More information SHMC

Projects

2021-2025E-City – Near-fault observation and simulation of earthquake ground motion in an urban environment – Grant ANR-21-CE22-0020WP leader
2018-2023 - URBASIS-EU : New challenges for Urban Engineering Seismology - Projet H2020 - MSCA-Innovative Training Network - Grant H2020-MSCA-ITN-2018 - Coordinator
2015-2019 - REMAKE : Seismic Risk in Ecuador : Mitigation, Anticipation and Knowledge of Earthquakes - Grant ANR-15-CE04-0004 - Partner
2009-2012 - ISIBAT : Seismic inventory of existing buildings - Projet stratégique Interreg RiskNat : Gestion en sécurité des territoires de montagne transfrontaliers - Sub-contractor for the DREAL Rhône-Alpes- Coordinator
2007-2010 - ARVISE : Analyse et Réduction de la Vulnérabilité sISmique du bâti Existant - Grant ANR-06-RGCU-0007 - Partner and WP leader

Publications

● Ghimire S., Guéguen P. 2024. Capacity curves for monitored existing buildings and within- and between-building variability of secant stiffness, Bulletin Earthquake Engineering, accepted.

● Rodet, J., Tauzin, B., Panah M.P., Guéguen, P., Nziengui Bâ, D., Coutant O., Brûlé, S. 2024 Urban dark fiber DAS for bridge monitoring, accepted to Struct. Health Mon.

● Cattari S., Guéguen P., Venanzi Ilaria Eds. 2023. Special Issue "Structural Health Monitoring of Masonry Buildings : Current Practice and Future Challenges", Buildings, Web access

● Montabert A, Giry C, Limoge Schraen C, Lépine J, Choueiri C, Mercerat E D, Guéguen P. 2023. An open database to evaluate the fundamental frequency of historical masonry towers through empirical and Physics-based formulations. Buildings, 13(9), 2168. doi : 10.3390/buildings13092168

Guéguen P, Astorga A., Langlais L. 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.

● Chen Y., Guéguen P., Huihsuan Chen K., Lin C.‐J., Ku C.‐S., Huang W.‐G. , Huang B.‐S., Chen K.‐C.. 2023. Dynamic characteristics of TAIPEI 101 skyscraper from rotational and translation seismometers. Bulletin of the Seismological Society of America, 113 (2) : 690–709. doi : 10.1785/0120220147

● Combey A., Mercerat E.D., Guéguen P., Langlais M., Audin L. 2022. Post-seismic survey of a historic masonry tower and monitoring of its dynamic behaviour in the aftermath of Le Teil earthquake (Ardèche, France). Bulletin of the Seismological Society of America.
10.1785/0120210258

● Iaccarino, A. G., Gueguen, P., Picozzi, M., Ghimire, S. 2021. Earthquake Early Warning System for Structural Drift Prediction using Machine Learning Regressors. Front. Earth Sci., 9 : 545. doi : 10.3389/feart.2021.666444

● Ghimire S., Guéguen P., Astorga A. 2021. Analysis of the efficiency of Intensity Measures from real earthquake data recorded in buildings, Soil Dynamics and Earthquake Engineering, 147, paper 106751. doi : 10.1016/j.soildyn.2021.106751.

● Skłodowska A.M., Holden C., Guéguen P., Finnegan J., Sidwell G. 2021. Structural change detection applying long-term seismic interferometry by deconvolution method to a modern civil engineering structure (New Zealand). Bull Earthquake Eng. 19 : 3551–3569. doi : 10.1007/s10518-021-01110-3

Guéguen P., Astorga A. 2021. The torsional response of civil engineering structures during earthquake from an observational point of view. Sensors, 21(2), 342. doi : 10.3390/s21020342

Guéguen P., Guattari F., Aubert C., Laudat T. 2021. Comparing direct observation of torsion with array-derived rotation in civil engineering structures. Sensors, 21:142. doi : 10.3390/s21010142

● Chaimaa J., Bertrand D., Guillot T., Prudhomme E., Tardif N., Georgin J.-F., Delhomme F., Trunfio R., Chateur N., Bruyere E., Augeard E., Baillet L., Guéguen P., Grange S. 2020. Effect of early age drying shrinkage on the seismic response of RC structures, Materials and Structures, 53 : 153. doi :10.1617/s11527-020-01552-2

● Astorga A., Guéguen P. 2020. Influence of seismic strain rates on the co‐ and post‐seismic response of civil engineering buildings. Earthquake Engineering and Structural Dynamics. doi : 10.1002/eqe.3328

● Astorga A., Guéguen P. 2020. Structural health building response induced by earthquakes : material softening and recovery. Engineering Reports, ID : 16809632. doi : 10.1002/eng2.12228

● Perrault M., Guéguen P., Parra G., Sarango J. 2020. Modification of the data-driven period/height relationship for buildings located in seismic-prone regions such as Quito (Ecuador), Bull Earthquake Engng., 18(8), 3545-3562. doi : 10.1007/s10518-020-00840-0

Guéguen P., Brossault M.-A., Roux P., Singaucho J.-C. 2020. Slow dynamics process observed in civil engineering structures to detect structural heterogeneities, Engineering Structures, 202:109833. doi : 10.1016/j.engstruct.2019.109833.

