Ground-penetrating radar, Radar, Remote sensing, Soil science and Water content are his primary areas of study. Sébastien Lambot conducts interdisciplinary study in the fields of Ground-penetrating radar and Calibration through his research. His Radar research includes themes of Acoustics, Transfer function, Wave propagation, Horn antenna and Frequency domain.
His research in Remote sensing intersects with topics in Time domain, Surface wave and Radar imaging. His Soil water, Richards equation and Soil core study in the realm of Soil science interacts with subjects such as Capacitance probe. As part of the same scientific family, he usually focuses on Water content, concentrating on Inversion and intersecting with Reflectometry, Infiltration, Hydraulic conductivity and Hydrogeophysics.
His main research concerns Ground-penetrating radar, Remote sensing, Radar, Soil science and Water content. The study incorporates disciplines such as Acoustics, Soil water, Inversion, Horn antenna and Frequency domain in addition to Ground-penetrating radar. His study on Radiometer is often connected to Field as part of broader study in Remote sensing.
His research investigates the link between Radar and topics such as Antenna that cross with problems in Reflection. His Soil science study combines topics from a wide range of disciplines, such as Hydrology, Geotechnical engineering and Inverse. His study looks at the relationship between Water content and fields such as Reflectometry, as well as how they intersect with chemical problems.
The scientist’s investigation covers issues in Ground-penetrating radar, Radar, Remote sensing, Inversion and Soil science. Sébastien Lambot combines subjects such as Acoustics, Reflection, Tree and Water content with his study of Ground-penetrating radar. His biological study spans a wide range of topics, including Reflectometry, Algorithm and Antenna.
His Remote sensing research is multidisciplinary, incorporating perspectives in Time domain, Tree trunk, Frequency domain and Horn antenna. His Inversion research integrates issues from Asphalt, Electronic engineering and Dielectric. In general Soil science, his work in Soil water is often linked to Litter linking many areas of study.
His primary scientific interests are in Ground-penetrating radar, Radar, Remote sensing, Water content and Inversion. His work deals with themes such as Soil science, Reflection, Frequency domain and Bistatic radar, which intersect with Ground-penetrating radar. His research integrates issues of Acoustics, Algorithm and Time domain, Reflectometry in his study of Radar.
His Remote sensing study incorporates themes from Soil water, Horn antenna and Near and far field. His work carried out in the field of Water content brings together such families of science as Soil test, Hydrogeology, Atmospheric radiative transfer codes, Water retention curve and Radiometry. The Inversion methods research Sébastien Lambot does as part of his general Inversion study is frequently linked to other disciplines of science, such as Observational error, therefore creating a link between diverse domains of science.
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Modeling of ground-penetrating Radar for accurate characterization of subsurface electric properties
S. Lambot;E.C. Slob;I. van den Bosch;B. Stockbroeckx.
IEEE Transactions on Geoscience and Remote Sensing (2004)
Mapping the spatial variation of soil water content at the field scale with different ground penetrating radar techniques
L. Weihermüller;J.A. Huisman;Sébastien Lambot;M. Herbst.
Journal of Hydrology (2007)
Using inverse methods for estimating soil hydraulic properties from field data as an alternative to direct methods
A Ritter;François Hupet;R Munoz-Carpena;Sébastien Lambot.
Agricultural Water Management (2003)
Analysis of air-launched ground-penetrating radar techniques to measure the soil surface water content
Sébastien Lambot;Sébastien Lambot;Lutz Weihermüller;Johan A. Huisman;Harry Vereecken.
Water Resources Research (2006)
A global multilevel coordinate search procedure for estimating the unsaturated soil hydraulic properties
Sébastien Lambot;Mathieu Javaux;François Hupet;Marnik Vanclooster.
Water Resources Research (2002)
Filtering Soil Surface and Antenna Effects From GPR Data to Enhance Landmine Detection
O. Lopera;E.C. Slob;N. Milisavljevic;S. Lambot.
IEEE Transactions on Geoscience and Remote Sensing (2007)
Full-Wave Modeling of Near-Field Radar Data for Planar Layered Media Reconstruction
Sebastien Lambot;Frederic Andre.
IEEE Transactions on Geoscience and Remote Sensing (2014)
Electromagnetic induction calibration using apparent electrical conductivity modelling based on electrical resistivity tomography
F. Lavoué;J. van der Kruk;J. Rings;Frédéric André.
Near Surface Geophysics (2010)
Estimating soil electric properties from monostatic ground-penetrating radar signal inversion in the frequency domain
Sébastien Lambot;EC Slob;I. van den Bosch;B. Stockbroeckx.
Water Resources Research (2004)
High-resolution imaging of a vineyard in south of France using ground penetrating radar, electromagnetic induction and electrical resistivity tomography
Frédéric André;Cornelis van Leeuwen;Stéphanie Saussez;Renaud Van Durmen.
Journal of Applied Geophysics (2012)
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