[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sss.2014.14.3.367

Long run ambient noise recording for a masonry medieval tower

Casciati, S. (DICA, University of Catania at Siracusa)
Tento, A. (Istituto per la Dinamica dei Processi Ambientali - CNR)
Marcellini, A. (Istituto per la Dinamica dei Processi Ambientali - CNR)
Daminelli, R. (Istituto per la Dinamica dei Processi Ambientali - CNR)

Publication Information

Smart Structures and Systems / v.14, no.3, 2014 , pp. 367-376 More about this Journal

Abstract

Ambient vibration techniques are nowadays a very popular tool to assess dynamic properties of buildings. Due to its non destructive character, this method is particularly valuable, especially for health monitoring of historical monuments. The present ambient vibration experiment consists on the evaluation of vibration modes of a Medieval tower. Situated in Soncino (close to Cremona, in the Northern Italian region named Lombardia), the tower of 41.5 meters height has been monitored by seismometers located at different points inside the structure. Spectral ratios of the recorded ambient vibrations clearly identify a fundamental mode at about 1 Hz, with a slight difference in the two horizontal components. A second mode is also evidenced at approx 4-5 Hz, with a moderate degree of uncertainty. The records of a ML 4.4 earthquake, occurred during the monitoring period, confirm the information obtained by microtremor analysis. Daily variations of both 1st and 2nd mode were detected: these variations, of an amount up to 2%, seem to be well related with the temperature.

Keywords

modeling; old masonry structure; retrofit; structural analyses; temperature effects;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Casciati, S. and Faravelli, L. (2010), "Vulnerability assessment for medieval civic towers", Struct. Infrastruct. E., 6(1-2), 193-203. DOI ScienceOn
2	Casciati, S. (2007), "Nonlinear aspects of energy dissipation in wood-panel joints", Earthq. Eng. Eng. Vib., 6 (3), 259-268. DOI
3	Casciati, S. and Al-Saleh, R. (2010), "Dynamic behavior of a masonry civic belfry under operational conditions", Acta Mech., 215 (1-4), 211-224. DOI ScienceOn
4	Casciati, S. and Domaneschi, M. (2007), "Random imperfection fields to model the size effect in laboratory wood specimens" , Struct. Saf., 29(4), 308-321. DOI
5	Clinton, J.F., Case Bradford S., Heaton T.H. and Favela, J. (2006), "The observed wander of the natural frequencies in a structure", B. Seismol. Soc. Am., 96 (1), 237-257. DOI ScienceOn
6	Dusi, A., Manzoni, E., Marcellini, A. Tento, A., Daminelli, R. and Mezzi, M. (2007), "Seismic assessment of structures by ambient vibrations: an application to medieval tower". Proceedings of the 8th Pacific Conference on Earthquake Engineering, Singapore, December 5-7, 2007.
7	Herak, M. and Herak, D. (2010), "Continuous monitoring of dynamic parameters of the DGFSM building (Zagreb, Croatia)", B. Earth. Eng., 8, 657-669. DOI
8	Kullaa, J. (2009), "Eliminating environmental or operational influences in structural health monitoring using the missing data analysis", J. Intel. Mat. Syst. Str., 20(11), 1381-1390. DOI
9	Sohn, H., Dzwonczyk, M., Straser, E.G., Kiremidjian, A.S., Law K.H. and Meng T. (2009), "An experimental study on temperature effect on modal parameters of the Alamosa Canyon Bridge, Earthq. Eng. Struct. D., 28, 879-897.
10	Kullaa, J. (2011), "Distinguishing between sensor fault, structural damage, and environmental or operational effects in structural health monitoring ", Mech. Syst. Signal Pr., 25 (8), 2976-2989. DOI
11	Peeters, B. and De Roeck, G. (2011), "One-year monitoring of the Z24-Bridge: environmental effects versus damage events", Earthq. Eng. Struct. D., 30 (2), 149-171.
12	SESAME (2004), WP12-DeliverableD23.12 Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations measurements, processing and interpretation. European Commission-Research General Directorate, Project No. EVG1-CT-2000-00026 SESAME.
13	Wenzel, H. and Pichler, D. (2005), Ambient vibration monitoring, John Wiley & Sons, Chichester, UK.
14	Chrysostomou, Ch. Z., Dernetriou, Th. and Stassis, A. (2008), "Health-monitoring and system-identification of an ancient aqueduct", Smart Struct. Syst., 4(2), 183-194. DOI ScienceOn

4	Yi-Qing Ni. (2015) Earthquakes and Structures Operational modal analysis of a long-span suspension bridge under different earthquake events / 8 (4) , 859
4	Fabio Casciati. (2016) Structural Control and Health Monitoring Designing the control law on reduced-order models of large structural systems / 23 (4) , 707
1	(2014) Smart structures and systems Ad-hoc vibration monitoring system for a stress-ribbon footbridge: from design to operation / 22 (1) , 13
None	(2014) Construction & building materials Structural health monitoring (SHM) and Nondestructive testing (NDT) of slender masonry structures: A practical review / 297 (None) , 123768