The scientist’s investigation covers issues in Mineralogy, Magnetic susceptibility, Population, Magnetite and Anisotropy. His study in the field of Olivine also crosses realms of Thermal Emission Spectrometer. His Magnetic susceptibility research includes themes of Xenolith, Greenstone belt and Igneous rock.
Biotite, Magnetic anisotropy, Magnetic mineralogy, Coaxial and Shear are fields of study that intersect with his Population study. His Magnetite research is multidisciplinary, relying on both Crystallization, Pyroxene, Perpendicular and Silicate. His research in Anisotropy intersects with topics in Condensed matter physics, Ferromagnetism, Magma and Grain boundary.
His scientific interests lie mostly in Remote sensing, Mineralogy, Hyperspectral imaging, Geochemistry and Lineation. His Remote sensing research is multidisciplinary, incorporating elements of Pixel, Bay and Vegetation, Normalized Difference Vegetation Index. His Mineralogy research integrates issues from HyMap, Magnetic susceptibility, Plagioclase, Lithology and Anisotropy.
His Anisotropy research incorporates elements of Silicate and Simple shear. Patrick Launeau has included themes like Biomass, Sand dune stabilization, Attenuation coefficient and Imaging spectrometer in his Hyperspectral imaging study. His studies deal with areas such as Magma, Igneous rock and Crust as well as Petrology.
His primary areas of investigation include Lidar, Remote sensing, Hyperspectral imaging, Bay and Sand dune stabilization. His research integrates issues of Sediment, Geomorphology and Shore in his study of Lidar. Patrick Launeau frequently studies issues relating to Pixel and Remote sensing.
Patrick Launeau combines subjects such as Spatial ecology, Mineralogy, Attenuation coefficient, Biomass and Subpixel rendering with his study of Hyperspectral imaging. The Bay study combines topics in areas such as Storm, Sedimentary budget, Full waveform, Deposition and Physical geography. As a member of one scientific family, he mostly works in the field of Sand dune stabilization, focusing on Vegetation and, on occasion, Aerial photography, Terrain, VNIR and Digital elevation model.
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Fabric analysis using the intercept method
P. Launeau;P.-Y.F. Robin.
Effect of mechanical interactions on the development of shape preferred orientations: a two-dimensional experimental approach
Benoît Ildefonse;Patrick Launeau;Jean-Luc Bouchez;Angel Fernandez.
Journal of Structural Geology (1992)
Magnetic fabric vs. magnetite and biotite shape fabrics of the magnetite-bearing granite pluton of Gameleiras (Northeast Brazil)
Carlos Jose Archanjo;Patrick Launeau;Jean Luc Bouchez.
Physics of the Earth and Planetary Interiors (1995)
Magnetite grain shape fabric and distribution anisotropy vs rock magnetic fabric: a three-dimensional case study
V Grégoire;J Darrozes;P Gaillot;A Nédélec.
Journal of Structural Geology (1998)
Magmatic fabric acquisition mechanisms in a syenite: Results of a combined anisotropy of magnetic susceptibility and image analysis study
P. Launeau;A. R. Cruden.
Journal of Geophysical Research (1998)
Mechanisms and duration of non-tectonically assisted magma emplacement in the upper crust: The Black Mesa pluton, Henry Mountains, Utah
Michel de Saint-Blanquat;Guillaume Habert;Eric Horsman;Sven S. Morgan.
Increase in seagrass distribution at Bourgneuf Bay (France) detected by spatial remote sensing
Laurent Barillé;Marc Robin;Nicolas Harin;Annaëlle Bargain.
Aquatic Botany (2010)
Determination of fabric and strain ellipsoids from measured sectional ellipses—implementation and applications
Patrick Launeau;Pierre-Yiles F. Robin.
Journal of Structural Geology (2005)
Spectrometric constraint in analysis of benthic diatom biomass using monospecific cultures
V. Méléder;L. Barillé;P. Launeau;V. Carrère.
Remote Sensing of Environment (2003)
Analysis of OMEGA/Mars Express data hyperspectral data using a Multiple-Endmember Linear Spectral Unmixing Model (MELSUM) : Methodology and first results
J.-Ph. Combe;S. Le Mouélic;C. Sotin;A. Gendrin.
Planetary and Space Science (2008)
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