Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ...
Airborne observations of snow depth on sea ice were made in April 2019 during the winter campaign of the AWI IceBird campaign series. The data consist of five surveys, some with overlapping segments at low and high altitude, spanning sea-ice covered areas in the Lincoln Sea, Central Arctic Ocean, as...
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Online Access: | https://dx.doi.org/10.1594/pangaea.932785 https://doi.pangaea.de/10.1594/PANGAEA.932785 |
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ftdatacite:10.1594/pangaea.932785 2024-09-09T19:22:18+00:00 Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... Jutila, Arttu King, Joshua Ricker, Robert Hendricks, Stefan Helm, Veit Binder, Tobias Haas, Christian 2021 text/tab-separated-values https://dx.doi.org/10.1594/pangaea.932785 https://doi.pangaea.de/10.1594/PANGAEA.932785 en eng PANGAEA https://dx.doi.org/10.1594/pangaea.932790 https://dx.doi.org/10.1109/tgrs.2021.3063756 Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 Arctic Ocean Cryosphere Sea ice snow depth Reference/source Comment DATE/TIME LATITUDE LONGITUDE Flight altitude Roll angle Pitch angle Fast time range per bin Bin number Refractive index Snow thickness Snow thickness, uncertainty Surface topography, relative Surface temperature Flag Aircraft Internal Navigation System Airborne ultrawideband radar Calculated Airborne Laserscanner ALS RIEGL VQ580 Infrared radiation pyrometer, Heitronics, KT19.85II P6-217_ICEBIRD_2019 POLAR 6 Airborne surveys to collect measurements of sea ice thickness in the Arctic AWI_IceBird Sea Ice Physics @ AWI AWI_SeaIce dataset Dataset 2021 ftdatacite https://doi.org/10.1594/pangaea.93278510.1594/pangaea.93279010.1109/tgrs.2021.3063756 2024-06-17T10:02:52Z Airborne observations of snow depth on sea ice were made in April 2019 during the winter campaign of the AWI IceBird campaign series. The data consist of five surveys, some with overlapping segments at low and high altitude, spanning sea-ice covered areas in the Lincoln Sea, Central Arctic Ocean, as well as the Beaufort Sea. For each flight, the geolocated snow depth data from an airborne frequency-modulated continuous-wave ultrawideband radar using an algorithm based on signal peakiness are provided with a point spacing of approximately 4-5 meters for low-altitude flights and 7-9 meters for high-altitude flights. The trajectory data contain the full and unfiltered data record with quality flags. Longer sections of altitude-flagged data in the low-altitude data arise from calibrations of an EM sensor. Each snow depth value represents the average depth within the radar footprint that has a theoretical smooth surface cross-/along-track diameter of 2.6/1.0 m at low altitude and 7.2/5.1 m at the high altitude. ... Dataset Arctic Arctic Ocean Beaufort Sea Lincoln Sea Sea ice ice covered areas DataCite Arctic Arctic Ocean |
institution |
Open Polar |
collection |
DataCite |
op_collection_id |
ftdatacite |
language |
English |
topic |
Arctic Ocean Cryosphere Sea ice snow depth Reference/source Comment DATE/TIME LATITUDE LONGITUDE Flight altitude Roll angle Pitch angle Fast time range per bin Bin number Refractive index Snow thickness Snow thickness, uncertainty Surface topography, relative Surface temperature Flag Aircraft Internal Navigation System Airborne ultrawideband radar Calculated Airborne Laserscanner ALS RIEGL VQ580 Infrared radiation pyrometer, Heitronics, KT19.85II P6-217_ICEBIRD_2019 POLAR 6 Airborne surveys to collect measurements of sea ice thickness in the Arctic AWI_IceBird Sea Ice Physics @ AWI AWI_SeaIce |
spellingShingle |
Arctic Ocean Cryosphere Sea ice snow depth Reference/source Comment DATE/TIME LATITUDE LONGITUDE Flight altitude Roll angle Pitch angle Fast time range per bin Bin number Refractive index Snow thickness Snow thickness, uncertainty Surface topography, relative Surface temperature Flag Aircraft Internal Navigation System Airborne ultrawideband radar Calculated Airborne Laserscanner ALS RIEGL VQ580 Infrared radiation pyrometer, Heitronics, KT19.85II P6-217_ICEBIRD_2019 POLAR 6 Airborne surveys to collect measurements of sea ice thickness in the Arctic AWI_IceBird Sea Ice Physics @ AWI AWI_SeaIce Jutila, Arttu King, Joshua Ricker, Robert Hendricks, Stefan Helm, Veit Binder, Tobias Haas, Christian Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... |
topic_facet |
Arctic Ocean Cryosphere Sea ice snow depth Reference/source Comment DATE/TIME LATITUDE LONGITUDE Flight altitude Roll angle Pitch angle Fast time range per bin Bin number Refractive index Snow thickness Snow thickness, uncertainty Surface topography, relative Surface temperature Flag Aircraft Internal Navigation System Airborne ultrawideband radar Calculated Airborne Laserscanner ALS RIEGL VQ580 Infrared radiation pyrometer, Heitronics, KT19.85II P6-217_ICEBIRD_2019 POLAR 6 Airborne surveys to collect measurements of sea ice thickness in the Arctic AWI_IceBird Sea Ice Physics @ AWI AWI_SeaIce |
description |
Airborne observations of snow depth on sea ice were made in April 2019 during the winter campaign of the AWI IceBird campaign series. The data consist of five surveys, some with overlapping segments at low and high altitude, spanning sea-ice covered areas in the Lincoln Sea, Central Arctic Ocean, as well as the Beaufort Sea. For each flight, the geolocated snow depth data from an airborne frequency-modulated continuous-wave ultrawideband radar using an algorithm based on signal peakiness are provided with a point spacing of approximately 4-5 meters for low-altitude flights and 7-9 meters for high-altitude flights. The trajectory data contain the full and unfiltered data record with quality flags. Longer sections of altitude-flagged data in the low-altitude data arise from calibrations of an EM sensor. Each snow depth value represents the average depth within the radar footprint that has a theoretical smooth surface cross-/along-track diameter of 2.6/1.0 m at low altitude and 7.2/5.1 m at the high altitude. ... |
format |
Dataset |
author |
Jutila, Arttu King, Joshua Ricker, Robert Hendricks, Stefan Helm, Veit Binder, Tobias Haas, Christian |
author_facet |
Jutila, Arttu King, Joshua Ricker, Robert Hendricks, Stefan Helm, Veit Binder, Tobias Haas, Christian |
author_sort |
Jutila, Arttu |
title |
Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... |
title_short |
Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... |
title_full |
Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... |
title_fullStr |
Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... |
title_full_unstemmed |
Airborne low-altitude snow depth on sea ice during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 1 ... |
title_sort |
airborne low-altitude snow depth on sea ice during aircraft flight p6_217_icebird_2019_1904051001, version 1 ... |
publisher |
PANGAEA |
publishDate |
2021 |
url |
https://dx.doi.org/10.1594/pangaea.932785 https://doi.pangaea.de/10.1594/PANGAEA.932785 |
geographic |
Arctic Arctic Ocean |
geographic_facet |
Arctic Arctic Ocean |
genre |
Arctic Arctic Ocean Beaufort Sea Lincoln Sea Sea ice ice covered areas |
genre_facet |
Arctic Arctic Ocean Beaufort Sea Lincoln Sea Sea ice ice covered areas |
op_relation |
https://dx.doi.org/10.1594/pangaea.932790 https://dx.doi.org/10.1109/tgrs.2021.3063756 |
op_rights |
Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 |
op_doi |
https://doi.org/10.1594/pangaea.93278510.1594/pangaea.93279010.1109/tgrs.2021.3063756 |
_version_ |
1809762572737445888 |