Biblio
Filtre: Forfatter er Sandven, Stein [Slett Alle Filtre]
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)
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).
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).
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).
Interoperable web GIS services for marine pollution monitoring and forecasting. Journal of Coastal Conservation 13, (2009). Abstract
Last ned: fulltext.pdf (1.19 MB)
Mesoscale eddies and chimneys in the marginal ice zone. Journal of Marine Systems 2, 195-208 (1991).
Mesoscale Eddies in the Fram Strait Marginal Ice Zone During the 1983 and 1984 Marginal Ice Zone Experiment. Journal of Geophysical Research (Oceans) 92, 6754-6772 (1987). Last ned: JC092iC07p06754.pdf (2.04 MB)
Meteorological support for navigation along the Northern Sea Route. Polar Geography 18, 327-343 (1994).
Monitoring and modeling of the marine coastal environment. Photogrammetric Engineering and Remote Sensing 59, 351-361 (1993).
Multisensor approach to automated classification of sea ice image data. IEEE Transactions on geoscience and remote sensing 43, 1648-1664 (2005). Abstract
Last ned: bog05.pdf (2.31 MB)
Near-real-time sea ice monitoring in the Northern Sea route using ERS-1 SAR and DMSP SSM/I microwave data. Acta Astronautica 38, 457-465 (1996).
New technology reveals the Arctic´s secrets. International Innovation (2009).på <www.researchmedia.eu> Last ned: Slp111030311581.pdf (697.61 KB); Slp111030311590.pdf (443.75 KB)
Polar Ocean Observations: A critical gap in the observing system and its effect on environmental predictions from hours to a season. Frontiers in Marine Science (2019).doi:10.3389/fmars.2019.00429
A process study of mesoscale meanders and eddies in the Norwegian Coastal current. Journal of Physical Oceanography 19, 18-32 (1989).
Radar signatures distinctive features of ice of the Gulf of Finland, Ladoga and Onega Lakes as retrieved from ERS images. Earth Observation and Remote Sensing 1-10 (2002).
