Publications scientifiques

Publications scientifiques utilisant des données du RAP (liste non exhaustive)

2024

  • Cesca S., Niemz P., Dahm T., and Ide S. (2024). Anti-repeating earthquakes and how to explain them. Communications Earth & Environment, 5, 158. doi: 10.1038/s43247-024-01290-1
  • Douglas J., Aldama-Bustos G., Tallett-Williams S., Daví M., and Tromans I.J. (2024). Ground-motion models for earthquakes occurring in the United Kingdom. Bulletin of Earthquake Engineering. doi: 10.1007/s10518-024-01943-8
  • Heller G., Margerin L., Sèbe O., Mayor J., Calvet M., Traversa P., and Latour S. (2024). Separation of source, attenuation and site parameters of 2 moderate earthquakes in France: an elastic radiative transfer approach. Geophysical Journal International, 238(2), 700-718. doi: 10.1093/gji/ggae176
  • Jacquemond L., Letort J., Cotton F., Causse M., Grasso J.-R., Sénéchal G., Ammirati J.B., Derode B., Grimaud F., Pauchet H., Benhamed S., and Sylvander M. (2024). Analysing 50 yr of the Lacq induced seismicity (Southwestern, France) highlights the role of fluid injection. Geophysical Journal International, 238(1), 214-234. doi: 10.1093/gji/ggae119
  • Ramadan F., Lanzano G., Pacor F., Felicetta C., Smerzini C., and Traversa P. (2024). Adjusting an active shallow crustal ground motion model to regions with scarce data: application to France. Bulletin of Earthquake Engineering, 22, 3727-3751. doi: 10.1007/s10518-024-01890-4

2023

  • Causse M., Maufroy E., André L., and Bard P.-Y. (2023). What was the level of ground motion across Europe during the great A.D. 365 Crete earthquake? Seismological Research Letters, 94(5), 2397-2410. doi: 10.1785/0220220385
  • Derode B., Gounon A., Letort J., Sylvander M., Rigo A., Benahmed S., Grimaud F., Latour S., Pauchet H., and Santamaria A. (2023). Fluid-driven seismic swarms in the Gripp valley (Haute-Pyrénées, France). Geophysical Journal International, 234(3), 1903-1915. doi: 10.1093/gji/ggad175
  • Diehl T., Madritsch H., Schnellmann M., Spillmann T., Brockmann E., and Wiemer S. (2023). Seismotectonic evidence for present-day transtensional reactivation of the slowly deforming Hegau-Bodensee Graben in the northern foreland of the Central Alps. Tectonophysics, 846, 229659. doi: 10.1016/j.tecto.2022.229659
  • Guéguen P., Astorga A., and Langlais M. (2023). Amplitude–frequency noise models for seismic building monitoring in a weak‐to‐moderate seismic region. Seismological Research Letters, 94(5), 2231-2243. doi: 10.1785/0220230009
  • Lavayssière A., and Retailleau L. (2023). Capturing Mayotte’s deep magmatic plumbing system and its spatiotemporal evolution with volcano-tectonic seismicity. Volcanica, 6(2), 331-344. doi: 10.30909/vol.06.02.331344
  • Rohmer O., Santisi d’Avila M.P., Bertrand E., and Régnier J. (2023). Rocking motion analysis using structural identification tools. Geotechnics, 3(3), 601-623. doi: 10.3390/geotechnics3030033
  • Smerzini C., Vanini M., Paolucci R., Renault P., and Traversa P. (2023). Regional physics-based simulation of ground motion within the Rhȏne Valley, France, during the Mw 4.9 2019 Le Teil earthquake. Bulletin of Earthquake Engineering, 21, 1747-1774. doi: 10.1007/s10518-022-01591-w
  • Sung C.-H., Abrahamson N.A., Kuehn N.M., Traversa P., and Zentner I. (2023). A non-ergodic ground-motion model of Fourier amplitude spectra for France. Bulletin of Earthquake Engineering, 21, 5293-5317. doi: 10.1007/s10518-022-01403-1

2022

  • Chmiel M., Godano M., Piantini M., Brigode P., Gimbert F., Bakker M., Courboulex F., Ampuero J.-P., Rivet D., Sladen A., Ambrois D., and Chapuis M. (2022). Brief communication: Seismological analysis of flood dynamics and hydrologically-triggered earthquake swarms associated with storm Alex. Natural Hazards and Earth System Sciences, 22, 1541-1558. doi: 10.5194/nhess-22-1541-2022
  • Kleckner J. K., Withers K. B., Thompson E. M., Rekoske J. M., Wolin E., and Moschetti M. P. (2022). Automated detection of clipping in broadband earthquake records. Seismological Research Letters, 93(2A), 880-896. doi: 10.1785/0220210028
  • Kotha S.R., Bindi D., and Cotton F. (2022). A regionally adaptable ground-motion model for Fourier amplitude spectra of shallow crustal earthquakes in Europe. Bulletin of Earthquake Engineering, 20, 711-740. doi: 10.1007/s10518-021-01255-1
  • Lanza F., Diehl T., Deichmann N., Kraft T., Nussbaum C., Schefer S., and Wiemer S. (2022). The Saint-Ursanne earthquakes of 2000 revisited: evidence for active shallow thrust-faulting in the Jura fold-and-thrust belt. Swiss Journal of Geosciences, 115, 2. doi: 10.1186/s00015-021-00400-x
  • Lavayssière A., Crawford W.C., Saurel J.-M., Satriano C., Feuillet N., Jacques E., and Komorowski J.-C. (2022). A new 1D velocity model and absolute locations image the Mayotte seismo-volcanic region. Journal of Volcanology and Geothermal Research, 421, 107440. doi: 10.1016/j.jvolgeores.2021.107440
  • Mascandola C., Lanzano G., and Pacor F. (2022). Consistency check of ITACAext, the flatfile of the Italian accelerometric archive. Geosciences, 12(9), 334. doi: 10.3390/geosciences12090334
  • Mercury N., Lemoine A., Doubre C., Bertil D., Van Der Woerd J., Hoste-Colomer R., and Battaglia J. (2022). Onset of a submarine eruption east of Mayotte, Comoros archipelago: the first ten months seismicity of the seismo-volcanic sequence (2018-2019). Comptes Rendus Geoscience, 354(S2), 105-136. doi: 10.5802/crgeos.191
  • Mittal T., Jordan J.S., Retailleau L., Beauducel F., and Peltier A. (2022). Mayotte 2018 eruption likely sourced from a magmatic mush. Earth and Planetary Science Letters, 590, 117566. doi: 10.1016/j.epsl.2022.117566
  • Negulescu C., and Roullé A. (2022). Correlation between wavelet-based energy parameter and observational damage degrees for gravity design building during the May 2018 Mayotte seismic crisis. Frontiers in Built Environment, section Earthquake Engineering, 8. doi: 10.3389/fbuil.2022.850300
  • Retailleau L., Saurel J.-M., Laporte M., Lavayssière A., Ferrazzini V., Zhu W., Beroza G.C., Satriano C., Komorowski J.-C., and OVPF team (2022). Automatic detection for a comprehensive view of Mayotte seismicity. Comptes Rendus Géoscience, 354(S2), 1-18. doi: 10.5802/crgeos.133
  • Retailleau L., Saurel J.-M., Zhu W., Satriano C., Beroza G.C., Issartel S., Boissier P., OVPF team, and OVSM team (2022). A wrapper to use a machine-learning-based algorithm for earthquake monitoring. Seismological Research Letters, 93(3), 1673-1682. doi: 10.1785/0220210279
  • Roullé A., Baillet M., Bertil D., and Cornou C. (2022). Site effects observations and mapping on the weathered volcanic formations of Mayotte Island. Comptes Rendus Geoscience, 354(S2), 317-341. doi: 10.5802/crgeos.151
  • Saurel J.-M., Jacques E., Aiken C., Lemoine A., Retailleau L., Lavayssière A., Foix O., Dofal A., Laurent A., Mercury N., Crawford W., Lemarchand A., Daniel R., Pelleau P., Bès de Berc M., Dectot G., Bertil D., Roullé A., Broucke C., Colombain A., Jund H., Besançon S., Guyavarch P., Kowalski P., Roudaut M., Apprioual R., Battaglia J., Bodihar S., Boissier P., Bouin M.-P., Brunet C., Canjamale K., Catherine P., Desfete N., Doubre C., Dretzen R., Dumouche T., Fernagu P., Ferrazzini V., Fontaine F., Gaillot A., Géli L., Griot C., Grunberg M., Guzel E.C., Hoste-Colomer R., Lambotte S., Lauret F., Léger F., Maros E., Peltier A., Vergne J., Satriano C., Tronel F., Van der Woerd J., Fouquet Y., Jorry S.J., Rinnert E., Thinon I., and Feuillet N. (2022). Mayotte seismic crisis: building knowledge in near real-time by combining land and ocean-bottom seismometers, first results. Geophysical Journal International, 228(2), 1281-1293. doi: 10.1093/gji/ggab392
  • Shible H., Hollender F., Bindi D., Traversa P., Oth A., Edwards B., Klin P., Kawase H., Grendas I., Castro R.R., Theodoulidis N., and Guéguen P. (2022). GITEC: a generalized inversion technique benchmark. Bulletin of the Seismological Society of America, 112(2), 850-877. doi: 10.1785/0120210242
  • Taillefer N., Bertil D., Negulescu C., Roullé A., Iasio C., Auclair S., and Quique R. (2022). Seismic damage scenarios for Mayotte: a tool for disaster management. Comptes Rendus Geoscience, 354(S2), 343-359. doi: 10.5802/crgeos.120