● Astorga A., Guéguen P., Ghimire S., Kashima T. 2020. NDE1.0 : a new database of earthquake data recordings from buildings for engineering applications, Bull Earthquake Eng., 18:1321–1344. doi : 10.1007/s10518-019-00746-6

Guéguen P., Mercerat D.E., Alarcon F. 2019. Parametric study on the interpretation of wave valocity obtained by seismic interferometry in beam-like buildings, Bulletin of the Seismological Society of America, 109 (5) : 1829–1842. doi : 10.1785/0120190054

● Astorga A.L., Guéguen P., Rivière J., Kashima T. Johnson P.A. 2019. Recovery of the resonance frequency of buildings following strong seismic deformation as a proxy for structural health. Structural Health Monitoring, doi :10.1177/1475921718820770

Guéguen P., Tiganescu A. 2018. Consideration of the effects of air temperature on Structural Health Monitoring through Traffic Light-based decision-making tools. Shock and Vibration, 2018:ID 9258675, 12 pages. doi :0.1155/2018/9258675.

● Astorga A., Guéguen P., Kashima T. 2018. Nonlinear elasticity observed in buildings during a long sequence of earthquakes. Bulletin of the Seismological Society of America, 108 (3A) : 1185-1198. doi : 10.1785/0120170289.

● Brossault M.B., Roux P., 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

● Michel C., 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. 10.1016/j.soildyn.2017.09.031

Guéguen P., Langlais M., Garambois S., Voisin C., 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, 2017, 15(3):889–906. doi :10.1007/s10518-016-9995-3.

Guéguen P., Johnson P., Roux P. 2016. Nonlinear dynamics induced in a structure by seismic and environmental loading, Journal of the Acoustical Society of America, 140(1):582-590. doi : 10.1121/1.4958990

● Gallipolli M.R., Stabile T. A., Guéguen P., Mucciarelli M., Comelli P., Bertoni M. 2016. Fundamental period elongation of a RC building during the Pollino seismic swarm sequence, Case Studies in Structural Engineering, 6:45-52. doi :10.1016/j.csse.2016.05.005

● Nasser F., Li Z., Guéguen P., Martin N. 2016. Frequency and damping ratio assessment of high-rise buildings using an Automatic Model-Based Approach applied to real-world ambient vibration recordings, Mechanical Systems and Signal Processing, 75, 196–208. doi :10.1016/j.ymssp.2015.12.022

● Nasser F., Li Z., Martin N., Guéguen P. 2016. An automatic approach towards modal parameter estimation for high-rise buildings of multicomponent signals under ambient excitations via filter-free Random Decrement Technique, Mechanical Systems and Signal Processing, 70–71, 821–831. doi : 10.1016/j.ymssp.2015.08.008

● Perrault M., Guéguen P. 2015. Correlation between ground motion and building response using Californian earthquake records. Earthquake Spectra, 31(4) : 2027-2046 - doi : 10.1193/062413EQS168M

Guéguen P., Hamze A., Baillet L., Roux P. 2014. Numerical and experimental assessment of the performance of four nondestructive damage evaluation methods in situations comparable to post-earthquake damage analysis, International Journal of Earthquake Engineering, Special Issue “Structural Health Monitoring”, December 01, 2014. pdf

● Roux P., Guéguen P., Baillet L., Hamze A. 2014. Structural-change localization and monitoring through a perturbation-based inverse problem. The Journal of the Acoustical Society of America, 136(5), 2586-2597. doi : 10.1121/1.4897403

● Perrault M., Guéguen P., Aldea A., Demetriu S. 2013. Reducing the uncertainties of the fragility curves using experimental testing in existing buildings : the case of the BRD Tower of Buccarest (Romania). Earthquake Engineering and Engineering Vibration, 12(4) : 643-658, doi 10.1007/s11803-013-0203-z

● Régnier J., Michel C., Bertrand E., Guéguen P. 2013. Contribution of ambient vibration recordings (free-field and buildings) for post-seismic analysis : the case of the Mw 7.3 Martinique (French lesser Antilles) earthquake, November 29, 2007. Soil Dynamics and Earthquake Engineering, 50, 162-167, doi 10.1016/j.soildyn.2013.03.007

● Mikael A., Guéguen P., Bard P.-Y., Roux P., Langlais M. 2013. Long-term frequency and damping wandering in buildings analysed using the Random Decrement Technique (RDT), Bull seism. Soc. Am., 103(1) : 236-246, doi 10.1785/0120120048

Guéguen P. 2012. Experimental analysis of the seismic response of an isolating building according to different levels of shaking : example of the Martinique earthquake (2007/11/29) Mw 7.3. Bull Earthq. Engng., 10(4) : 1285-1298, 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(1) : 81-98, DOI : 10.1002/eqe.1119
● Michel C., Guéguen P., Lestuzzi P., Bard P.-Y. 2010. Comparison between seismic vulnerability models and experimental dynamic properties of existing buildings in France, Bulletin of Earthquake Engineering, 8(6) : 1295-1307, DOI : 10.1007/s10518-010-9185-7

● 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) : 159–171, doi:10.1177/1475921709352146

● Michel C., Guéguen P., El Arem S., Mazars J., 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.

● Michel C., Guéguen P., Bard P.-Y. 2008. Dynamic parameters of structures extracted from ambient vibration measurements : An aid for the seismic vulnerability assessment of existing buildings in moderate seismic hazard regions, Soil Dynamics and Earthquake Engineering, 28 (8), 593-604. doi:10.1016/j.soildyn.2007.10.002

● Dunand F., Ait Meziane Y., Guéguen P., Chatelain J.-L., Guillier B., Ben Salem R., Hadid M., Hellel M., Kiboua A., Laouami N., Machane D., Mezouer N., Nour A., Oubaiche E.H., Remas A. 2004. Utilisation du bruit de fond pour l’analyse des dommages des bâtiments de Boumerdes suite au séisme du 21 mai 2003, Mém Serv. Géol. Alg., 12, 177-191. In french - En français