{"id":543,"date":"2022-02-23T09:51:35","date_gmt":"2022-02-23T09:51:35","guid":{"rendered":"https:\/\/limongelli.faculty.test.polimi.it\/?page_id=543"},"modified":"2022-04-05T21:25:18","modified_gmt":"2022-04-05T21:25:18","slug":"seismic-shm","status":"publish","type":"page","link":"https:\/\/limongelli.faculty.test.polimi.it\/?page_id=543","title":{"rendered":"Seismic SHM"},"content":{"rendered":"

Seismic Structural Health Monitoring (herein S2<\/sup>HM) is the process of continuously and permanently recording and analyzing the responses of a structure under seismic excitation. During the last three decades, S2<\/sup>HM has grown due to great interest by both researchers and professionals. This is well evidenced by the number of S2<\/sup>HM monitoring systems installed today in various countries of the world. The main reasons for this development are the limitation related to the use of traditional observational methods, intrusive and time consuming and yet costly and with uncertainties due to dependency on the operator. Furthermore, the availability of responses recorded by a monitoring system has a great potential related to the management of emergencies related to the speed up of damaged inventory. Not least, the availability of responses recorded during the strong seismic event allows the advancement of knowledge on the structural behavior and the possibility to calibrate realistic and reliable numerical models enabling more refined damage characterization (type and severity beyond detection).<\/p>\n

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<\/h2>\n

Journal Papers<\/h2>\n

Giordano P-F., Iacovino C., Quqa Q., Limongelli M.P.<\/strong> (2022). The value of seismic structural health monitoring for post-earthquake building evacuation. Bulletin of Earthquake Engineering<\/em>. Accepted<\/em><\/p>\n

Iacovino C., Ditommaso R. , Limongelli M.P<\/strong>., Ponzo F.C. (2018). The Interpolation Evolution Method for damage localization in structures under seismic excitation. Earthquake Engineering and Structural Dynamics<\/em>. Vol. 47(10<\/a>) p. 2117-2136. DOI: 10.1002\/eqe.3062. JCR Impact factor: 3.419<\/p>\n

Limongelli M.P.<\/strong> (2014). \u201cSeismic health monitoring of an instrumented multistorey building using the Interpolation Method\u201d. Earthquake Engng. Struct. Dyn<\/em>. 43, pp 1581-1602. doi:\u00a010.1002\/eqe.2411. JCR Impact factor: 3.419<\/p>\n

Limongelli M.P.<\/strong>, Martinelli L., Zambrano A. (2014) \u201cDamage localization in a high-rise building using seismic excitation\u201d, Ingegneria Sismica – Special Issue on Seismic SHM<\/em>, 31(3)<\/strong>, pp. 17-27. JCR Impact factor: 2.561.<\/p>\n

Domaneschi M., Limongelli M.P.<\/strong>, Martinelli L. (2013). \u201cMulti-Site Damage Localization in a Suspension Bridge via Aftershock Monitoring\u201d, International Journal of Earthquake Engineering<\/em>, 3<\/strong>, pp. 56-72. JCR Impact factor: 2.561.<\/p>\n

Limongelli, M.P.,<\/strong> (2011). \u201cThe interpolation damage detection method for frames under seismic excitation\u201d. Journal of Sound and Vibration<\/em>. 330, 5474\u20135489. https:\/\/doi.org\/10.1016\/j.jsv.2011.06.012 JCR Impact factor: 3.123<\/p>\n

Limongelli M.P.<\/strong>, (2005). \u201cPerformance evaluation of instrumented buildings\u201d ISET Journal of Earthquake Technology<\/em>, 42(2-3), pp. 47-62.<\/p>\n

Limongelli M.P.<\/strong> (2009).”Un indice per la valutazione rapida del danno prodotto da un sisma”. Ingegneria Sismica\u00a0<\/em>1, <\/strong>pp. 65-80. JCR Impact factor: 2.561.<\/p>\n

Limongelli M.P.<\/strong>, (2003), \u201cA new procedure to estimate seismic response parameters from a limited number of records\u201d European Earthquake Engineering<\/em>, 2, pp.45-55.<\/p>\n