2021

  • Bertil D., Mercury N., Doubre C., Lemoine A., and Van der Woerd J. (2021). The unexpected Mayotte 2018-2020 seismic sequence: a reappraisal of the regional seismicity of the Comoros. Comptes Rendus Géoscience, 353(S1), 211-235. doi: 10.5802/crgeos.79
  • Beucler E., Bonnin M., Hourcade C., Van Vliet-Lanoë B., Perrin C., Provost L., Mocquet A., Battaglia J., Geoffroy L., Steer P., Le Gall B., Douchain J.-M., Fligiel D., Gernigon P., Delouis B., Perrot J., Mazzotti S., Mazet-Roux G., Lambotte S., Grunberg M., Vergne J., Clément C., Calais E., Deverchère J., Longuevergne L., Duperret A., Roques C., Kaci T., and Authemayou C. (2021). Characteristics and possible origins of the seismicity in northwestern France. Comptes Rendus Géoscience, 353(S1), 53-77. doi: 10.5802/crgeos.86
  • Causse M., Cornou C., Maufroy E., Grasso J.-R., Baillet L., and El Haber E. (2021). Exceptional ground motion during the shallow Mw 4.9 2019 Le Teil earthquake, France. Communications Earth & Environment, 2, 14. doi: 10.1038/s43247-020-00089-0
  • Cauzzi C., Custódio S., Evangelidis C.P., Lanzano G., Luzi L., Ottemöller L., Pedersen H., and Sleeman R (2021). Preface to the focus section on European seismic networks and associated services and products. Seismological Research Letters, 92(3), 1483-1490. doi: 10.1785/0220210055
  • Cornou C., Ampuero J.-P., Aubert C., Audin L., Baize S., Billant J., Brenguier F., Causse M., Chlieh M., Combey A., De Michele M., Delouis B., Deschamps A., Ferry M., Foumelis M., Froment B., Gélis C., Grandin R., Grasso J.-R., Hannouz E., Hok S., Jung A., Jolivet R., Langlais M., Langlaude P., Larroque C., Leloup P. H., Manchuel K., Marconato L., Maron C., Mathot E., Maufroy E., Mercerat D., Metois M., Neyman E., Pondaven I., Provost L., Régnier J., Ritz J.-F., Rivet D., Schlupp A., Sladen A., Voisin C., Walpersdorf A., Wolyniec D., Allemand P., Beck E., Bertrand E., Bertrand V., Briole P., Brunel D., Cavaillé O., Chèze J., Courboulex F., Douste-Bacque I., Dretzen R., Giampietro T., Godano M., Grandjean P., Grunberg M., Guerin G., Guillot S., El Haber E., Hernandez A., Jomard H., Lasserre C., Liang C., Lior I., Martin X., Mata D., Menager M., Mercier A., Mordret A., Oral E., Paul A., Peix F., Pequegnat C., Pernoud M., Satriano C., Sassi R., Schaming M., Sellier V., Sira C., Socquet A., Sue C., Trilla A., Vallée M., Van Den Ende M., Vernant P., Vial B., and Weng H. (2021). Rapid response to the Mw 4.9 earthquake of November 11, 2019 in Le Teil, Lower Rhône Valley, France. Comptes Rendus Geoscience, 353(S1), 441-463. doi: 10.5802/crgeos.30
  • Delouis B., Oral E., Menager M., Ampuero J.-P., Trilla A.G., Régnier M., and Deschamps A. (2021). Constraining the point source parameters of the 11 November 2019 Mw 4.9 Le Teil earthquake using multiple relocation approaches, first motion and full waveform inversions. Comptes Rendus Géoscience, 353(S1), 493-516. doi: 10.5802/crgeos.78
  • Diehl T., Clinton J., Cauzzi C., Kraft T., Kästli P., Deichmann N., Massin F., Grigoli F., Molinari I., Böse M., Hobiger M., Haslinger F., Fäh D., and Wiemer S. (2021). Earthquakes in Switzerland and surrounding regions during 2017 and 2018. Swiss Journal of Geosciences, 114, 4. doi: 10.1186/s00015-020-00382-2
  • Doubre C., Meghraoui M., Masson F., Lambotte S., Jund H., Bès de Berc M., and Grunberg M. (2021). Seismotectonics in Northeastern France and neighboring regions. Comptes Rendus Geoscience, 353(S1), 153-185. doi: 10.5802/crgeos.80
  • Ertuncay D., Malisan P., Costa G., and Grimaz S. (2021). Impulsive signals produced by earthquakes in Italy and their potential relation with site effects and structural damage. Geosciences, 11(6), 261. doi: 10.3390/geosciences11060261
  • Fayjaloun R., Gehl P., Auclair S., Boulahya F., Guérin-Marthe S., and Roullé A. (2021). Integrating strong-motion recordings and twitter data for a rapid shakemap of macroseismic intensity. International Journal of Disaster Risk Reduction, 52, 101927. doi: 10.1016/j.ijdrr.2020.101927
  • Guéguen P., Guattari F., Aubert C., and Laudat T. (2021). Comparing direct observation of torsion with array-derived rotation in civil engineering structures. Sensors, 21(1), 142. doi: 10.3390/s21010142
  • Guéguen P., Janex G., Nomade J., Langlais M., Helmstetter A., Coutant O., Schwartz S., and Dollet C. (2021). Unprecedented seismic swarm in the Maurienne valley (2017-2019) observed by the SISmalp Alpine seismic network: operational monitoring and management. Comptes Rendus Géoscience, 353(S1), 1-18. doi: 10.5802/crgeos.70
  • Ito E., Cornou C., Nagashima F., and Kawase H. (2021). Estimation of velocity structures in the Grenoble basin, France, using pseudo earthquake horizontal-to-vertical spectral ratio from microtremors. Bulletin of the Seismological Society of America, 111(2), 627-653. doi: 10.1785/0120200211
  • Massin F., Clinton J., and Böse M. (2021). Status of earthquake early warning in Switzerland. In: The new frontiers of earthquake early warning systems. Frontiers in Earth Science, 9, 707654. doi: 10.3389/feart.2021.707654
  • Massin F., Clouard V., Vorobieva I., Beauducel F., Saurel J.-M., Satriano C., Bouin M.-P., and Bertil D. (2021). Automatic picking and probabilistic location for earthquake assessment in the Lesser Antilles subduction zone (1972–2012). Comptes Rendus Géoscience, 353(S1), 187-209. doi: 10.5802/crgeos.81
