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| "author": "[{\"affiliation\": \"WSL Institute for Snow and Avalanche | | "author": "[{\"affiliation\": \"WSL Institute for Snow and Avalanche |
| Research SLF, Davos, Switzerland\", \"affiliation_02\": \"\", | | Research SLF, Davos, Switzerland\", \"affiliation_02\": \"\", |
| \"affiliation_03\": \"\", \"data_credit\": [\"collection\", | | \"affiliation_03\": \"\", \"data_credit\": [\"collection\", |
| \"validation\", \"software\", \"publication\"], \"email\": | | \"validation\", \"software\", \"publication\"], \"email\": |
| \"bastian.bergfeld@slf.ch\", \"given_name\": \"Bastian\", | | \"bastian.bergfeld@slf.ch\", \"given_name\": \"Bastian\", |
| \"identifier\": \"0000-0002-3316-1922\", \"name\": \"Bergfeld\"}, | | \"identifier\": \"0000-0002-3316-1922\", \"name\": \"Bergfeld\"}, |
| {\"affiliation\": \"WSL Institute for Snow and Avalanche Research SLF, | | {\"affiliation\": \"WSL Institute for Snow and Avalanche Research SLF, |
| Davos, Switzerland\", \"affiliation_02\": \"SLF\", \"affiliation_03\": | | Davos, Switzerland\", \"affiliation_02\": \"SLF\", \"affiliation_03\": |
| \"\", \"data_credit\": [\"collection\", \"publication\", | | \"\", \"data_credit\": [\"collection\", \"publication\", |
| \"supervision\"], \"email\": \"vanherwijnen@slf.ch\", \"given_name\": | | \"supervision\"], \"email\": \"vanherwijnen@slf.ch\", \"given_name\": |
| \"Alec\", \"identifier\": \"0000-0001-5637-6486\", \"name\": \"van | | \"Alec\", \"identifier\": \"0000-0001-5637-6486\", \"name\": \"van |
| Herwijnen\"}, {\"affiliation\": \"WSL Institute for Snow and Avalanche | | Herwijnen\"}, {\"affiliation\": \"WSL Institute for Snow and Avalanche |
| Research SLF, Davos, Switzerland\", \"affiliation_02\": \"\", | | Research SLF, Davos, Switzerland\", \"affiliation_02\": \"\", |
| \"affiliation_03\": \"\", \"data_credit\": [\"curation\", | | \"affiliation_03\": \"\", \"data_credit\": [\"curation\", |
| \"software\"], \"email\": \"gregoire.bobillier@slf.ch\", | | \"software\"], \"email\": \"gregoire.bobillier@slf.ch\", |
| \"given_name\": \"Gr\\u00e9goire\", \"identifier\": \"\", \"name\": | | \"given_name\": \"Gr\\u00e9goire\", \"identifier\": \"\", \"name\": |
| \"Bobillier\"}, {\"affiliation\": \"Univ. Grenoble Alpes, CNRS, | | \"Bobillier\"}, {\"affiliation\": \"Univ. Grenoble Alpes, CNRS, |
| ISTerre Grenoble, FR\", \"affiliation_02\": \"\", \"affiliation_03\": | | ISTerre Grenoble, FR\", \"affiliation_02\": \"\", \"affiliation_03\": |
| \"Univ. Grenoble Alpes, CNRS, ISTerre Grenoble, FR\", \"data_credit\": | | \"Univ. Grenoble Alpes, CNRS, ISTerre Grenoble, FR\", \"data_credit\": |
| [\"curation\", \"software\"], \"email\": | | [\"curation\", \"software\"], \"email\": |
| \"eric.larose@univ-grenoble-alpes.fr\", \"given_name\": \"Eric\", | | \"eric.larose@univ-grenoble-alpes.fr\", \"given_name\": \"Eric\", |
| \"identifier\": \"\", \"name\": \"Larose\"}, {\"affiliation\": \"Univ. | | \"identifier\": \"\", \"name\": \"Larose\"}, {\"affiliation\": \"Univ. |
| Grenoble Alpes, CNRS, ISTerre Grenoble, FR\", \"affiliation_02\": | | Grenoble Alpes, CNRS, ISTerre Grenoble, FR\", \"affiliation_02\": |
| \"\", \"affiliation_03\": \"\", \"data_credit\": [\"curation\", | | \"\", \"affiliation_03\": \"\", \"data_credit\": [\"curation\", |
| \"software\"], \"email\": \"ludovic.moreau@univ-grenoble-alpes.fr\", | | \"software\"], \"email\": \"ludovic.moreau@univ-grenoble-alpes.fr\", |
| \"given_name\": \"Ludovic\", \"identifier\": \"\", \"name\": | | \"given_name\": \"Ludovic\", \"identifier\": \"\", \"name\": |
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| Simulation Laboratory Lausanne, VD, CH\", \"affiliation_02\": \"\", | | Simulation Laboratory Lausanne, VD, CH\", \"affiliation_02\": \"\", |
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| \"software\"], \"email\": \"bertil.trottet@epfl.ch\", \"given_name\": | | \"software\"], \"email\": \"bertil.trottet@epfl.ch\", \"given_name\": |
