_version_ 1867170430592221184
author Haas, Christian
Hendricks, Stefan
Krumpen, Thomas
author_facet Haas, Christian
Hendricks, Stefan
Krumpen, Thomas
collection Datos científicos de ciencias marinas y ambientales
contents Sea ice surface roughness data were obtained during the CASIMBO campaign in May, 2018 with a Single Beam Laser Altimeter (SBLA) mounted inside an electromagnetic system (EM-Bird) towed at 10-30 m height above surface by an Airplane (Basler BT-67). A method developed by Hibler (1972) was used to a) isolate the surface profile from low-frequency variations associated with the aircraft motion and b) to identify pressure ridge sails. The processing steps are described in https://epic.awi.de/id/eprint/56364/. We applied a ridge detection threshold of 0.6 m, which means that only sails higher 0.6 m are detected. Version and name of the processing routine: Laser_Altimeter_Processing_VS5_06_20.py (vers.5, Feb 22, 2024, https://gitlab.awi.de/sitem/sbla_processing.git). SBLA records (RIEGL - LD90) are provided at a sampling rate of 100 Hz. Sensor accuracy is 5 cm with a beam diameter at surface of 5.8 cm. This specific dataset was obtained on 20180503T1751. It includes recorded altimeter readings, the derived surface elevation and width/height/spacing of detected pressure ridge sails. Note on data quality: 5.8 cm . File name: [DMS/PANGAEA Campaing Identifier] + [DEVICE] + [DATE/TIME] + [LAT/LON] + [Detection Threshold] + [Object] + [Version] + [Format]
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_970336
institution PANGAEA
language en
publishDate 2024
publisher PANGAEA
record_format pangaea
spellingShingle Laser altimeter data obtained over sea-ice during the CASIMBO campaign in May, 2018; profile CAS2018_SBLA_20180503T1751_86.31_-80.43_thr06_data_Vers5
Haas, Christian
Hendricks, Stefan
Krumpen, Thomas
Airplane Basler BT-67; CAS2018; CAS2018_SBLA_20180503T175356; CASIMBO; DATE/TIME; HEIGHT above ground; Laser Altimeter; LATITUDE; LONGITUDE; POINT DISTANCE from start; Ridge boundary, left; Ridge boundary, right; Ridge Height; Ridge height, maximum; Ridge Spacing; Ridge spacing, typical; Ridge width; Ridge Width; SBLA; Sea Ice Surface Roughness; Single beam laser altimeter; Single beam laser altimeter; processed with laser_Altimeter_Processing_VS5_06_20.py; Surface elevation; Time in seconds
Sea ice surface roughness data were obtained during the CASIMBO campaign in May, 2018 with a Single Beam Laser Altimeter (SBLA) mounted inside an electromagnetic system (EM-Bird) towed at 10-30 m height above surface by an Airplane (Basler BT-67). A method developed by Hibler (1972) was used to a) isolate the surface profile from low-frequency variations associated with the aircraft motion and b) to identify pressure ridge sails. The processing steps are described in https://epic.awi.de/id/eprint/56364/. We applied a ridge detection threshold of 0.6 m, which means that only sails higher 0.6 m are detected. Version and name of the processing routine: Laser_Altimeter_Processing_VS5_06_20.py (vers.5, Feb 22, 2024, https://gitlab.awi.de/sitem/sbla_processing.git). SBLA records (RIEGL - LD90) are provided at a sampling rate of 100 Hz. Sensor accuracy is 5 cm with a beam diameter at surface of 5.8 cm. This specific dataset was obtained on 20180503T1751. It includes recorded altimeter readings, the derived surface elevation and width/height/spacing of detected pressure ridge sails. Note on data quality: 5.8 cm . File name: [DMS/PANGAEA Campaing Identifier] + [DEVICE] + [DATE/TIME] + [LAT/LON] + [Detection Threshold] + [Object] + [Version] + [Format]
title Laser altimeter data obtained over sea-ice during the CASIMBO campaign in May, 2018; profile CAS2018_SBLA_20180503T1751_86.31_-80.43_thr06_data_Vers5
topic Airplane Basler BT-67; CAS2018; CAS2018_SBLA_20180503T175356; CASIMBO; DATE/TIME; HEIGHT above ground; Laser Altimeter; LATITUDE; LONGITUDE; POINT DISTANCE from start; Ridge boundary, left; Ridge boundary, right; Ridge Height; Ridge height, maximum; Ridge Spacing; Ridge spacing, typical; Ridge width; Ridge Width; SBLA; Sea Ice Surface Roughness; Single beam laser altimeter; Single beam laser altimeter; processed with laser_Altimeter_Processing_VS5_06_20.py; Surface elevation; Time in seconds
url https://doi.org/10.1594/PANGAEA.970336