  • Masson F., Auclair S., Bertil D., Grunberg M., Hernandez B., Lambotte S., Mazet-Roux G., Provost L., Saurel J.-M., Schlupp A., and Sira C. (2021). The transversal seismicity action RESIF: a tool to improve the distribution of the French seismicity products. Seismological Research Letters, 92(3), 1623-1641. doi: 10.1785/0220200353
  • Münchmeyer J., Bindi D., Leser U., and Tilmann F. (2021). Earthquake magnitude and location estimation from real time seismic waveforms with a transformer network. Geophysical Journal International, 226(2), 1086-1104. doi: 10.1093/gji/ggab139
  • Péquegnat C., Schaeffer J., Satriano C., Pedersen H., Touvier J., Saurel J.-M., Calvet M., Stehly L., Arnoul P., Bollard P., Dewée O., Engels F., Grunberg M., Pardo C., Wolyniec D., Arneodo G., Bouazzouz R., Geber O., Aubert C., Langlais M., Roussel S., Brenguier F., Crawford W.C., Lemarchand A., Maufroy E., Olivier S., Rivet D., Vallée M., Vergne J., Chèze J., Debayle E., Delouis B., Guéguen P., Lambotte S., Mocquet A., Paul A., Peix F., Schindelé F., Shapiro N., Stutzmann E., Volcke P., and Walpersdorf A. (2021). RÉSIF‐SI: a distributed information system for French seismological data. Seismological Research Letters, 92(3), 1832-1853. doi: 10.1785/0220200392
  • Renouard A., Maggi A., Grunberg M., Doubre C., and Hibert C. (2021). Toward false event detection and quarry blast versus earthquake discrimination in an operational setting using semiautomated machine learning. Seismological Research Letters, 92(6), 3725-3742. doi: 10.1785/0220200305
  • Schlupp A., Sira C., Maufroy E., Provost L., Dretzen R., Bertrand E., Beck E., and Schaming M. (2021). EMS98 intensities distribution of the “Le Teil” earthquake, France, 11 November 2019 (Mw 4.9) based on macroseismic surveys and field investigations. Comptes Rendus Géoscience, 353(S1), 465-492. doi: 10.5802/crgeos.88
  • Schmittbuhl J., Lambotte S., Lengliné O., Grunberg M., Jund H., Vergne J., Cornet F., Doubre C., and Masson F. (2021). Induced and triggered seismicity below the city of Strasbourg, France from November 2019 to January 2021. Comptes Rendus Géoscience, 353(S1), 561-584. doi: 10.5802/crgeos.71
  • Vallage A., Bollinger L., Champenois J., Duverger C., Guilhem Trilla A., Hernandez B., Le Pichon A., Listowski C., Mazet-Roux G., Menager M., Pinel-Puysségur B., and Vergoz J. (2021). Multitechnology characterization of an unusual surface rupturing intraplate earthquake: the ML 5.4 2019 Le Teil event in France. Geophysical Journal International, 226(2), 803-813. doi: 10.1093/gji/ggab136

2020

  • Cesca S., Letort J., Razafindrakoto H. N. T., Heimann S., Rivalta E., Isken M. P., Nikkhoo M., Passarelli L., Petersen G. M., Cotton F., and Dahm T. (2020). Drainage of a deep magma reservoir near Mayotte inferred from seismicity and deformation. Nature Geoscience, 13, 87-93. doi : 10.1038/s41561-019-0505-5
  • Courboulex F., Mercerat E. D., Deschamps A., Migeon S., Baques M., Larroque C., Rivet D., and Hello Y. (2020). Strong site effect revealed by a new broadband seismometer on the continental shelf offshore Nice airport (Southeastern France). Pure and Applied Geophysics, 177, 3205-3224. doi : 10.1007/s00024-019-02408-9
  • De Novellis V., Convertito V., Valkaniotis S., Casu F., Lanari R., Monterroso Tobar M. F., and Pino N. A. (2020). Coincident locations of rupture nucleation during the 2019 Le Teil earthquake, France and maximum stress change from local cement quarrying. Communications Earth & Environment, 1, 20. doi : 10.1038/s43247-020-00021-6
  • Hollender F., Roumelioti Z., Maufroy E., Traversa P., and Mariscal A. (2020). Can we trust high-frequency content in strong-motion database signals ? Impact of housing, coupling, and installation depth of seismic sensors. Seismological Research Letters, 91(4), 2192-2205. doi : 10.1785/0220190163
  • Lemoine A., Briole P., Bertil D., Roullé A., Foumelis M., Thinon I., Raucoules D., de Michele M., Valty P., and Colomer R. H. (2020). The 2018-2019 seismo-volcanic crisis east of Mayotte, Comoros islands : seismicity and ground deformation markers of an exceptional submarine eruption. Geophysical Journal International, 223(1), 22-44. doi : 10.1093/gji/ggaa273
  • Ritz J.-F., Baize S., Ferry M., Larroque C., Audin L., Delouis B., and Mathot E. (2020). Surface rupture and shallow fault reactivation during the 2019 Mw 4.9 Le Teil earthquake, France. Communications Earth & Environment, 1, 10. doi : 10.1038/s43247-020-0012-z
  • Rohmer O., Bertrand E., Mercerat E. D., Régnier J., Pernoud M., Langlaude P., and Alvarez M. (2020). Combining borehole log-stratigraphies and ambient vibration data to build a 3D model of the Lower Var Valley, Nice (France). Engineering Geology, 270, 105588. doi : 10.1016/j.enggeo.2020.105588
  • Traversa P., Maufroy E., Hollender F., Perron V., Bremaud V., Shible H., Drouet S., Guéguen P., Langlais M., Wolyniec D., Péquegnat C., and Douste-Bacque I. (2020). RESIF RAP and RLBP dataset of earthquake ground motion in mainland France. Seismological Research Letters, 91(4), 2409-2424. doi : 10.1785/0220190367
  • Weatherill G., Kotha S. R., and Cotton F. (2020). A regionally-adaptable “scaled backbone” ground motion logic tree for shallow seismicity in Europe : application to the 2020 European seismic hazard model. Bulletin of Earthquake Engineering, 18, 5087-5117. doi : 10.1007/s10518-020-00899-9