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| {\"affiliation\": \"EPFL, SLAB Snow and Avalanche Simulation | | {\"affiliation\": \"EPFL, SLAB Snow and Avalanche Simulation |
| Laboratory Lausanne, VD, CH\", \"affiliation_02\": \"\", | | Laboratory Lausanne, VD, CH\", \"affiliation_02\": \"\", |
| \"affiliation_03\": \"\", \"data_credit\": [\"curation\", | | \"affiliation_03\": \"\", \"data_credit\": [\"curation\", |
| \"software\"], \"email\": \"johan.gaume@epfl.ch\", \"given_name\": | | \"software\"], \"email\": \"johan.gaume@epfl.ch\", \"given_name\": |
| \"Johan\", \"identifier\": \"0000-0001-8931-752X\", \"name\": | | \"Johan\", \"identifier\": \"0000-0001-8931-752X\", \"name\": |
| \"Gaume\"}, {\"affiliation\": \"WSL Institute for Snow and Avalanche | | \"Gaume\"}, {\"affiliation\": \"WSL Institute for Snow and Avalanche |
| Research SLF, Snow Avalanches and Prevention Davos Dorf, CH\", | | Research SLF, Snow Avalanches and Prevention Davos Dorf, CH\", |
| \"affiliation_02\": \"\", \"affiliation_03\": \"\", \"data_credit\": | | \"affiliation_02\": \"\", \"affiliation_03\": \"\", \"data_credit\": |
| [\"collection\", \"software\"], \"email\": \"janic.cathomen@slf.ch\", | | [\"collection\", \"software\"], \"email\": \"janic.cathomen@slf.ch\", |
| \"given_name\": \"Janic\", \"identifier\": \"\", \"name\": | | \"given_name\": \"Janic\", \"identifier\": \"\", \"name\": |
| \"Cathomen\"}, {\"affiliation\": \"Institute for Mechanical Systems, | | \"Cathomen\"}, {\"affiliation\": \"Institute for Mechanical Systems, |
| ETH Zurich, Zurich, Switzerland\", \"affiliation_02\": \"ETH | | ETH Zurich, Zurich, Switzerland\", \"affiliation_02\": \"ETH |
| Z\\u00fcrich\", \"affiliation_03\": \"\", \"data_credit\": | | Z\\u00fcrich\", \"affiliation_03\": \"\", \"data_credit\": |
| \"supervision\", \"email\": \"dual@imes.mavt.ethz.ch\", | | \"supervision\", \"email\": \"dual@imes.mavt.ethz.ch\", |
| \"given_name\": \"J\\u00fcrg\", \"identifier\": | | \"given_name\": \"J\\u00fcrg\", \"identifier\": |
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| Institute for Snow and Avalanche Research SLF, Snow Avalanches and | | Institute for Snow and Avalanche Research SLF, Snow Avalanches and |
| Prevention Davos Dorf, CH\", \"affiliation_02\": \"\", | | Prevention Davos Dorf, CH\", \"affiliation_02\": \"\", |
| \"affiliation_03\": \"\", \"data_credit\": \"supervision\", \"email\": | | \"affiliation_03\": \"\", \"data_credit\": \"supervision\", \"email\": |
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| "creator_user_id": "c8312541-12f8-4533-a778-53f3d3e6a99b", | | "creator_user_id": "c8312541-12f8-4533-a778-53f3d3e6a99b", |
| "date": "[{\"date\": \"2021-10-11\", \"date_type\": \"created\", | | "date": "[{\"date\": \"2021-10-11\", \"date_type\": \"created\", |
| \"end_date\": \"\"}]", | | \"end_date\": \"\"}]", |
| "doi": "10.16904/envidat.250", | | "doi": "10.16904/envidat.250", |
| "funding": "[{\"grant_number\": \"200021_169424\", \"institution\": | | "funding": "[{\"grant_number\": \"200021_169424\", \"institution\": |
| \"Swiss National Science Foundation\", \"institution_url\": \"\"}]", | | \"Swiss National Science Foundation\", \"institution_url\": \"\"}]", |
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| "language": "en", | | "language": "en", |
| "license_id": "wsl-data", | | "license_id": "wsl-data", |
| "license_title": "WSL Data Policy", | | "license_title": "WSL Data Policy", |
| "license_url": | | "license_url": |
| ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html", | | ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html", |
| "maintainer": "{\"affiliation\": \"WSL Institute for Snow and | | "maintainer": "{\"affiliation\": \"WSL Institute for Snow and |
| Avalanche Research SLF, Davos, Switzerland\", \"email\": | | Avalanche Research SLF, Davos, Switzerland\", \"email\": |
| \"bastian.bergfeld@slf.ch\", \"given_name\": \"Bastian\", | | \"bastian.bergfeld@slf.ch\", \"given_name\": \"Bastian\", |
