Biblio
Filters: Author is Pettersson, Lasse H. [Clear All Filters]
NORSMAP 89 - Norwegian Remote Sensing Spectrometry for Mapping and Monitoring of Algae Blooms and Pollution. European Airborne Imaging Spectroscopy Campaign (EISAC 89) - Results, proceeding of an ESA JRC-IRSA Workshop, ESA SP-360 (1993).
Ocean dynamics in the Nordic Seas using satellite altimetry. TOPEX/POSEIDON Science Investigations Plan, NASA Publication 1 (1991).
Operational oceanography challenges and potential. The Norwegian Coastal Current oceanography and climate. Chapter 11 (2007).
Optical monitoring of phytoplankton bloom pigment signatures. Phytoplankton Pigments: Characterization, Chemotaxonomy and Applications in Oceanography 784 (2011).at <http://www.cambridge.org/aus/catalogue/catalogue.asp?isbn=9781107000667>
Promotion of Remote Sensing for the Identification of Pollution. Detection of Oil Spill by use ERS-1 SAR Data 1, (1992).
Radar Altimeter Sensors and Methods. Oceanographic Application of Remote Sensing (1995).
Remote sensing in the Barents Sea. Ecosystem Barents Sea 139-166 (2009).at <http://www.tapirforlag.no/node/1286>
Remote Sensing of Upwelling in the Arabian Sea and Adjacent Near-Coastal Regions. Remote Sensing of the Asian Seas (2018).doi:10.1007/978-3-319-94067-0_26
A review of the possible applications of satellite earth observation data within EuroGOOS. Operational Oceanography, The challenge for European co-operation, proceed. of the First Int. Conference on EuroGOOS 7. - 11. Oct. 1996,The Hague, The Netherlands. Elsevier Oceanogra 192-205 (1997).
Satellite observation and model prediction of toxic algae bloom. Proceedings of the 2nd EuroGOOS International Conference, Rome, 11-13 March, 1999. Elsevier Oceanography Series 66 (2002).
Satellite SAR monitoring of the ice cover parameters of seas closed for navigation of the Russian ships (Bothnina Gulf as example). Proceedings of Voeikov Main Geophysical Observatory (2015).
Satellite SAR monitoring of the ice of the East Siberian sea and sea bordering shores with using non-Russian satellite survey. Proceedings of Voeikov Main Geophysical Observatory (2015).
Using Remote Sensing to Study Phytoplankton Biomass and Its Influence on Herbivore Fishery in the South-Eastern Arabian Sea. Remote Sensing of the Asian Seas (2018).doi:10.1007/978-3-319-94067-0_25
Våroppblomstring av planteplankton i Barentshavet. Forvaltningsplan Barentshavet – rapport fra overvåkingsgruppen 2014 (2014).
Våroppblomstring av planteplankton i Norskehavet. Forvaltningsplan Norskehavet - rapport fra overvåkingsgruppen 2013 (2013).
Visible and infrared remote sensing of the White Sea Bio-Geo-Chemistry and Hydrology. Remote Sensing of the European Seas 129-140 (2008).at <http://www.springerlink.com.pva.uib.no/content/w2j131575v6t43l6/> Abstract
Download: fulltext-6.pdf (1.77 MB)
Water Quality Assessment from Medium Resolution Satellite Data Using Machine Learning Methods. Geospatial Technologies for Resources Planning and Management. Water Science and Tecnology (2022).doi:10.1007/978-3-030-98981-1_9
Water Quality Assessment from Medium Resolution Satellite Data Using Machine Learning Methods. Geospatial Technologies for Resources Planning and Management 115, 205 - 228 (2022).
Hav er meir enn vatn. 114 (2017).
Polar seas Oceanography: An Integrated Case Study of the Kara Sea. Nansen Centers Polar Series no. 1 (2002).
Radioactivity and pollution in the Nordic Seas and Arctic region: Observations, Modelling and Simulations. Nansen Center´s Polar Series 5, 408 (2010).
Remote Sensing of Sea Ice in the Northern Sea Route - Studies and Applications. Nansen Centers Polar Series no. 4 (2007).doi:10.1007/978-3-540-48840-8_6 Download: cover-medium.gif (4.7 KB); front-matter.pdf (485.83 KB); fulltext-3.pdf (2.04 MB)