2019

  • Bindi D., Kotha S.-R., Weatherill G., Lanzano G., Luzi L., and Cotton F. (2019). The pan‑European Engineering Strong Motion (ESM) flatfile : consistency check via residual analysis. Bulletin of Earthquake Engineering, 17(2), 583-602. doi : 10.1007/s10518-018-0466-x
  • Guéguen P., Bonilla L. F., and Douglas J. (2019). Comparison of soil nonlinearity (in situ stress-strain relation and G/Gmax reduction) observed in strong-motion databases and modeled in ground-motion prediction equations. Bulletin of the Seismological Society of America, 109(1), 178-186. doi : 10.1785/0120180169
  • Guéguen P., Mercerat D., and Alarcon F. (2019). Parametric study on the interpretation of wave velocity obtained by seismic interferometry in beam‐like buildings. Bulletin of the Seismological Society of America, 109(5), 1829-1842. doi : 10.1785/0120190054
  • Lanzano G., Sgobba S., Luzi L., Puglia R., Pacor F., Felicetta C., D’Amico M., Cotton F., and Bindi D. (2019). The pan-European Engineering Strong Motion (ESM) flatfile : compilation criteria and data statistics. Bulletin of Earthquake Engineering, 17(2), 561-582. doi : 10.1007/s10518-018-0480-z
  • Limongelli M.P., Dolce M., Spina D., Guéguen P., Langlais M., Wolyniec D., Maufroy E., Karakostas C.Z., Lekidis V.A., Morfidis K., Salonikios T., Rovithis E., Makra K., Masciotta M.G., and Lourenço P.B. (2019). S²HM in some European countries, In : Limongelli M.P., Çelebi M. (eds), Seismic structural health monitoring, 303-343. Springer Tracts in Civil Engineering, Springer. doi : 10.1007/978-3-030-13976-6_13
  • Zaccarelli R., Bindi D., Strollo A., Quinteros J., and Cotton F. (2019). Stream2segment : an open-source tool for downloading, processing, and visualizing massive event-based seismic waveform datasets. Seismological Research Letters, 90(5), 2028-2038. doi : 10.1785/0220180314

2018

  • Brossault M.A., Roux P., and Guéguen P. (2018). The fluctuation-dissipation theorem used as a proxy for damping variations in real engineering structures. Engineering Structures, 167, 65-73. doi : 10.1016/j.engstruct.2018.04.012
  • Guéguen P., and Tiganescu A. (2018). Consideration of the effects of air temperature on structural health monitoring through traffic light-based decision-making tools. Shock and Vibration, article ID 9258675, 12 pages. doi : 10.1155/2018/9258675
  • Hollender F., Cornou C., Dechamp A., Oghalaei K., Rénalier F., Maufroy E., Burnouf C., Thomassin S., Wathelet M., Bard P.Y., Boutin V., Desbordes C., Douste-Bacqué I., Foundotos L., Guyonnet-Benaize C., Perron V., Régnier J., Roullé A., Langlais M., and Sicilia D. (2018). Characterization of site conditions (soil class, Vs30, velocity profiles) for 33 stations from the French permanent accelerometric network (RAP) using surface-wave methods. Bulletin of Earthquake Engineering, 16(6), 2337-2365. doi : 10.1007/s10518-017-0135-5
  • Liu Z., Park J., and Karato S. (2018). Seismic evidence for water transport out of the mantle transition zone beneath the European Alps. Earth and Planetary Science Letters, 482, 93-104. doi : 10.1016/j.epsl.2017.10.054
  • Lorenzo G.W.F., Santisi d’Avila M.P., Deschamps A., Bertrand E., Mercerat E.D., Foundotos L., and Courboulex F. (2018). Numerical and empirical simulation of linear elastic seismic response of a building : the case of Nice Prefecture. Earthquake Spectra, 34(1), 169-196. doi : 10.1193/042216EQS064M
  • Mayor J., Bora S.S., and Cotton F. (2018). Capturing regional variations of hard‐rock κ0 from coda analysis. Bulletin of the Seismological Society of America, 108(1), 399-408. doi : 10.1785/0120170153
  • Mayor J., Traversa P., Calvet M., and Margerin L. (2018). Tomography of crustal seismic attenuation in Metropolitan France : implications for seismicity analysis. Bulletin of Earthquake Engineering, 16(6), 2195-2210. doi : 10.1007/s10518-017-0124-8
  • Michel C., and Guéguen P. (2018). Interpretation of the velocity measured in buildings by seismic interferometry based on Timoshenko beam theory under weak and moderate motion. Soil Dynamics and Earthquake Engineering, 104, 131-142. doi : 10.1016/j.soildyn.2017.09.031
  • Nazri F.M., Tan C.G., and Saruddin S.N.A. (2018). Fragility curves of regular and irregular moment-resisting concrete and steel frames. International Journal of Civil Engineering, 16(8), 917-927. doi : 10.1007/s40999-017-0237-0
  • Perron V., Laurendeau A., Hollender F., Bard P.Y., Gélis C., Traversa P., and Drouet S. (2018). Selecting time windows of seismic phases and noise for engineering seismology applications : a versatile methodology and algorithm. Bulletin of Earthquake Engineering, 16(6), 2211-2225. doi : 10.1007/s10518-017-0131-9
  • Riedel I., and Guéguen P. (2018). Modeling of damage-related earthquake losses in a moderate seismic-prone country and cost-benefit evaluation of retrofit investments : application to France. Natural Hazards, 90(2), 639-662. doi : 10.1007/s11069-017-3061-6
  • Theunissen T., Chevrot S., Sylvander M., Monteiller V., Calvet M., Villaseñor A., Benahmed S., Pauchet H., and Grimaud F. (2018). Absolute earthquake locations using 3-D versus 1-D velocity models below a local seismic network : example from the Pyrenees. Geophysical Journal International, 212(3), 1806-1828. doi : 10.1093/gji/ggx472