| \"identifier\": \"0000-0002-3316-1922\", \"name\": \"Bergfeld\"}", | | \"identifier\": \"0000-0002-3316-1922\", \"name\": \"Bergfeld\"}", |
| "maintainer_email": null, | | "maintainer_email": null, |
| "metadata_created": "2021-10-11T10:11:44.154892", | | "metadata_created": "2021-10-11T10:11:44.154892", |
n | "metadata_modified": "2021-10-12T07:22:13.529989", | n | "metadata_modified": "2021-10-12T07:26:04.059620", |
| "name": "crack-propagation-speeds-in-weak-snowpack-layers", | | "name": "crack-propagation-speeds-in-weak-snowpack-layers", |
| "notes": "For the release of a slab avalanche, crack propagation | | "notes": "For the release of a slab avalanche, crack propagation |
| within a weak snowpack layer below a cohesive snow slab is required. | | within a weak snowpack layer below a cohesive snow slab is required. |
| As crack speed measurements can give insight into the underlying | | As crack speed measurements can give insight into the underlying |
| processes, we analysed three crack propagation events that occurred in | | processes, we analysed three crack propagation events that occurred in |
| similar snowpacks and covered all scales relevant for avalanche | | similar snowpacks and covered all scales relevant for avalanche |
| release. For the largest scale, up to 400 m, we estimated crack speed | | release. For the largest scale, up to 400 m, we estimated crack speed |
| from an avalanche movie, for scales between 5 and 25 meters, we used | | from an avalanche movie, for scales between 5 and 25 meters, we used |
| accelerometers placed on the snow surface, and for scales below 5 | | accelerometers placed on the snow surface, and for scales below 5 |
| meters, we performed a Propagation Saw Test. The mean crack speeds | | meters, we performed a Propagation Saw Test. The mean crack speeds |
| ranged from 36 \u00b1 6 to 49 \u00b1 5 m s 1, and did not exhibit | | ranged from 36 \u00b1 6 to 49 \u00b1 5 m s 1, and did not exhibit |
| scale dependence. Using the Discrete Element Method and the Material | | scale dependence. Using the Discrete Element Method and the Material |
| Point Method, we reproduced the measured crack speeds reasonably well, | | Point Method, we reproduced the measured crack speeds reasonably well, |
| in particular the terminal crack speed observed at smaller | | in particular the terminal crack speed observed at smaller |
| scales.\r\nThis dataset includes raw data as well as crack speed | | scales.\r\nThis dataset includes raw data as well as crack speed |
| estimates from the three crack propagation events. \r\nWhere possible, | | estimates from the three crack propagation events. \r\nWhere possible, |
| we reproduced these field experiments with numerical models based on | | we reproduced these field experiments with numerical models based on |
| Discrete Element Method (DEM, Bobillier and others, 2020 and 2021) and | | Discrete Element Method (DEM, Bobillier and others, 2020 and 2021) and |
| Material Point Method (MPM. Gaume and others, 2018 and Trottet and | | Material Point Method (MPM. Gaume and others, 2018 and Trottet and |
| others, 2021). The input parameters of the models were estimated from | | others, 2021). The input parameters of the models were estimated from |
| the corresponding snow profiles conducted at each test site.\r\n\r\n## | | the corresponding snow profiles conducted at each test site.\r\n\r\n## |
| The raw data include:\r\n* Propagation Saw Test movie with mechanical | | The raw data include:\r\n* Propagation Saw Test movie with mechanical |
| fields derived from Digital image Correlation analysis of the | | fields derived from Digital image Correlation analysis of the |
| recording\r\n* Acceleration data recorded with wireless time | | recording\r\n* Acceleration data recorded with wireless time |
| synchronized accelerometers placed on the snow surface during crack | | synchronized accelerometers placed on the snow surface during crack |
