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<\/p>\nIn the last 30 years, vibration-based methods for Structural Health Monitoring of civil structures have been receiving increasing attention from both academics and operators, due to the several advantages they provide for damage identification purposes. These are related to the capability of providing information about the global state of the structure without prior knowledge about the location of damage and without the need to access the damaged portion of the structure. Furthermore, these methods can exploit the response to ambient vibrations induced by environmental or operational loads thereby enabling the continuous acquisition of information about the structural state. The activity of the research group on this topic has been devoted to the development of effective indicators for damage localization validated on real damaged structures. The latter task is often hampered by the unavailability of data and this constitutes indeed a challenge for the implementation of these techniques at the operational level. The Interpolation Damage Detection Method has been developed by the research group for beam-like and plate-like structures and successfully applied to several types of structures such as multistorey buildings, suspension, cable-stayed, and supported bridges. The most recent papers report the validation of the method on real damaged structures.<\/p>\n
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Quqa, S., Giordano, P. F., Limongelli, M. P.<\/strong> (2022). Shared micromobility-driven modal identification of urban bridges. Automation in Construction, 134 doi:10.1016\/j.autcon.2021.104048<\/p>\n Pisani M.A., Limongelli M.P<\/strong>., Giordano P.F., Palermo M. (2021). On the effectiveness of vibration-based monitoring for prestressed structures. Infrastructures, 6 (12). DOI: 10.3390\/infrastructures6120171<\/p>\n Quqa, P. F. Giordano, M. P. Limongelli<\/strong>, Landi L. Diotallevi P. P. (2021). Clump interpolation error for the identification of damage using decentralized sensor networks. in Smart Structures and Systems, An International Journal, 27(2). DOI: 10.12989\/sss.2021.27.2.351. (JCR Impact factor: 3.557)<\/p>\n F. Giordano, S. Quqa, and M. P. Limongelli<\/strong>, (2021) Statistical Approach for Vibration-Based Damage Localization in Civil Infrastructures Using Smart Sensor Networks. Infrastructures, 6(2) doi: 10.3390\/infrastructures6020022.<\/p>\n Giordano P.F, Limongelli, M.P<\/strong>., (2020). Response-based time-invariant methods for damage localization on a concrete bridge. <\/em>Structural Concrete. https:\/\/doi.org\/10.1002\/suco.202000013<\/a>. (JCR Impact factor: 2.174)<\/p>\n Limongelli, M<\/strong>.P.<\/strong>, Giordano, P. (2020) Vibration-based damage indicators: a comparison based on information entropy.\u00a0J Civil Struct Health Monit<\/em>\u00a010,\u00a0251\u2013266 (2020). https:\/\/doi.org\/10.1007\/s13349-020-00381-9<\/a>. (JCR Impact factor: 2.45)<\/p>\n Fathi A. Limongelli<\/strong> M.P. (2020) Statistical vibration-based damage localization for the S101 bridge, Flyover Reibersdorf, Austria, Structure and Infrastructure Engineering, DOI:10.1080\/15732479.2020.1777570<\/a> (JCR Impact Factor 2.62)<\/p>\n Limongelli M.P.<\/strong> (2019). The surface interpolation method for damage localization in plates\u201d. Mechanical Systems and Signal Processing 118 (2019) 171\u2013194. https:\/\/doi.org\/10.1016\/j.ymssp.2018.08.032<\/a>. (JCR Impact factor: 6.471)<\/p>\n Limongelli<\/strong> M.P.<\/strong>, Siegert D., Merliot E., Waeytens J., Bourquin F., Vidal R., Le Corvec V., Gueguen I., Cottineau L.M., (2016) \u201cDamage detection in a post-tensioned concrete beam \u2013 Experimental investigation\u201d, Engineering <\/em>Structures<\/em>. Vol. 128, p. 15\u201325. dx.doi.org\/10.1016\/j.engstruct.2016.09.017. JCR Impact factor: 3.084<\/p>\n Domaneschi M., Limongelli M.P.<\/strong>, Martinelli L., (2016) \u201cWind-driven damage localization on a suspension bridge\u201d, The Baltic Journal of Road and Bridge Engineering<\/em>, 11(1),pp. 11-21. doi:10.3846\/bjrbe.2016.02.