2017

  • Ameri G., Drouet S., Traversa P., Bindi D., and Cotton F. (2017). Toward an empirical ground motion prediction equation for France : accounting for regional differences in the source stress parameter. Bulletin of Earthquake Engineering, 15(11), 4681-4717. doi : 10.1007/s10518-017-0171-1
  • Ameri G., Hollender F., Perron V., and Martin C. (2017). Site-specific partially nonergodic PSHA for a hard-rock critical site in southern France : adjustment of ground motion prediction equations and sensitivity analysis. Bulletin of Earthquake Engineering, 15(10), 4089-4111. doi : 10.1007/s10518-017-0118-6
  • Berge-Thierry C., Hollender F., Guyonnet-Benaize C., Baumont D., Ameri G., and Bollinger L. (2017). Challenges ahead for nuclear facility site-specific seismic hazard assessment in France : the Alternative Energies and the Atomic Energy Commission (CEA) vision. Pure and Applied Geophysics, 174(9), 3609-3633. 10.1007/s00024-017-1582-2
  • Bonilla L.F., Guéguen P., Lopez-Caballero F., Mercerat E.D., and Gélis C. (2017). Prediction of non-linear site response using downhole array data and numerical modeling : the Belleplaine (Guadeloupe) case study. Physics and Chemistry of the Earth, 98, 107-118. doi : 10.1016/j.pce.2017.02.017
  • Cara M., Denieul M., Sèbe O., Delouis B., Cansi Y., and Schlupp A. (2017). Magnitude Mw in metropolitan France. Journal of Seismology, 21(3), 551-565. doi : 10.1007/s10950-016-9617-1
  • Dolce M., Nicoletti M., De Sortis A., Marchesini S., Spina D., and Talanas F. (2017). Osservatorio sismico delle strutture : the Italian structural seismic monitoring network. Bulletin of Earthquake Engineering, 15(2), 621-641. doi :10.1007/s10518-015-9738-x
  • Felicetta C., D’Amico M., Lanzano G., Puglia R., Russo E., and Luzi L. (2017). Site characterization of Italian accelerometric stations. Bulletin of Earthquake Engineering, 15(6), 2329-2348. doi : 10.1007/s10518-016-9942-3
  • Guéguen P., Langlais M., Garambois S., Voisin C., and Douste-Bacqué I. (2017). How sensitive are site effects and building response to extreme cold temperature ? The case of the Grenoble’s (France) City Hall building. Bulletin of Earthquake Engineering, 15(3), 889-906. doi : 10.1007/s10518-016-9995-3
  • Guéguen P., and Tiganescu A. (2017). Condition-based decision using traffic-light concept applied to civil engineering buildings. Procedia Engineering, 199, 2096-2101. doi : 10.1016/j.proeng.2017.09.481
  • Pecker A., Faccioli E., Gurpinar A., Martin C., and Renault P. (2017). Probabilistic seismic testing and updating of seismic hazard results. In : An overview of the SIGMA research project (pp. 141-146). Geotechnical, Geological and Earthquake Engineering book series, 42, Springer International Publishing. doi : 10.1007/978-3-319-58154-5
  • Perron V., Hollender F., Bard P.Y., Gélis C., Guyonnet‐Benaize C., Hernandez B., and Ktenidou O.J. (2017). Robustness of Kappa (κ) measurement in low‐to‐moderate seismicity areas : insight from a site‐specific study in Provence, France. Bulletin of the Seismological Society of America, 107(5), 2272-2292. doi : 10.1785/0120160374

2016

  • Abdi, S. (2016). Evolutionary process of OMA method based on natural frequency and damping ratio. Journal of Basic and Applied Advances in Sciences Vol, 4(1), 1-11.En savoir plus
  • Cauzzi C., Sleeman R., Clinton J., Ballesta J. D., Galanis O., Kästli P. 2016. Introducing the European rapid raw strong‐motion database. Seismological Research Letters, 87(4), 977-986. doi : 10.1785/0220150271
  • Guéguen P., Colombi A. 2016. Experimental and numerical evidence of the clustering effect of structure on their response during earthquake : a case study of three identical towers in the city of Grenoble (France), Bulletin of Seismological Society of America, 106(6) : 2855–2864. doi :10.1785/0120160057
  • Lanzano, G., D’Amico, M., Felicetta, C., Puglia, R., Luzi, L., Pacor, F., & Bindi, D. (2016). Ground‐Motion Prediction Equations for Region‐Specific Probabilistic Seismic‐Hazard Analysis. Bulletin of the Seismological Society of America, 106(1), 73-92. doi :10.1785/0120150096
  • Luzi L., Puglia R., Russo E., D’Amico M., Felicetta C., Pacor F., … Duni L. 2016. The Engineering Strong‐Motion Database : A Platform to Access Pan‐European Accelerometric Data. Seismological Research Letters, 87(4):987-997. doi : 10.1785/0220150278
  • Mayor J., Calvet M., Margerin L., Vanderhaeghe O., Traversa P. 2016. Crustal structure of the Alps as seen by attenuation tomography. Earth and Planetary Science Letters, 439, 71-80. doi :10.1016/j.epsl.2016.01.025
  • St Fleur, S., Bertrand, E., Courboulex, et al. 2016. Site Effects in Port‐au‐Prince (Haiti) from the Analysis of Spectral Ratio and Numerical Simulations. Bulletin of the Seismological Society of America. 106(3), 1298-1315. doi : 10.1785/0120150238

2015

  • Drouet S., Cotton F. 2015. Regional Stochastic GMPEs in Low‐Seismicity Areas : Scaling and Aleatory Variability Analysis—Application to the French Alps, Bulletin of the Seismological Society of America, 105(4) : 1883-1902. doi : 10.1785/0120140240
  • Lancieri M., Renault M., Perrault M., Baumont D., Guéguen P., Berge-Thierry C. 2015. Naïve Bayesian classifier for the selection of input ground motions for inelastic structural response analysis, Bulletin of Earthquake Engineering, 13(9):2517-2546 doi :10.1007/s10518-015-9728-z
  • Larose E., Carrière S., Voisin C., Bottelin P., Baillet L., Guéguen P., Walter F., Jongmans D., Guillier B., Garambois S., Gimbert F., Massey C. 2015. Environmental Seismology : what can we learn on Earth surface processes with ambient noise ? Journal of Applied Geophysics, 116:62–74, doi :10.1016/j.jappgeo.2015.02.001

2014

  • Akkar S., Sandikkaya M., Senyurt M., Sissi Azzari A., Traversa P., Douglas J., Cotton F., Luzi L., Hernandez B., Godey S. 2014. Reference data base for seismic ground-motion in Europe (RESORCE), Bulletin of Earthquake Engineering 12 (1) 311-339. Doi : 10.1007/s10518-013-9506-8
  • Diehl T., Clinton J., Kraft T., Husen S., Plenkers K., Guilhelm A., … Wiemer S. 2014. Earthquakes in Switzerland and surrounding regions during 2013. Swiss Journal of Geosciences, 107(2-3), 359–375. doi :10.1007/s00015-014-0171-y
  • Shen Y.S., Letort J., Cotton F., Drouet S. 2014. High frequency directivity effects : evidence from analysis of Les Saintes records, J. Seismol ; doi :10.1007/s10950-014-9419-2
  • Tasan H., Beauval C., Helmstetter A., Sandikkaya A., Guéguen P. 2014. Testing probabilistic seismic hazard estimates against accelerometric data in two countries : France and Turkey, in press, Geophys. J. Int., doi : 10.1093/gji/ggu191