| propagation in a whumpf.\r\n*Video of an artificially triggered | | propagation in a whumpf.\r\n*Video of an artificially triggered |
| avalanche with widespread crack propagation. The video was used to | | avalanche with widespread crack propagation. The video was used to |
| georeference surface cracks in order to estimate crack propagation | | georeference surface cracks in order to estimate crack propagation |
| time and distance, providing crack propagation speed estimates.\r\n* | | time and distance, providing crack propagation speed estimates.\r\n* |
| Snow profile recorded at each test site\r\n\r\n## Experimental crack | | Snow profile recorded at each test site\r\n\r\n## Experimental crack |
| speed estimates include:\r\n* Crack speed evolution within the first | | speed estimates include:\r\n* Crack speed evolution within the first |
| meters derived from the Propagation Saw Test.\r\n* Crack speeds | | meters derived from the Propagation Saw Test.\r\n* Crack speeds |
| estimated from the time delay of the collapse, observed between | | estimated from the time delay of the collapse, observed between |
| different accelerometers during crack propagation of a whumpf.\r\n* | | different accelerometers during crack propagation of a whumpf.\r\n* |
| Crack speed estimates from video analysis of the artificially | | Crack speed estimates from video analysis of the artificially |
| triggered avalanche.\r\n\r\n## Reproduced crack speeds using the DEM | | triggered avalanche.\r\n\r\n## Reproduced crack speeds using the DEM |
| an MPM model:\r\n* Modelled Propagation Saw Test using MPM (2D and 3D | | an MPM model:\r\n* Modelled Propagation Saw Test using MPM (2D and 3D |
| system) and DEM.\r\n* Modelled whumpf using MPM (beam and areal | | system) and DEM.\r\n* Modelled whumpf using MPM (beam and areal |
| configuration)\r\n* Modelled avalanche using MPM (beam and areal | | configuration)\r\n* Modelled avalanche using MPM (beam and areal |
| configuration)\r\n\r\nBeside the movies (mp4 format), all data is | | configuration)\r\n\r\nBeside the movies (mp4 format), all data is |
| either provided as netCDF files or excel sheets (see readme file), | | either provided as netCDF files or excel sheets (see readme file), |
| depending on the amount of data. A detailed description of the three | | depending on the amount of data. A detailed description of the three |
| crack propagation events and how crack speed was derived, can be found | | crack propagation events and how crack speed was derived, can be found |
| in the related publication:\r\n\r\n\r\n\r\n### References: | | in the related publication:\r\n\r\n\r\n\r\n### References: |
| \r\nBobillier, G., B. Bergfeld, A. Capelli, J. Dual, J. Gaume, A. van | | \r\nBobillier, G., B. Bergfeld, A. Capelli, J. Dual, J. Gaume, A. van |
| Herwijnen and J. Schweizer 2020. Micromechanical modeling of snow | | Herwijnen and J. Schweizer 2020. Micromechanical modeling of snow |
n | failure. The Cryosphere, 14(1): 39-49. \\\r\nBobillier, G., B. | n | failure. The Cryosphere, 14(1): 39-49.\r\n\r\nBobillier, G., B. |
| Bergfeld, J. Dual, J. Gaume, A. van Herwijnen and J. Schweizer 2021. | | Bergfeld, J. Dual, J. Gaume, A. van Herwijnen and J. Schweizer 2021. |
| Micro-mechanical insights into the dynamics of crack propagation in | | Micro-mechanical insights into the dynamics of crack propagation in |
t | snow fracture experiments. Scientific Reports, 11: 11711. \\\r\nGaume, | t | snow fracture experiments. Scientific Reports, 11: |
| J., T. Gast, J. Teran, A. van Herwijnen and C. Jiang 2018. Dynamic | | 11711.\r\n\r\nGaume, J., T. Gast, J. Teran, A. van Herwijnen and C. |
| anticrack propagation in snow. Nature Communications, 9(1): | | Jiang 2018. Dynamic anticrack propagation in snow. Nature |
| 3047.\\\r\nTrottet, B., R. Simenhois, G. Bobillier, A. van Herwijnen, | | Communications, 9(1): 3047.\r\n\r\nTrottet, B., R. Simenhois, G. |
| C. Jiang and J. Gaume 2021. From sub-Rayleigh to intersonic crack | | Bobillier, A. van Herwijnen, C. Jiang and J. Gaume 2021. From |