<\/p>\n Busca G., Limongelli M.P.<\/strong> (2015). An experimental evaluation of the reliability of a damage localization algorithm based on FRF interpolation. Journal of Civil Structural Health Monitoring<\/em>, vol. 5, p. 427-439, ISSN: 2190-5452, doi: 10.1007\/s13349-015-0126-7. JCR Impact factor: 2.45<\/p>\n Domaneschi M., Limongelli M.P.<\/strong>, Martinelli L., (2015) \u201cDamage detection and localization on a benchmark cable-stayed bridge\u201d, Earthquakes and Structures<\/em>. 8(5), 1113-1126. DOI: https:\/\/doi.org\/10.12989\/eas.2015.8.5.1113<\/a>. <\/em>JCR Impact factor: 1.573<\/p>\n Dilena M., Limongelli M.P<\/strong>. Morassi A. (2014). \u201cDamage localization in bridges via FRF interpolation method\u201d. Mechanical Systems and Signal Processing, <\/em>52-53, pp 162-180. DOI:10.1016\/j.ymssp.2014.08.014. JCR Impact factor: 5.005<\/p>\n Domaneschi M., Limongelli M.P.<\/strong>, Martinelli L., (2013) \u201cVibration-Based Damage Localization Using MEMS on a Suspension Bridge Model\u201d, Smart Structures and Systems<\/em>, 12(<\/strong>6), pp 679-694. DOI: 10.12989\/sss.2013.12.6.679 JCR Impact factor: 3.622<\/p>\n Limongelli M.P.<\/strong> (2010). \u201cFrequency Response Function Interpolation for Damage Detection under Changing Environment\u201c Mechanical Systems and Signal Processing, <\/em>24, Issue 8, pp 2898-2913. https:\/\/doi.org\/10.1016\/j.ymssp.2010.03.004JCR Impact factor: 5.005<\/p>\n Limongelli M.P.<\/strong>, (2003). “Optimal location of sensors for the reconstruction of seismic responses through spline function interpolation”. Earthquake Engineering and<\/em> Structural Dynamics, <\/em>32, pp. 1055-1074. https:\/\/doi.org\/10.1002\/eqe.262 JCR Impact factor: 3.419<\/p>\n <\/p>\n Pisani M.A., Limongelli M.P., <\/strong>Giordano P.F., Palermo M. (2021) Numerical modelling strategy for deteriorated concrete decks in SHM applications. <\/em>IABSE Congress, Ghent 2021: Structural Engineering for Future Societal Needs, 1643-1650. <\/em>Ghent, Belgium, September 22-24 (2021), pp. 1720-1727. ISBN: 978-385748163-5<\/p>\n Limongelli M.P<\/strong>., (2021). Vibration-based monitoring for emergency management. SHMII-10 Porto. June 30- July 2, 2021. Keynote lecture<\/strong>.<\/u><\/p>\n Quqa S., Giordano P.F., Limongelli M.P.<\/strong> (2021) Structural integrity assessment of railway bridges during the passage of trains. SHMII-10 Porto. June 30- July 2, 2021.<\/p>\n Venglar M., Giordano P. F., Limongelli, M. P.<\/strong>, Sokol M. (2020). Experimental assessment of vibration-based methods for damage localization. Paper presented at the Proceedings of the International Conference on Structural Dynamic, EURODYN, 948-959.<\/p>\n Limongelli M.P.<\/strong> (2019). Vibration-Based Structural Health Monitoring: challenges and opportunities. SEMC 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. Invited lecture<\/strong><\/p>\n Giordano P.F., Limongelli<\/strong> M.P. <\/strong>(2019), \u201cComparison of indicators of damage location based on information gain\u201d, 12th<\/sup> IWSHM. \u00a0International Workshop on Structural Health Monitoring<\/em>, Stanford, California (USA), pp. 2493-2500. ISBN:\u00a0<\/strong>978-160595601-5.<\/p>\n Giordano, P. F., Limongelli, M. P.<\/strong> (2018). Vibration-based damage identification for the S101 benchmark bridge: A comparison of indicators. 9th European Workshop on Structural Health Monitoring, EWSHM 2018<\/em>.<\/p>\n Limongelli M.P., <\/strong>Fathi A. (2018). The Interpolation Method: influence of feature uncertainties. 9th\u00a0 IABMAS: International Conference on Bridge Maintenance, Safety and Management<\/em>. Melbourne 9-13 July 2018. ISBN: 978-113873045-8<\/p>\n Anzlin A., Prendergast L., Gavin K., Limongelli M.P. <\/strong>(2018) The effect of local scour of a single pier on the vibration parameters of a multi-span bridge under seismic excitation (2018). 9th\u00a09th\u00a0 IABMAS: International Conference on Bridge Maintenance, Safety and Management<\/em>. Melbourne 9-13 July 2018. ISBN: 978-113873045-8<\/p>\nConference Papers<\/h2>\n