The Urban Seismic Observatory of Catania (Italy): A Real-Time Seismic Monitoring at Urban Scale

Author:

Patanè Domenico,Tusa Giuseppina,Yang William,Astuti Antonio,Colino Antonio,Costanza AntonioORCID,D’Anna Giuseppe,Di Prima SergioORCID,Fertitta GioacchinoORCID,Mangiagli SalvatoreORCID,Martino ClaudioORCID,Torrisi Orazio

Abstract

We describe the first dense real-time urban seismic–accelerometric network in Italy, named OSU-CT, located in the historic center of Catania. The city lies in the region with the greatest danger, vulnerability, and earthquake exposure in the entire Italian territory. OSU-CT was planned and realized within the project called EWAS “an Early WArning System for cultural heritage”, aimed at the rapid assessment of earthquake-induced damage and the testing of an on-site earthquake early warning system. OSU-CT is mainly based on low-cost instrumentation realized ad hoc by using cutting-edge technologies and digital MEMS (micro-electro-mechanical systems) triaxial accelerometers with excellent resolution and low noise. Twenty of the forty scheduled stations have already been set up on the ground floor of significant historic public buildings. In order to assess the performance of an earthquake early warning (EEW) on-site system, we also installed wide-band velocimeters (ETL3D/5s) in three edifices chosen as test sites, which will be instrumented for a structural health monitoring (SHM). In addition to several laboratory and field validation tests on the developed instruments, an effective operational test of OSU-CT was the Mw 4.3 earthquake occurring on 23 December 2021, 16 km west, south-west of Catania. Peak ground accelerations (4.956 gal to 39.360 gal) recorded by the network allowed obtaining a first urban shakemap and determining a reliable distribution of ground motion in the historical center of the city, useful for the vulnerability studies of the historical edifices.

Publisher

MDPI AG

Subject

General Earth and Planetary Sciences

Reference50 articles.

1. Performance of Several Low-Cost Accelerometers

2. Performance Evaluation of Low-Cost Seismic Sensors for Dense Earthquake Early Warning: 2018–2019 Field Testing in Southwest China

3. The accelerometric network of the Indes-Musa project in the Kalochori area: Configuration, documentation and preliminary data interpretation, Proceedings of the 14th International Congress, Thessaloniki May 2016;Rovithis;Bull. Geolog. Soc. Greece,2016

4. Performance Evaluation of a Low-Cost Sensing Unit for Seismic Applications: Field Testing During Seismic Events of 2016-2017 in Central Italy

5. A Low-Cost Instrumentation System for Seismic Hazard Assessment in Urban Areas

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