| propagation in snow slab avalanche release. EGU General Assembly 2021, | | sub-Rayleigh to intersonic crack propagation in snow slab avalanche |
| Online, 19-30 Apr 2021, EGU21-8253.\r\n", | | release. EGU General Assembly 2021, Online, 19-30 Apr 2021, |
| | | EGU21-8253.\r\n", |
| "num_resources": 2, | | "num_resources": 2, |
| "num_tags": 7, | | "num_tags": 7, |
| "organization": { | | "organization": { |
| "approval_status": "approved", | | "approval_status": "approved", |
| "created": "2019-09-27T12:40:13.473824", | | "created": "2019-09-27T12:40:13.473824", |
| "description": "Snow avalanches \u2013 a type of fast-moving mass | | "description": "Snow avalanches \u2013 a type of fast-moving mass |
| movement \u2013 occur in snow covered mountain areas throughout the | | movement \u2013 occur in snow covered mountain areas throughout the |
| world and may cause property damage and loss of life as they interfere | | world and may cause property damage and loss of life as they interfere |
| with human activities. Most avalanches release from terrain steeper | | with human activities. Most avalanches release from terrain steeper |
| than about 30\u00b0 during or soon after snow storms, or are triggered | | than about 30\u00b0 during or soon after snow storms, or are triggered |
| by snow loading due to wind, or by a temperature change. Snow slab | | by snow loading due to wind, or by a temperature change. Snow slab |
| avalanches can also be triggered artificially by, for example, people | | avalanches can also be triggered artificially by, for example, people |
| (usually unintentionally) or intentionally by explosives used as part | | (usually unintentionally) or intentionally by explosives used as part |
| of avalanche control programs. Today, most avalanche fatalities are | | of avalanche control programs. Today, most avalanche fatalities are |
| recreationists. Independent of the triggering mode, the snowpack | | recreationists. Independent of the triggering mode, the snowpack |
| layering is decisive for the instability of the snowpack which | | layering is decisive for the instability of the snowpack which |
| consists of layers with varying properties. The complex microstructure | | consists of layers with varying properties. The complex microstructure |
| of snow and spatial variations in snow layer properties across the | | of snow and spatial variations in snow layer properties across the |
| terrain limit the predictability of snow avalanches. Even today, it is | | terrain limit the predictability of snow avalanches. Even today, it is |
| not possible to predict the exact location, time and extent of an | | not possible to predict the exact location, time and extent of an |
| avalanche event. Improving avalanche prediction requires a better | | avalanche event. Improving avalanche prediction requires a better |
| understanding of the underlying processes. ", | | understanding of the underlying processes. ", |
| "id": "a357f01f-845b-4b61-9ad0-f204d3332c52", | | "id": "a357f01f-845b-4b61-9ad0-f204d3332c52", |
| "image_url": "2019-09-27-104013.456832slf.png", | | "image_url": "2019-09-27-104013.456832slf.png", |
| "is_organization": true, | | "is_organization": true, |
| "name": "avalanche-formation", | | "name": "avalanche-formation", |
| "state": "active", | | "state": "active", |
| "title": "Avalanche Formation", | | "title": "Avalanche Formation", |
| "type": "organization" | | "type": "organization" |
| }, | | }, |
| "owner_org": "a357f01f-845b-4b61-9ad0-f204d3332c52", | | "owner_org": "a357f01f-845b-4b61-9ad0-f204d3332c52", |
| "private": false, | | "private": false, |
| "publication": "{\"publication_year\": \"2021\", \"publisher\": | | "publication": "{\"publication_year\": \"2021\", \"publisher\": |
| \"EnviDat\"}", | | \"EnviDat\"}", |
| "publication_state": "reserved", | | "publication_state": "reserved", |
| "related_datasets": "", | | "related_datasets": "", |
