Biblio
Filtre: Forfatter er Sandven, Stein [Slett Alle Filtre]
Arctic icebergs detection using SAR and visible high resolution satellite images. Earth Research from Space 12 (2008).på <http://www.maik.ru/cgi-perl/journal.pl?lang=eng&name=iszem>
Arctic sea ice and Eurasian climate: A review. Advances in Atmospheric Sciences 32, (2014). Last ned: gao_etal_2015_arctic_sea_ice_and_eurasian_climate_a_review.pdf (4.59 MB)
Arctic sea ice transformation revealed from satellite passive microwave data. Problemy Arktiki i Antarktiki (Problems of the Arctic and Antarctic) 78, 38-47 (2008).
Barents Sea seasonal ice Zone features and processes from ERS 1 synthetic aperture radar: Seasonal Ice Zone Experiment 1992. Journal of Geophysical Research 104, 15843-15857 (1999). Abstract
Benchmarking CMIP5 models with a subset of ESA CCI Phase 2 data using the ESMValTool. Remote Sensing of Environment 203, (2017).
Classification of sea ice types in ENVISAT synthetic aperture radar images. IEEE Transactions on Geoscience and Remote Sensing 51, (2013). Abstract
CoCoNet: Towards Coast to Coast Networks of Marine Protected Areas (from the shore to the high and deep sea), coupled with Sea-Based Wind Energy Potential. SCIRES-IT : SCIentific RESearch and Information Technology 6, (2016).
CoCoNet: Towards Coast to Coast Networks of Marine Protected Areas (from the shore to the high and deep sea), coupled with Sea-Based Wind Energy Potential. SCIRES-IT SCIentific RESearch and Information Technology 6, (2017).
Comparison of sea ice signatures in OKEAN and RADARSAT radar images for the northeastern Barents Sea. Canadian Journal of Remote Sensing 30, 882-892 (2004).
Detection of Arctic icebergs on the base of satellite information. Earth Research from Space 44-55 (2008).på <http://www.maik.ru/cgi-perl/journal.pl?lang=eng&name=iszem>
Determination of Ice Drift from Ocean Satelite Radar Images Using a Cross-Correlation Algorithm. Earth Observation and Remote Sensing 16, 647-657 (2001).
Efficient Thermal Noise Removal for Sentinel-1 TOPSAR Cross-Polarization Channel. IEEE Transactions on Geoscience and Remote Sensing 56, (2018).
ERS-1/2 SAR monitoring of dangerous ice phenomena along the western part of the Northern Sea Route. International Journal of Remote Sensing 18, 2477-2481 (1997). Last ned: ERS 1_2-SAR.pdf (882.24 KB)
The ESA Climate Change Initiative: satellite data records for essential climate variables. Bulletin of The American Meteorological Society - (BAMS) 94, (2013).
Forecasting Waves-in-ice for Arctic Operators. Exploration and Production: Oil and Gas Review 9, (2011). Last ned: Dumont_Final.pdf (212.76 KB)
A Framework for the Development, Design and Implementation of a Sustained Arctic Ocean Observing System. Frontiers in Marine Science (2019).
High-frequency internal wave observations in the Marginal Ice Zone. Journal of Geophysical Research (Oceans) 92, (1987). Last ned: JC092iC07p06911.pdf (996.83 KB)
Hotspots in Ambient Noise Caused by Ice Edge Eddies in the Greenland Sea and the Barents Sea. IEEE Journal of Oceanic Engineering 28, 212-228 (2003).
Ice bottom evolution derived from thermistor string-based ice mass balance buoy observations. International Journal of Digital Earth 16, (2023).
ICEWATCH - Real-time Sea ice Monitoring in the Northern Sea Route a Cooperative earth observation project between the Russian and European Space Agencies. Earth Observation and Remote Sensing 16, 269-291 (2000).
The impact of snow depth, snow density and ice density on sea ice thickness retrieval from satellite radar altimetry: results from the ESA-CCI Sea Ice ECV Project Round Robin Exercise. The Cryosphere (2015).doi:10.5194/tc-9-37-2015
Importance of fast ice and glacier fronts for female polar bears and their cubs during spring in Svabard,Norway. Marine Ecology Progress Series 447, 16 (2012).
Importance of fast ice and glacier fronts for female polar bears and their cubs during spring in Svalbard, Norway. Marine Ecology Progress Series 447, (2012).