2013

  • Calvet M., Sylvander M., Margerin L. , Villasenor A. 2013. Spatial variations of seismic attenuation and heterogeneity in the Pyrenees : Coda Q and peak delay time analysis, Tectonophysics 608, 428-439. doi :10.1016/j.tecto.2013.08.045
  • Calvet, M. and L. margerin (2013). Lapse-time dependence of coda Q : anisotropic multiple-scattering models and application to the Pyrenees, Bull. Seismol. Soc. Am., 103, 1993-2010.
  • Causse, M., A. Laurendeau, M. Perrault, J. Douglas, F. Bonilla, P. Guéguen 2013. Eurocode 8-compatible synthetic time-series as input to dynamic analysis, Bull. Earth. Eng., 12(2), 755-768 doi : 10.1007/s10518-013-9544-2
  • Courboulex F., Dujardin A., Vallée M., Delouis B., Sira C., Deschamps A., Honoré L., Thouvenot F. 2013. High-frequency directivity effects for an Mw 4.1 earthquake widely felt by the population in Southeastern France, Bull. Seismol. Soc. Am. 103(6), 3347-3353. doi : 10.1785/0120130073
  • Mikael, A., P. Guéguen, P.Y. Bard, P. Roux, M. Langlais (2013). The analysis of long-term frequency and damping wandering in buildings using the random decrement technique, Bull. Seismol. Soc. Am., 103, 236-246.
  • Régnier, J., C. Michel, E. Bertrand, P. Guéguen (2013). Contribution of ambient vibration recordings (free-field and buildings) for post-seismic analysis : The case of the Mw 7.3 Martinique (French Lessee Antilles) earthquake, Novembre 29, 2007, Soil Dynamics and Earthquake Engineering 50, 162-167.
  • Rietbrock, A., F. Strasser and B. Edwards (2013). A stochastic earthquake ground-motion prediction model for United Kingdom, Bull. Seismol. Soc. Am., 103, 57-77.

2012

  • Beauval, C., H. Tasan, A. Laurendeau, E. Delavaud, F. Cotton, P. Guéguen and N. Kuehn N. (2012). On the testing of ground-motion prediction equations against small-magnitude data, Bulletin of Seismological Society of America, 102, 1994-2007.
  • Guéguen, P. (2012). Experimental analysis of the seismic reponse of one base-isolation building according to different levels of shaking : example of the Martinique earthquake (2007/11/29) Mw 7.3, Bulletin of Earthquake Engineering, doi:10.1007/s10518-012-9355-x
  • Michel, C., Guéguen P., Causse M. (2012). Seismic vulnerability assessment to slight damage based on experimental modal parameters, Earthquake Engineering and Structural Dynamics, 41, 81-98.

2011

  • Beauducel F., S. Bazin, M. Bengoubou-Valérius, M.-P. Bouin, A. Bosson, C. Anténor-Habazac, V. Clouard, J.-B. de Chabalier (2011). Empirical model for rapid macroseismic intensities prediction in Guadeloupe and Martinique. C.R. Geoscience, 343:11-12, 777-788, doi:10.1016/j.crte.2011.09.004.
  • Chevrot, S., Sylvander M., Delouis B. (2011). A preliminary catalog of moment tensors for the Pyrenees, Tectonophysics, 510, 239-251, doi : 10.1016/j.tecto.2011.07.011.
  • Douglas, J. and Boore D.M. (2011). High-frequency filtering of strong-motion records, Bulletin of Earthquake Engineering, 9(2), 395-409, DOI : 10.1007/s10518-010-9208-4
  • Drouet, S., Bouin M.-P., Cotton F. (2011). New moment magnitude scale, evidence of stress drop magnitude scaling and stochastic ground motion model for the French West Indies, Geophysical Journal International, 187(3):1625–1644. DOI : 10.1111/j.1365-246X.2011.05219.x
  • Feuillet, N., Beauducel F., Jacques E., Tapponnier P., Delouis B., Bazin S., Vallée M., King G.C. (2011). The Mw = 6.3, November 21, 2004, Les Saintes earthgquake (Guadeloupe) : Tectonic setting, slip model and static stress changes, Journal of Geophysical Research, 116, doi:10.1029/2011JB008310
  • Guéguen P., Langlais M., Foray P., Rousseau C., Maury J. (2011). A Natural Seismic Isolating System : The Buried Mangrove Effects, Bull seism. Soc. Am., 101(3) : 1073-1080. doi : 10.1785/0120100129.
  • Honoré, L., Courboulex C., Souriau A. (2011). Ground motion simulations of a major historical earthquake (1660) in the French Pyrenees using recent moderate size earthquakes, Geophysical Journal International, 187(2) : 1001–1018. DOI : 10.1111/j.1365-246X.2011.05193.x
  • Péquegnat C., Jacquot R., Guéguen P., Godey S., Frobert L. (2011). Distributed archive and single access system for accelerometric event data : a NERIES initiative. In Akkar S, Gülkan P, van Eck T (Eds.) Earthquake Data in Engineering Seismology. Geotechnical, Geological, and Earthquake Engineering 14(2) : 129-142, doi : 10.1007/978-94-007-0152-6_10
  • Roca A., Guéguen P., Godey S., Goula X., Susagna T., Péquegnat C., Oliveira C.S., Clinton J., Pappaioanou C., Zulficar C. (2011). The European-Mediterranean distributed accelerometric data-base. In Akkar S, Gülkan P, van Eck T (Eds.) Earthquake Data in Engineering Seismology. Geotechnical, Geological, and Earthquake Engineering 14(2):115-128, doi : 10.1007/978-94-007-0152-6_9
  • Souriau A., Chaljub E., Cornou C., Margerin L., Calvet M., Maury J., Wathelet M., Ponsolles C., Grimaud F., Péquegnat C., Langlais M., Guéguen P. (2011). Multimethod characterization of the French Pyrenean valley of Bagnères-de-Bigorre for seismic hazard evaluation : observations and models, Bull seism. Soc. Am., 101(4) : 1912–1937, doi : 10.1785/0120100293