Benedetti D., Limongelli M.P.<\/strong> (1996) “A model to estimate the virgin and ultimate effective stiffnesses from the response of a damaged structure to a single earthquake”. Earthquake Engineering and Structural Dynamics, <\/em>25, pp. 1095-1108. https:\/\/doi.org\/10.1002\/(SICI)1096-9845(199610)25:10<1095::AID-EQE603>3.0.CO;2-9 JCR Impact factor: 3.419<\/p>\n

Benedetti D., Limongelli M.P. (<\/strong>1996). “Una procedura per l’identificazione dello stato di danno di costruzioni soggette a sisma”. Ingegneria sismica, <\/em>2, <\/strong>pp. 22-3l. JCR Impact factor: 2.561.<\/p>\n

<\/h2>\n

Conference Papers<\/h2>\n

\u00c7elebi M., Limongelli M.P.<\/strong> (2020) S2<\/sup>HM Must Be Real-Time or Not? European Workshop on Structural Health Monitoring, 2020. doi:10.1007\/978-3-030-64594-6_2<\/p>\n

Iacovino C., Ditommaso R., Ponzo F.C., Limongelli M.P. <\/strong>(2019). Preliminary analysis of the dynamic behavior of two strategic buildings subjected to the 2016 Central Italy earthquake. \u00a0SEMC 2019<\/em>: the 7th international conference on Structural Engineering, Mechanics and Computation. Cape Town, South Africa. September 2-4, 2019. <\/em>DOI: 10.1201\/9780429426506-344.<\/strong><\/p>\n

Ditommaso R., De Bonis M., Iacovino C., Limongelli M.P.<\/strong>, Ponzo F.C., Spina D. (2017). Structural health monitoring and damage detection techniques: numerical and experimental case studies. 7 AESE International Conference<\/em>. Pavia, Italy. September 6-8, 2017<\/p>\n

Ditommaso R., Auletta G., Ponzo F.C., Limongelli M.P.<\/strong> (2017). Interpolation evolution method: analysis of the influence of higher modes retrieved from nonlinear numerical analyses performed on two different models of reinforced concrete framed structures. Compdyn 2017 and 6th ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, M. Papadrakakis, M. Fragiadakis (eds.),<\/em> Rhodes Island, Greece, 15\u201317 June, vol. 2, p. 2729-2738, ISBN: 978-618-82844-2-5.<\/p>\n

Iacovino C., Ditommaso R., Limongelli M. P.<\/strong>, Ponzo F. C. (2017). Experimental damage localization in a full-scale 7 story benchmark building under seismic excitation Proc. SPIE. 10169, Nondestructive Characterization and Monitoring of Advanced Materials, Aerospace, and Civil Infrastructure 2017<\/em>, 101691B. (April 19, 2017) doi: 10.1117\/12.2257914<\/p>\n

Iacovino C., Ditommaso R. , Limongelli M.P.,<\/strong> Ponzo F.C. (2016). Un approccio integrato per la localizzazione del danno su strutture sottoposte a terremoti di media e forte intensit\u00e0. 35\u00b0 Convegno Nazionale GNGTS. Lecce, 22-24 novembre 2016.<\/p>\n

Auletta G., Ditommaso R., Iacovino C., Ponzo F.C., Limongelli M.P.<\/strong> (2016). Damage evaluation on multi-story framed structures: comparison of results retrieved from algorithms based on modal and non-modal parameters. European Geosciences Union General Assembly, Vol. 18, EGU2016-18196, 2016. Vienna, 17 – 22 April 2016.<\/p>\n

Limongelli M.P., Martinelli L., Zambrano A., (2015). \u201cWind Driven Damage Localization in a High-rise Building \u201c. In Structural Health Monitoring 2015: System Reliability for Verification and Implementation – Proceedings of the 10th International Workshop on Structural Health Monitoring, IWSHM 2015<\/em>, vol. 2 – ISBN:978-160595111-9.<\/p>\n

Limongelli M.P., Martinelli L., Zambrano A., (2015). Damage localization in a multistorey building under seismic excitation \u201cSHMII 2015 – 7th International conference on Structural Health Monitoring of Intelligent Infrastructure. <\/em>Torino, Italy. 1-3 July 2015.<\/p>\n

Limongelli M.P.<\/strong> (2013). \u201cMonitoraggio strutturale per la protezione sismica del patrimonio edilizio\u201d Atti della giornata di studio \u201cTra prevenzione e cura: la protezione del patrimonio edilizio dal rischio sismico\u201d.<\/em> Mantova, 20 Maggio 2013. ISBN 9788890871900.<\/p>\n

