tags": 5,
            86   "organization": { 86   "organization": {
            87     "approval_status": "approved", 87     "approval_status": "approved",
            88     "created": "2017-04-20T16:51:21.920128", 88     "created": "2017-04-20T16:51:21.920128",
            89     "description": "We develop and apply comprehensive and robust  89     "description": "We develop and apply comprehensive and robust 
            90 methods to extract and classify natural objects from continuous and  90 methods to extract and classify natural objects from continuous and 
            91 discrete raster datasets. Relevant features are acquired to describe  91 discrete raster datasets. Relevant features are acquired to describe 
            92 changes in landscape and land resources at different levels using  92 changes in landscape and land resources at different levels using 
            93 image data. Mathematical-statistical methods are adopted for automatic  93 image data. Mathematical-statistical methods are adopted for automatic 
            94 detection and description of image objects. Thus we contribute  94 detection and description of image objects. Thus we contribute 
            95 concepts, methods and data to describe/detect area wide changes and  95 concepts, methods and data to describe/detect area wide changes and 
            96 processes in the resources of landscape.\r\n\r\n### Tasks and main  96 processes in the resources of landscape.\r\n\r\n### Tasks and main 
            97 research\r\n\r\n* Development and application of methods to extract  97 research\r\n\r\n* Development and application of methods to extract 
            98 natural objects from continuous data.\r\n* Development of methods for  98 natural objects from continuous data.\r\n* Development of methods for 
            99 a comprehensive description of natural and anthropogenetic boundaries  99 a comprehensive description of natural and anthropogenetic boundaries 
            100 in continuous pattern (e.g. map signatures, vegetation transition,  100 in continuous pattern (e.g. map signatures, vegetation transition, 
            101 forest borders).\r\n* Development and application of methods to  101 forest borders).\r\n* Development and application of methods to 
            102 extract 3D-information from remotely sensed data for description of  102 extract 3D-information from remotely sensed data for description of 
            103 natural structures and changes. The main focus lies on wood and its  103 natural structures and changes. The main focus lies on wood and its 
            104 embedding/interaction within/with the landscape.\r\n* Conception and  104 embedding/interaction within/with the landscape.\r\n* Conception and 
            105 development of data acquisition based on high resolution remote  105 development of data acquisition based on high resolution remote 
            106 sensing data.\r\n* Conception, development and maintenance of the  106 sensing data.\r\n* Conception, development and maintenance of the 
            107 software interface in area wide data acquisition using airborne remote  107 software interface in area wide data acquisition using airborne remote 
            108 sensing data.\r\n* Scientific expert advice and support in the fields  108 sensing data.\r\n* Scientific expert advice and support in the fields 
            109 of photogrammetry and survey at WSL. Maintenance, enhancements and  109 of photogrammetry and survey at WSL. Maintenance, enhancements and 
            110 future development in these specific fields.\r\n* Adequate  110 future development in these specific fields.\r\n* Adequate 
            111 presentation of scientific results on national level and in noted  111 presentation of scientific results on national level and in noted 
            112 international journals and at international  112 international journals and at international 
            113 congresses/workshops/symposia.\r\n\r\n__Further information__:  113 congresses/workshops/symposia.\r\n\r\n__Further information__: 
            114 l/organization/research-units/landscape-dynamics/remote-sensing.html", 114 l/organization/research-units/landscape-dynamics/remote-sensing.html",
            115     "id": "5243fbb4-e4e6-4779-9672-32a7ef33d5f9", 115     "id": "5243fbb4-e4e6-4779-9672-32a7ef33d5f9",
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            120     "title": "Remote Sensing", 120     "title": "Remote Sensing",
            121     "type": "organization" 121     "type": "organization"
            122   }, 122   },
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            188     }, 188     },
            189     { 189     {
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            191       "id": "1fcb6de2-5d54-45cf-a42f-751cec4ebe86", 191       "id": "1fcb6de2-5d54-45cf-a42f-751cec4ebe86",
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            195     }, 195     },
            196     { 196     {
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            205   "type": "dataset", 205   "type": "dataset",
            206   "url": null 206   "url": null
            207 } 207 }