2010

  • Courboulex F., Converset J., Balestra J., Delouis B. (2010). Ground-Motion Simulations of the 2004 Mw 6.4 Les Saintes, Guadeloupe, Earthquake Using Ten Smaller Events, Bull. seism. Soc. Am., 100(1):116-130, doi 10.1785/0120080372
  • Douglas J., Gehl P., Bonilla F.L., Gélis C. (2010). A K Model for Mainland France, Pure and Applied Geophysics, 167, 1303–1315, DOI 10.1007/s00024-010-0146-5
  • Drouet, S.,Cotton, F. and Guéguen P. (2010). VS30, K, regional attenuation and Mw from accelerograms : application to magnitude 3–5 French earthquakes, Geophysical Journal International, 182(2) : 880–898, DOI : 10.1111/j.1365-246X.2010.04626.x
  • Michel C., Guéguen P. (2010). Time–Frequency Analysis of Small Frequency Variations in Civil Engineering Structures Under Weak and Strong Motions Using a Reassignment Method, Structural Health Monitoring, 9(2):159–13, doi 10.1177/1475921709352146.
  • Michel C., Guéguen P., El Arem S., Mazars J. and Kotronis P. (2010). Full Scale Dynamic response of a RC building under weak seismic motions using earthquake recordings, ambient vibrations and modelling, Earthq. Engng and Struct. Dyn., 2010 ; 39:419–441, doi 10.1002/eqe.948.
  • Roullé A., Bernardie S. (2010). Comparison of 1D non-linear simulations to strong-motion observations : A case study in a swampy site of French Antilles (Pointe-à-Pitre, Guadeloupe). Soil Dyn. Earthq. Engng. 30 (2010) 286–298
  • Salichon J., Kohrs-Sansorny C, Bertrand E., Courboulex F. (2010). Earthquake scenario in the city of Nice (South-East France) : Ground motion simulations , J. Seismology., 1383-4649, doi : 10.1007/s10950-009-9180

2009

  • Beauval C., Honoré L., Courboulex F. (2009). Ground-Motion Variability and Implementation of a Probabilistic–Deterministic Hazard Method, Bull. Seism. Soc. Am., 99 : 2992 – 3002.
  • Causse M., Chaljub E., Cotton F., Cornou C., Bard P.Y. (2009). New approach for coupling k-2 technique and Empirical Green’s Functions : Application to the blind prediction of broadband ground-motion in the Grenoble basin, Geophys. J. Int., 179 : 1627–1644 doi : 10.1111/j.1365-246X.2009.04354.x
  • Delouis, B., Charlety, J., and M. Vallée (2009). A Method for Rapid Determination of Moment Magnitude Mw for Moderate to Large Earthquakes from the Near-Field Spectra of Strong-Motion Records (MWSYNTH), Bull. Seism. Soc. Am., 99(3):1827-1840, doi : 10.1785/0120080234
  • Douglas, J. and Mohais R. (2009). Comparing predicted and observed ground motions from subduction earthquakes in the Lesser Antilles, Journal of Seismology, 13(4), 577-587 ; DOI 10.1007/s10950-008-9150-y
  • Douglas, J. Gehl, P., Bonilla, L.F., Scotti, O., Renier, J., Duval, A.M. and Bertrand, E. (2009). Making the most of available site information for empirical ground-motion prediction, Bulletin of the Seismological Society of America, 99(3), 1502-1520, doi : 10.1785/0120080075
  • Douglas, J. and R. Mohais (2009). Comparing predicted and observed ground motions from subduction earthquakes in the Lesser Antilles, Journal of seismology, DOI 10.1007/s10950-008-9150-y
  • Salichon J., Lemoine A., Aochi H. (2009). Validation of Teleseismic Inversion of the 2004 Mw 6.3 Les Saintes, Lesser Antilles, Earthquake by 3D Finite-Difference Forward Modeling, Bull. Seism. Soc. Am., 99(6), 3390–3401 doi : 10.1785/0120080315

2008

  • Beauval C. , PY. Bard, S. Hainzl, P. Guéguen (2008). Limited constraints on probabilistic seismic hazard estimates , Bull. Seism. Soc. Am., 98 (2), 509-520 : DOI : 10.1785/0120070006
  • Bengoubou-Valerius, M., S. Bazin, D. Bertil, F. Beauducel and A. Bosson (2008). CDSA : a new seismological data center for the French Lesser Antilles. SRL, 79(1), 90-115.
  • Causse M., F. Cotton, C. Cornou, P.Y. Bard (2008). Calibrating Median and Uncertainty Estimates for a Practical Use of Empirical Green ?s Functions Technique, BSSA, 98(1), p344-353.
  • Cotton F., G. Pousse, F. Bonilla, and F. Scherbaum (2008). On the Discrepancy of Recent European Ground-Motion Observations and Predictions from Empirical Models : Analysis of KiK-net Accelerometric Data and Point-Sources Stochastic Simulations, Bull. seism. Am., 98 : 2244-2261.
  • Douglas, J. and P. Gehl. (2008). Investigating strong ground-motion variability using analysis of variance and two-way-fit plots. Bull Earthq. Engng, DOI 10.1007/s10518-008-9063-8
  • Drouet, S., Chevrot, S.,Cotton, F. and Souriau, A. (2008). Simultaneous Inversion of Source Spectra, Attenuation Parameters, and Site Responses : Application to the Data of the French Accelerometric Network. Bull. Seismol. Soc. Am., 98:2349-2363
  • Péquegnat, C., P. Guéguen, D. hatzfeld and M. Langlais (2008). The French Accelerometric Network (RAP) and National Data Centre (RAP-NDC). SRL, 79(1), 79-89.
  • 2007
  • Courboulex, F. et al. (2007). Seismic hazard on the French Riviera : observations, interpretations and simultions. Geophysical Journal Int., 170(1), 387-400.
  • Douglas, J. (2007). Inferred ground motions on Guadeloupe during the 2004 Les Saintes earthquake. Bull. Earthq. Engng., 5(3), 363-376.
  • Guéguen, P., C. Cornou, S. Garambois and J. Banton. (2007). On the limitation of the H/V spectral ratio using seismic noise as an exploration tool. Application to the Grenoble basin (France), PAGEOPH, 164(1), 115-134.
  • Jousset, P. and J. Douglas (2007). Long-period earthquake displacements recorded on Guadeloupe (French Antilles). Earthq. Engng. Struct. Dyn., 36(7), 949-963.
  • Souriau, A. A. Roullé and C. Ponsolles (2007). Site effects in the City of Lourdes, France, from H/V measurements : implications for seismic-risk evaluation. Bull. Seism. Soc. Am., 97(6), 2118-2136.
  • Sylvander, M., Monod, B., Souriau, A. and Rigo, A. (2007). Analyse d’un essaim de sismicite (mai 2004) dans les Pyrenees-Orientales : vers une nouvelle interpretation tectonique du seisme de Saint-Paul-de-Fenouillet (1996). Compte-Rendus de l’Académie des Sciences Paris, Geosciences, 339(1), 75-84.

