1999 - Member of Academia Europaea
The scientist’s investigation covers issues in Seismology, Paleontology, Ground-penetrating radar, Crust and Inverse problem. As part of one scientific family, Alan G. Green deals mainly with the area of Seismology, narrowing it down to issues related to the Reflection, and often Seismic wave and Refraction. His work on Craton and Proterozoic as part of general Paleontology study is frequently connected to Research program and Multidisciplinary approach, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
His Ground-penetrating radar study integrates concerns from other disciplines, such as Glacial period, Outcrop, Geomorphology and Aquifer. His Crust research is multidisciplinary, incorporating elements of Archean, Continental margin and Collision zone. His Inverse problem research is multidisciplinary, relying on both Tomography, Finite-difference time-domain method and Optics.
Alan G. Green focuses on Seismology, Reflection, Ground-penetrating radar, Geomorphology and Radar. His research on Seismology often connects related topics like Crust. Alan G. Green has researched Reflection in several fields, including Mineralogy and Geophysics.
His study looks at the intersection of Ground-penetrating radar and topics like Algorithm with Inverse problem. His Geomorphology course of study focuses on Aquifer and Borehole. The various areas that Alan G. Green examines in his Radar study include Tomography, Optics and Remote sensing.
His main research concerns Seismology, Ground-penetrating radar, Geomorphology, Fault and Geophysics. Alan G. Green interconnects Geotechnical engineering and Reflection in the investigation of issues within Seismology. His research investigates the connection between Reflection and topics such as Seismic refraction that intersect with problems in Structural basin.
His Ground-penetrating radar research is included under the broader classification of Radar. His work carried out in the field of Geomorphology brings together such families of science as Sedimentary rock, Aquifer and Okavango delta. His research in Fault intersects with topics in Tectonics and Plate tectonics.
Alan G. Green mostly deals with Ground-penetrating radar, Seismology, Geomorphology, Inverse problem and Active fault. Ground-penetrating radar is a subfield of Radar that Alan G. Green tackles. In Seismology, he works on issues like Geophysics, which are connected to Reflection.
His Geomorphology research incorporates elements of Permafrost and Groundwater. His Inverse problem study incorporates themes from Groundwater model, Geometry, Finite-difference time-domain method, Algorithm and Tomography. The concepts of his Tectonics study are interwoven with issues in Sedimentary rock, Fold, Aftershock and Volcanic rock.
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Experimental design: Electrical resistivity data sets that provide optimum subsurface information
Peter Stummer;Hansruedi Maurer;Alan G. Green.
LITHOPROBE-southern Vancouver Island: Cenozoic subduction complex imaged by deep seismic reflections: Reply
R. M. Clowes;M. T. Brandon;A. G. Green;C. J. Yorath.
Canadian Journal of Earth Sciences (1987)
The North American Midcontinent Rift beneath Lake Superior from Glimpce seismic reflection profiling
W. F. Cannon;Alan G. Green;D. R. Hutchinson;Myung Lee.
Refraction tomography over a buried waste disposal site
Eva Lanz;Hansruedi Maurer;Alan G. Green.
Application of a new 2D time-domain full-waveform inversion scheme to crosshole radar data
Jacques R. Ernst;Alan G. Green;Hansruedi Maurer;Klaus Holliger.
Full-Waveform Inversion of Crosshole Radar Data Based on 2-D Finite-Difference Time-Domain Solutions of Maxwell's Equations
J.R. Ernst;H.. Maurer;A.G. Green;K.. Holliger.
IEEE Transactions on Geoscience and Remote Sensing (2007)
A New Vector Waveform Inversion Algorithm for Simultaneous Updating of Conductivity and Permittivity Parameters From Combination Crosshole/Borehole-to-Surface GPR Data
Giovanni Angelo Meles;Jan Van der Kruk;Stewart A Greenhalgh;Jacques R Ernst.
IEEE Transactions on Geoscience and Remote Sensing (2010)
Crustal structure of the Grenville front and adjacent terranes
A. G. Green;B. Milkereit;A. Davidson;C. Spencer.
Using two- and three-dimensional georadar methods to characterize glaciofluvial architecture
Milan Beres;Peter Huggenberger;Alan G Green;Heinrich Horstmeyer.
Sedimentary Geology (1999)
Crustal structure of the Midcontinent rift system: Results from GLIMPCE deep seismic reflection profiles
J. C. Behrend;A. G. Green;W. F. Cannon;D. R. Hutchinson.
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