| "related_publications": "DOI will be added after publication!", | | "related_publications": "DOI will be added after publication!", |
| "relationships_as_object": [], | | "relationships_as_object": [], |
| "relationships_as_subject": [], | | "relationships_as_subject": [], |
| "resource_type": "datapaper", | | "resource_type": "datapaper", |
| "resource_type_general": "datapaper", | | "resource_type_general": "datapaper", |
| "resources": [ | | "resources": [ |
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| "created": "2021-10-11T12:38:43.593437", | | "created": "2021-10-11T12:38:43.593437", |
| "description": "Please find the readme file.\r\n", | | "description": "Please find the readme file.\r\n", |
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| "format": "ZIP", | | "format": "ZIP", |
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| "restricted": "{\"level\": \"public\", \"allowed_users\": \"\", | | "restricted": "{\"level\": \"public\", \"allowed_users\": \"\", |
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| "size": 2507, | | "size": 2507, |
| "state": "active", | | "state": "active", |
| "url": | | "url": |
| 1c/resource/a900aa3c-ab2b-4d31-bf35-d45906ebf869/download/readme.txt", | | 1c/resource/a900aa3c-ab2b-4d31-bf35-d45906ebf869/download/readme.txt", |
| "url_type": "upload" | | "url_type": "upload" |
| } | | } |
| ], | | ], |
| "spatial": | | "spatial": |
| e\":\"Point\",\"coordinates\":[9.870043694972992,46.80772203292321]}", | | e\":\"Point\",\"coordinates\":[9.870043694972992,46.80772203292321]}", |
| "spatial_info": "Switzerland", | | "spatial_info": "Switzerland", |
| "state": "active", | | "state": "active", |
| "subtitle": "", | | "subtitle": "", |
| "tags": [ | | "tags": [ |
| { | | { |
| "display_name": "CRACK SPEED", | | "display_name": "CRACK SPEED", |
| "id": "0d0ce2ba-083f-46d0-9c53-4cade5604d12", | | "id": "0d0ce2ba-083f-46d0-9c53-4cade5604d12", |
| "name": "CRACK SPEED", | | "name": "CRACK SPEED", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "DYNAMIC CRACK PROPAGATION", | | "display_name": "DYNAMIC CRACK PROPAGATION", |
| "id": "407cf4d2-8acb-4745-a4a4-595dae6c9ecc", | | "id": "407cf4d2-8acb-4745-a4a4-595dae6c9ecc", |
| "name": "DYNAMIC CRACK PROPAGATION", | | "name": "DYNAMIC CRACK PROPAGATION", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "PROPAGATION SAW TEST", | | "display_name": "PROPAGATION SAW TEST", |
| "id": "7e60b749-5e17-403a-9f87-c93b4ea16825", | | "id": "7e60b749-5e17-403a-9f87-c93b4ea16825", |
| "name": "PROPAGATION SAW TEST", | | "name": "PROPAGATION SAW TEST", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "SLAB AVALANCHE", | | "display_name": "SLAB AVALANCHE", |
| "id": "a558ceb8-85af-4218-81f7-0eab7ebe1004", | | "id": "a558ceb8-85af-4218-81f7-0eab7ebe1004", |
| "name": "SLAB AVALANCHE", | | "name": "SLAB AVALANCHE", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "SNOW", | | "display_name": "SNOW", |
| "id": "c4e9ea3f-6149-45ce-8631-c872b96a9537", | | "id": "c4e9ea3f-6149-45ce-8631-c872b96a9537", |
| "name": "SNOW", | | "name": "SNOW", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "WEAK LAYER", | | "display_name": "WEAK LAYER", |
| "id": "f90a25b6-fbe6-4bcc-91a3-709775a585a7", | | "id": "f90a25b6-fbe6-4bcc-91a3-709775a585a7", |
| "name": "WEAK LAYER", | | "name": "WEAK LAYER", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "WHUMPF", | | "display_name": "WHUMPF", |
| "id": "c251dbdc-f8c8-46f6-99e5-0c0df78d4db3", | | "id": "c251dbdc-f8c8-46f6-99e5-0c0df78d4db3", |
| "name": "WHUMPF", | | "name": "WHUMPF", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| } | | } |
| ], | | ], |
| "title": "Crack propagation speeds in weak snowpack layers from | | "title": "Crack propagation speeds in weak snowpack layers from |
| three events: PST, whumpf and slab avalanche.", | | three events: PST, whumpf and slab avalanche.", |
| "type": "dataset", | | "type": "dataset", |
| "url": null, | | "url": null, |
| "version": "1.0" | | "version": "1.0" |
| } | | } |