Biblio
Filters: First Letter Of Title is W [Clear All Filters]
World wide wind energy. EnviroTechnology 32-37 (2004).
WMO Global Annual to Decadal Climate Update A Prediction for 2021-25. Bulletin of The American Meteorological Society - (BAMS) 103, (2022).
Wintertime cyclone/anticyclone activity over China and its relation to upper tropospheric jets. Tellus A: Dynamic Meteorology and Oceanography 66:21889, (2014).
Wintertime Cyclone Activity and Its Relation to Precipitation over China. Atmospheric and Oceanic Science Letters 6, (2013).
Winter SST predictability in the Nordic Seas (talk). European Geosciences Union General Assembly 2015 (2015).
Winter Geostrophic Circulation in the Gulf of St. Lawrence. Journal of Fisheries Research Board of Canada 29, (1972).
Wind-Speed Undulations Over Swell: Field Experiment and Interpretation. Boundary-layer Meteorology (2010).doi:10.1007/s10546-010-9506-z Download: fulltext-33.pdf (1.49 MB)
Wind-induced cross-shelf flux of water masses and organic matter at the Gulf of Tehuantepec. Deep Sea Research Part I: Oceanographic Research Papers 221-246 (2008).
Wind Stress in the Coastal Zone: Observations from a Buoy in Southwestern Norway. Atmosphere 10, (2019).
Wind stress and turbulence over ice in the Gulf of St. Lawrence. Journal of Geophysical Research 75, 2803-2812 (1970).
Wind Retrieval over the Ocean from Combined Use of Synthetic Aperture Radar and Weather Forecast Models. ESA Living Planet Symposium (2010).at <http://www.esa.int/SPECIALS/Living_Planet_Symposium_2010/index.html> Download: Dagestad_LivingPlanet_BayesianWind.pdf (5.93 MB)
Wind retrieval from ERS Synthetic Aperture Radar images - application in the marginal ice zone and in coastal regions. Doctoral Thesis No. 29 (2001).
Wind forced oceanic responses near ice edges revisited. Journal of Marine Systems 57-79 (1998).
Wind field retrieval from Synthetic Aperature Radar compared with Scatterometer wind field during the ERS Tandem Phase. In proceedings for the 27th International Symposium on Remote Sensing of Environment Information for Sustainabilty Tromsø, Norway, organized by International Symposia on Remote Sensing of Environment (ISRSE) and the Norwegian Space Centre (NSC) 201-204 (1998).
Wind field retrieval from SAR compared with scattometer wind field during ERS Tandem phase. Earth Observation Quarterly, European Space Agency 23-26 (1998).
Wind Energy Mapping using Synthetic Aperture Radar (WEMSAR). CERSAT News special issue "Ocean Winds", Workshop on present and emerging remote sensing methods, Brest, France 19-21 June and in Advances in Wind Energy RTD - From FP4 towards FP5. 3-5 May, Contractor´s Meeting, National Technical Univ. of Athens (2000).
Wind Energy Mapping using Synthetic Aperture Radar. NERSC Technical Report No. 237 (2003).
Wind energy mapping using synthetic aperture radar. Canadian Journal of Remote Sensing 28, 1-10 (2002).
Wind energy mapping of coastal zones by synthetic aperture radar (SAR) for siting potential windmill locations. International Journal of Remote Sensing 21, 1781-1786 (2000). Download: 014311600209733.pdf (517.84 KB)
Wind energy mapping of coastal zones by synthetic aperture radar (SAR) for siting potential wind mill locations. International Journal of Remote Sensing 21, (1999). Download: 014311600209733.pdf (517.84 KB)
Wind energy mapping from synthetic aperture radar. In proceedings of IGARSS´99, Hamburg Germany, 28 June-2 July 1999 (1999).
Wind climate of the Gulf of Finland: time-varying satellite SAR imagery of seasonal modification in presence of global change. Abstracts of the X International Ecological Forum “Baltic Sea Day” (2009).
Wind climate of the Baltic critical ecoregion and its seasonal spatial modification: study with using time-varying satellite SAR imagery. Proceedings of the International Conference "Critical ecoregions: modern condition, problems and ways of their decision" pp. 102-109 (2009).