Domaneschi M., Limongelli M.P.<\/strong>, Martinelli L. (2012). Structural Damage Localization in a Suspension Bridge Under Seismic Excitation. 15th<\/sup> World Conference on Earthquake Engineering, <\/em>Lisbona, 24-28 September, 2012.<\/p>\n

Domaneschi M., Limongelli M.P.<\/strong>,\u00a0Martinelli M.. (2011). Localizzazione del danno in ponti di grande luce soggetti ad eccitazione sismica\u201d.\u00a0 Atti del<\/em> XIV Convegno Nazionale L’ingegneria sismica in Italia.<\/em> Bari. ISBN 9788875220402.<\/p>\n

Limongelli M.P. <\/strong>(2011). \u2018Diagnosi strutturale per l\u2019aggiornamento delle valutazioni dello stato di danno post-sisma\u2019. Atti del<\/em> XIV Convegno Nazionale L’ingegneria sismica in Italia.<\/em> Bari. ISBN 9788875220402.<\/p>\n

Limongelli M.P.<\/strong> (2010). \u201cStructural monitoring for post-earthquake damage\u201c. 14ECEE. 14th European Conference for Earthquake Engineering<\/em>. Ohrid<\/em>( Macedonia<\/em>). 30 Agosto-3 Settembre<\/p>\n

Limongelli M.P.<\/strong> (2004). ” Una procedura per il calcolo della risposta sismica di edifici multipiano da un numero limitato di registrazioni accelerometriche “. Atti dell\u2019<\/em>XI Convegno Nazionale L’ingegneria sismica in Italia. <\/em><\/p>\n

Benedetti D., Limongelli M.P.<\/strong>, Pezzoli P. (1994). “Dynamic behavior of masonry buildings subjected to multi-directional seismic excitation”. Proc. of the 2nd Italian-French Symposium on Strengthening and Repair of<\/em> Structures in Seismic Area. <\/em>Nizza, 17-19 Ottobre 1994, pp. 283-296.<\/p>\n

<\/h2>\n

Special issues<\/h2>\n

Limongelli M.P. (2014) \u2018Seismic Structural Health Monitoring\u2019 on the International Journal of Earthquake Engineering. Patron editor<\/p>\n

<\/h2>\n

Books<\/h2>\n

Limongelli M.P., <\/strong>Celebi Mehmet (2020) \u2018Seismic Structural Health Monitoring\u2019. Springer Cham. DOI\u00a0https:\/\/doi.org\/10.1007\/978-3-030-13976-<\/a>6 (editor)<\/p>\n

Limongelli, <\/strong>M.P., \u00c7elebi, M.(2019) Preface<\/strong>. Springer Tracts in Civil Engineering, pp. v-vi. DOI: 10.1130\/978-0-8137-0012-0(2008)12[v<\/p>\n

Chapter: Limongelli M.P.<\/strong> (2019). Damage localization through vibration based S2HM: a survey. Springer Nature Switzerland AG 2019 <\/em>\u00a9 Springer Nature Switzerland AG 2019. M. P. Limongelli and M. \u00c7elebi (eds.), Seismic Structural Health Monitoring<\/em>, Springer. Tracts in Civil Engineering, https:\/\/doi.org\/10.1007\/978-3-030-13976-6_9<\/a><\/p>\n

Chapter: Limongelli M.P.,<\/strong> Dolce M, Spina D., Gu\u00e9guen P., Langlais M., David Wolinieck D., Maufroy E., Karakostas C.Z., Lekidis V.A., Morfidis K., Thomas Salonikios T., Rovithis E., Makra K., Masciotta M.G., Louren\u00e7o P.B. (2019). \u00a9 Springer Nature Switzerland AG 2019. M. P. Limongelli and M. \u00c7elebi (eds.), Seismic Structural Health Monitoring<\/em>, Springer. Tracts in Civil Engineering, pp. 303-343 https:\/\/doi.org\/10.1007\/978-3-030-13976-6_13<\/p>\n","protected":false},"excerpt":{"rendered":"

Seismic Structural Health Monitoring (herein S2HM) is the process of continuously and permanently recording and analyzing the responses of a<\/p>\n

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