Before 2007

  • Douglas, J., D. Bertil, A. Roullé, P. Dominique and P. Jousset. (2006). A preliminary investigation of strong-motion data from the French Antilles. J Seismol, 10, 271-299.
  • Drouet, S., Scherbaum, F., Cotton, F. and Souriau, A. (2006). Selection and ranking of ground-motion models for seismic hazard analysis in the Pyrenees. J. Seismol., 11(1), 87-100, doi:10.1007/s10950-006-9039-6
  • Souriau, A. (2006). Quantifying felts events : a joint analysis of intensities, accelerations and dominant frequencies. J. Seismol. 10, doi : 10. 1007/s10950-006-2843-1.
  • Kohrs-Sansorny, C., F. Courboulex, M. Bour and A. Deschamps (2005). A two-stage method for ground-motion simulation using stochastic summation of small earthquakes. Bull. Seism. Soc. Am.., 95-4, 1387-1400.
  • Drouet, S., Souriau, A. and Cotton, F. (2005). Attenuation, seismic moment and site effects for weak motion events. Application to the Pyrenees. Bull. Seism. Soc. Am. 95. 1731-1748.
  • Rigo A., A. Souriau, N. Dubos, M. Sylvander et C. Ponsolles (2005). Analysis of the seismicity in the central part of the Pyrenees (France), and tectonic implications. Journal of Seismology, 211-222, DOI : 210.1007/s10950-10005-12775-10951
  • Ambraseys, N.N., P. Smit, J. Douglas, B. Margaris, R. Sigbjörsson, S. Olafsson, P. Shuhadloc and G. Costa (2004). Internet site for European strong-motion data, Bolletino di Geofisica Teorica ed applicata, 45, 113-129.
  • Dubos, N., M. Sylvander, A. Souriau, C. Ponsolles, S. Chevrot, J.-F. Fels and S. Benahmed (2004). Analysis of the May 2002 earthquake sequnce in the central Pyrénées : Consequences for the evaluation of the seimic risk at Lourdes, France. Geophys. J. Int., 156, 527-540.
  • Marin, S., J. P. Avouac, M. Nicolas and A. Schlupp (2004). A probabilistic approach to seismic hazard in Metropolitan France, Bull. Seism. Soc. Am., 94, 2137-2163.
  • Scherbaum, F., F. Cotton and P. Smit (2004). On the use of response spectral reference data for the selection of ground motion models for seismic hazard analysis : the case of rock motion. Bull. Seism. Soc. Am., 94, 2164-2185.
  • Dubos, N., A. Souriau, C. Ponsolles, J.F. Fels et G. Sénéchal (2003). Etudes des effets de site dans la ville de Lourdes (Pyrénées, France) par la méthode des rapports spectraux. Bull. Soc. Geol. France, 174(1), 33-44.
  • Courboulex, F., C. Larroque, A. Deschamps, C. Gélis, J. Charreau and J.-F. Stéphan (2003). An unknown active fault revealed by microseismicity in the south-east of France, Science, 30-15, 1782.
  • Courboulex F., A.M. Duval, A. Deschamps, A. Lomax, C. Larroque (2001). Les enseignements du petit séisme de Peille (Alpes maritimes, France), C.R. Acad. Sci., 333, 105-112.
  • Larroque C., N. Béthoux, E. Calais, F. Courboulex, A. Deschamps, J. Déverchère, J.F. Stéphan, J.F. Ritz, E. Gilli (2001). Joint multidisciplinary studies of active faults and seismic hazard at the junction between southern French Alps and Ligurian bassin, Abstract volume Paleosis, Han sur Less (Belgium), 89-92.
  • Larroque C., N. Béthoux, E. Calais, F. Courboulex, A. Deschamps, J. Déverchère, J.F. Stéphan, J.F. Ritz, E. Gilli (2001). Active and recent deformation at the southern Alps-Ligurian bassin junction, Netherland Journal of Geosciences/Geologie en Mijnbouw, 80, 255-272.
  • Lebrun B., D. Hatzfeld and P.-Y. Bard (2001). Site effects study in urban area : experimental results in Grenoble, Pure and Applied Geophysics,158, 2543-2557.
  • Brüstle, W. (1999). Starkbebenmessnetz am Ober-rhein. – Dt.-franz.-schweiz. Oberrheinkonferenz, Gemeins. Sekretariat, Bull., 6 : 16–19, 1 Abb. ; Kehl, 1999.
  • Brüstle, W. M. Granet und U. Achauer (1999). Starkbebenmessnetz am Oberrhein. – D-A-CH-Mitt.-Bl., 18 (1) : 10–15, 1 Abb. ; Berlin, 1999
  • Courboulex F., N. Deichmann, J.C. Gariel (1999). Rupture complexity of a moderate intraplate earthquake in the Alps : the 1996 M5 Epagny-Annecy earthquake. Geophys. J. Int,139, 152-160.
  • Brüstle, W. und D.H. Storch (1998). Starkbebenmeßnetz am Oberrhein. – BDG-Mitt.-Bl., 80 : 31–32 ; Bonn, 1998.
  • Courboulex F., A. Deschamps, M. Cattaneo, F. Costi, J. Deverchère, J. Virieux, P. Augliera, V. Lanza, D. Spallarossa (1998). Source study and tectonic implications of the April 21, 1995 Ventimiglia (border of Italy and France) earthquake (Ml 4.7), Tectonophysics, 290, 245-257

Autres publications décrivant le réseau RAP

  • Dominique, P., D. Bertil, V. Clouart, J.-B. De Chabalier, M.-P. Bouin, B. Naigre, M. Bengoubou-Valerius, J. Douglas, M. Cara, P. Guéguen (2009), L’accélérométrie aux Antilles, 1er Colloque SEISMCARE, Martinique, 22-24 juin 2009.
  • Le Réseau accélérométrique permanent (RAP) dans les Alpes, Géologues, Numéro 161 spécial Alpes-Jura (2), Juin 2009, ISSN 0016.7916.
  • Guéguen, P., C. Péquegnat, A. Souriau, P.-Y. Bard, M. Cara, P. Dominique and M. Régnier (2007). The French Accelermetric Network (RAP) : current state in 2007. Proc. Int. Symp. on Seismic Risk Reduction, Bucarest, Romania, 26-27 April, paper #3.
  • Guéguen, P., A. Souriau, C. Péquegnat, P. Dominique, P.-Y. Bard, M. Cara and M. Régnier (2007). Le réseau Accélérométrique Permanent RAP : état des lieux en 2007. Actes du 7ème Colloque National AFPS, Paris, 04-06 juillet, papier 045.
  • Péquegnat, C. and P. Guéguen. (2006). Seismological knowledge representation with BDsis : the case of the French Accelerometric network (RAP), in Proc. First European Conf. on Earthquake Engineering and Seismology, Geneva, Switzerland, 3-8 September 2006, paper# 1471.
  • Berge-Thierry, C., J.F. Fels, P. Dervin, P. Guéguen, S. Nechtschein, D. Hatzfeld, P. Volant, P.Y. Bard, F. Courboulex , P. Dominique, B. Feignier. (2004). The French permanent accelerometric network : technological and parametrical choices, scientific goals and results, Workshop on strong motion record processing, COSMOS, Richmond, CA, May 26-27.
  • Hatzfeld, D. et al. (2003). Le Réseau Accélérométrique Permanent, Geologues, 135, p.31-35.
  • Hatzfeld, D. et al. (2002). The French Accelerometric Network (RAP) : a free access to data, XXVIII General Assembly, European Seismological Commission, 1-6 Sept 2002, Genoa.
  • Cotton, F. et D. Hatzfeld (2002). Réseau Accélérométrique Permanent. Cahier Technique AFPS n°23, pp 57-69.
  • Hatzfeld, D. et al. (2001). Recent development of a co-operative National Accelerometric Network in France (RAP) : description and first results. AGU, Fall meeting, Decembre 2001, San Francisco.