2023 - Research.com Earth Science in Germany Leader Award
Fabrice Cotton mainly focuses on Seismic hazard, Seismology, Hazard, Uncertainty quantification and Computation tree logic. The Seismic hazard study combines topics in areas such as Ground motion, Range, Seismic risk and Measure. His Seismic noise study in the realm of Seismology connects with subjects such as Variable number.
His studies in Hazard integrate themes in fields like Peak ground acceleration, Limit, Earthquake simulation and Extreme value theory. His research integrates issues of Hydrogeology, Algorithm, Stochastic modelling and Set in his study of Uncertainty quantification. His studies deal with areas such as Amplitude and Statistics, Standard deviation as well as Geodesy.
Seismology, Ground motion, Geodesy, Seismic hazard and Magnitude are his primary areas of study. His Seismology research is multidisciplinary, relying on both Amplitude and Attenuation. His Ground motion study frequently draws connections to adjacent fields such as Data-driven.
His Geodesy study combines topics from a wide range of disciplines, such as Seismogram, Inversion, Residual and Global Positioning System. His Seismic hazard research is multidisciplinary, incorporating perspectives in Uncertainty quantification, Seismic risk and Hazard. Fabrice Cotton has researched Magnitude in several fields, including Statistics, Range and Scaling.
His primary areas of study are Seismology, Ground motion, Seismic hazard, Induced seismicity and Artificial intelligence. His work deals with themes such as Attenuation and Submarine pipeline, which intersect with Seismology. His work carried out in the field of Ground motion brings together such families of science as Event, Cross-correlation, Selection and Geodesy.
Fabrice Cotton combines subjects such as Amplitude, Range, Distribution and Moment magnitude scale with his study of Geodesy. His Seismic hazard study integrates concerns from other disciplines, such as Empirical modelling, Earthquake engineering, Duration, Combinatorics and Environmental planning. His study on Probabilistic seismic hazard analysis is often connected to Term as part of broader study in Induced seismicity.
His scientific interests lie mostly in Seismology, Ground motion, Seismic hazard, Geodesy and Amplitude. Fabrice Cotton has included themes like Attenuation and Submarine pipeline in his Seismology study. His Ground motion research includes elements of Response analysis, Probabilistic logic, Seismic risk and Combinatorics.
His Seismic hazard research incorporates elements of Predictive modelling, Isotropy, Seismogram and Motion. His Geodesy study integrates concerns from other disciplines, such as Magnitude, Duration and Fourier transform. His work deals with themes such as Empirical modelling, Earthquake engineering, Fault scarp and Arias Intensity, which intersect with Amplitude.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
The nature of noise wavefield and its applications for site effects studies A literature review
Sylvette Bonnefoy-Claudet;Fabrice Cotton;Pierre-Yves Bard.
Earth-Science Reviews (2006)
H/V ratio: a tool for site effects evaluation. Results from 1-D noise simulations
Sylvette Bonnefoy-Claudet;Cécile Cornou;Pierre-Yves Bard;Fabrice Cotton.
Geophysical Journal International (2006)
The Variability of Ground-Motion Prediction Models and Its Components
Linda Al Atik;Norman Abrahamson;Julian J. Bommer;Frank Scherbaum.
Seismological Research Letters (2010)
The 2013 European Seismic Hazard Model: key components and results
Jochen Woessner;Danciu Laurentiu;Domenico Giardini;Helen Crowley.
Bulletin of Earthquake Engineering (2015)
Criteria for selecting and adjusting ground-motion models for specific target regions: Application to Central Europe and rock sites
Fabrice Cotton;Frank Scherbaum;Julian J. Bommer;Hilmar Bungum.
Journal of Seismology (2006)
On the Use of Logic Trees for Ground-Motion Prediction Equations in Seismic-Hazard Analysis
Julian J. Bommer;Frank Scherbaum;Hilmar Bungum;Fabrice Cotton.
Bulletin of the Seismological Society of America (2005)
On the Selection of Ground-Motion Prediction Equations for Seismic Hazard Analysis
Julian J. Bommer;John Douglas;Frank Scherbaum;Fabrice Cotton.
Seismological Research Letters (2010)
On the Use of Response Spectral-Reference Data for the Selection and Ranking of Ground-Motion Models for Seismic-Hazard Analysis in Regions of Moderate Seismicity: The Case of Rock Motion
Frank Scherbaum;Fabrice Cotton;Patrick Smit.
Bulletin of the Seismological Society of America (2004)
Reference database for seismic ground-motion in Europe (RESORCE)
S. Akkar;M. A. Sandikkaya;M. A. Sandikkaya;M. Senyurt;A. Azari Sisi.
Bulletin of Earthquake Engineering (2014)
Toward a ground-motion logic tree for probabilistic seismic hazard assessment in Europe
Elise Delavaud;Fabrice Cotton;Fabrice Cotton;Sinan Akkar;Frank Scherbaum.
Journal of Seismology (2012)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: