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22 results on '"Brondi, Piero"'

1. Forecasting Strong Subsequent Earthquakes in Japan using an improved version of NESTORE Machine Learning Algorithm

Author

Gentili, Stefania, Chiappetta, Giuseppe Davide, Petrillo, Giuseppe, Brondi, Piero, and Zhuang, Jiancang

Subjects
Physics - Geophysics
Abstract

The advanced machine learning algorithm NESTORE (Next STrOng Related Earthquake) was developed to forecast strong aftershocks in earthquake sequences and has been successfully tested in Italy, western Slovenia, Greece, and California. NESTORE calculates the probability of aftershocks reaching or exceeding the magnitude of the main earthquake minus one and classifies clusters as type A or B based on a 0.5 probability threshold. In this study, NESTORE was applied to Japan using data from the Japan Meteorological Agency catalog (1973-2024). Due to Japan's high seismic activity and class imbalance, new algorithms were developed to complement NESTORE. The first is a hybrid cluster identification method using ETAS-based stochastic declustering and deterministic graph-based selection. The second, REPENESE (RElevant features, class imbalance PErcentage, NEighbour detection, SElection), is optimized for detecting outliers in skewed class distributions. A new seismicity feature was proposed, showing good results in forecasting cluster classes in Japan. Trained with data from 1973 to 2004 and tested from 2005 to 2023, the method correctly forecasted 75% of A clusters and 96% of B clusters, achieving a precision of 0.75 and an accuracy of 0.94 six hours after the mainshock. It accurately classified the 2011 T\=ohoku event cluster. Near-real-time forecasting was applied to the sequence after the April 17, 2024 M6.6 earthquake in Shikoku, classifying it as a "Type B cluster," with validation expected on October 31, 2024., Comment: submitted to Geoscience Frontiers

Published
2024

13. Exploring the feasibility of a nationwide earthquake early warning system in Italy

Author

PICOZZI, MATTEO, ZOLLO, ALDO, BRONDI, PIERO, COLOMBELLI, SIMONA, Elia,Luca, Martino, Claudio, Picozzi, Matteo, Zollo, Aldo, Brondi, Piero, Colombelli, Simona, Elia, Luca, and Martino, Claudio

Abstract

When accompanied by appropriate training and preparedness of a population, Earthquake Early Warning Systems (EEWS) are effective and viable tools for the real-time reduction of societal exposure to seismic events in metropolitan areas. The Italian Accelerometric Network, RAN, which consists of about 500 stations installed over all the active seismic zones, as well as many cities and strategic infrastructures in Italy, has the potential to serve as a nationwide early warning system. In this work, we present a feasibility study for a nationwide EEWS in Italy obtained by the integration of the RAN and the software platform PRobabilistic and Evolutionary early warning SysTem (PRESTo). The performance of the RAN-PRESTo EEWS is first assessed by testing it on real strong motion recordings of 40 of the largest earthquakes that have occurred during the last 10 years in Italy. Furthermore, we extend the analysis to regions that did not experience earthquakes by considering a nationwide grid of synthetic sources capable of generating Gutenberg-Richter sequences corresponding to the one adopted by the seismic hazard map of the Italian territory. Our results indicate that the RAN-PRESTo EEWS could theoretically provide for higher seismic hazard areas reliable alert messages within about 5 to 10s and maximum lead times of about 25s. In case of large events (M\textgreater6.5), this amount of lead time would be sufficient for taking basic protective measures (e.g., duck and cover, move away from windows or equipment) in tens to hundreds of municipalities affected by large ground shaking.

Published
2015

14. Predicting the macroseismic intensity from early radiated P wave energy for on-site earthquake early warning in Italy

Author

BRONDI, PIERO, PICOZZI, MATTEO, EMOLO, ANTONIO, ZOLLO, ALDO, Mucciarelli, M., Brondi, Piero, Picozzi, Matteo, Emolo, Antonio, Zollo, Aldo, and Mucciarelli, M.

Subjects
early warning, Emilia earthquake 2012, early radiated energy, Geochemistry and Petrology, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous), seismic risk mitigation, macroseismic intensity, Geophysic, intensity prediction
Abstract

Earthquake Early Warning Systems (EEWS) are potentially effective tools for risk mitigation in active seismic regions. The present study explores the possibility of predicting the macroseismic intensity within EEW timeframes using the squared velocity integral (IV2) measured on the early Pwave signals, a proxy for the P wave radiated energy of earthquakes. This study shows that IV2 correlates better than the peak displacement measured on P waves with both the peak ground velocity and the Housner Intensity, with the latter being recognized by engineers as a reliable proxy for damage assessment. Therefore, using the strong motion recordings of the Italian Accelerometric Archive, a novel relationship between the parameter IV2 and the macroseismic intensity (IM) has been derived. The validity of this relationship has been assessed using the strong motion recordings of the Istituto Nazionale di Geofisica e Vulcanologia Strong Motion Data and Osservatorio Sismico delle Strutture databases, as well as, in the case of the M-W 6, 29 May 2012 Emilia earthquake (Italy), comparing the predicted intensities with the ones observed after a macroseismic survey. Our results indicate that P wave IV2 can become a key parameter for the design of on-site EEWS, capable of proving real-time predictions of the IM at target sites.

Published
2015

15. Feasibility study for the implementation and the integration of earthquake early warning systems to national scale and for specific site

Author

Brondi, Piero

Abstract

This thesis focuses on EEW, and in particular, it explored two novel approaches for which recent methods have been tested and new methodologies have been built in order to potentiate the on-site and regional EW in Italy. The thesis is divided into three main parts. The first part focused on a feasibility study for a nation-wide EEWS in Italy obtained by the integration of the Italian Accelerometric Network, RAN, and the software PRobabilistic and Evolutionary early warning SysTem (hereinafter, PRESTo). The Second part of thesis is centered on a new EEW on-site methodology for Italy, aimed to obtain real time estimation of the Macroseismic Intensity (hereinafter IM) for a target site during an ongoing earthquake. In the third part of the thesis, the possibility to extract in EEW timeframe information on the seismic energy irradiated during an earthquake is explored.

Published
2016

18. Rapid determination of Pwave-based energy magnitude: Insights on source parameter scaling of the 2016 Central Italy earthquake sequence

Author

Picozzi, Matteo, Bindi, Dino, Brondi, Piero, Di Giacomo, Domenico, Parolai, Stefano, and Zollo, Aldo

Abstract

We propose a Pwave based procedure for the rapid estimation of the radiated seismic energy, and a novel relationship for obtaining an energy-based local magnitude (MLe) measure of the earthquake size. We apply the new procedure to the seismic sequence that struck Central Italy in 2016. Scaling relationships involving seismic moment and radiated energy are discussed for the Mw6.0 Amatrice, Mw5.9 Ussita, and Mw6.5 Norcia earthquakes, including 35 ML> 4 aftershocks. The Mw6.0 Amatrice earthquake shows the highest apparent stress, and the observed differences among the three main events highlight the dynamic heterogeneity with which large earthquakes can occur in Central Italy. Differences between estimates of MLeand Mwallows identification of events which are characterized by a higher proportion of energy being transferred to seismic waves, providing important real-time indications of earthquakes shaking potential. An energy-based local magnitude scale (MLe) for measuring the earthquake size during real-time operations is proposedIn the analysis of the 2016 Central Italy sequence, large values for the apparent stress are observed, extending from about 0.5 to 25 MPaMwand MLecan be used together for better capturing the shaking potential of earthquakes in real-time applications

Published
2017
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19. Augmenting the resolution of five years seismic catalogue of the low-angle Alto-Tiberina normal fault in Central Italy.

Author

Brondi, Piero, Chiaraluce, Lauro, Stefano, Raffaele Di, Sugan, Monica, and Vuan, Alessandro

Subjects
*EARTHQUAKE engineering, *CATALOGS, *SEISMOLOGICAL research, *SEISMOLOGY, *TIME measurements, *STATISTICS, *PALEOSEISMOLOGY, *SEISMIC migration
Abstract

The Alto-Tiberina fault (ATF), located within the Umbria-Marche region in Central Italy, is a low-angle dipping fault plane that shows both a seismic and an aseismic behavior (creeping). Although in the last years only moderate earthquakes have been recorded in correspondence of the high-angle synthetic and antithetic faults located in the fault hanging wall, some studies suggest that a strong earthquake (M>6.5) can be generated in correspondence of a locked volume in the northern part of ATF fault plane.The aim of this work, in the framework of the project "Seismology and Earthquake Engineering Research Infrastructure Alliance for Europe" (SERA), is to obtain a detailed seismic catalogue on the ATF to better define the seismic/aseismic patches and possible interactions with the shallower seismicity in the high-angle synthetic and antithetic faults.The spatio-temporal distribution of microseismicity from 2010 to 2014 along the ATF has been analyzed project by using a template matching algorithm that allows augmenting the detected earthquakes of a factor 10, and decreasing of 1-1.5 degrees the completeness magnitude.An input catalogue of 3680 events located along the ATF fault plane and the waveforms from 20 seismic stations of the Alto-Tiberina near fault observatory (TABOO) are considered. To avoid including events out of the low-angle ATF plane, after the template matching process, an accurate validation procedure has been applied by using a statistical analysis of detection parameters.From a time-space analysis of the new catalogue we observe that during the Pietralunga (2010), Città di Castello (2013) and Gubbio (2013-2014) sequences (MWmax=3.9) that occurred in the shallow crust, the ATF in-plane seismicity increases at the bottom of the synthetic and antithetical faults intersecting the ATF low-angle main fault plane.Furthermore, it is interesting to note that a microseismicity swarm on ATF Fault plane anticipate of about 1 month the occurrence of Città di Castello sequence in 2013. In addition, along-strike seismic migrations are observed during the entire analyzed time period and in particular before the Gubbio sequence in 2013, in proximity of its nucleation area. [ABSTRACT FROM AUTHOR]

Published
2019

20. Near-Real-Time Strong Motion Acquisition at National Scale and Automatic Analysis

Author

Giovanni Costa, Piero Brondi, Laura Cataldi, Stefano Cirilli, Arianna Cuius, Deniz Ertuncay, Piero Falconer, Luisa Filippi, Simone Francesco Fornasari, Veronica Pazzi, Philippe Turpaud, Costa, Giovanni, Brondi, Piero, Cataldi, Laura, Cirilli, Stefano, Cuius, Arianna, Ertuncay, Deniz, Falconer, Piero, Filippi, Luisa, Fornasari, Simone Francesco, Pazzi, Veronica, and Turpaud, Philippe

Subjects
ground shaking maps, earthquake monitoring, seismic hazard, emergency management, Biochemistry, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Motion, Italy, Italian Strong Motion Network, Earthquakes, strong motion parameter, Antelope software, strong motion parameters, ground motion parameters, automatic earthquake detection, civil protection, Electrical and Electronic Engineering, ground motion parameter, Instrumentation, Software
Abstract

A strong motion monitoring network records data that provide an excellent way to study how source, path, and site effects influence the ground motion, specifically in the near-source area. Such data are essential for updating seismic hazard maps and consequently building codes and earthquake-resistant design. This paper aims to present the Italian Strong Motion Network (RAN), describing its current status, employment, and further developments. It has 648 stations and is the result of a fruitful co-operation between the Italian government, regions, and local authorities. In fact, the network can be divided into three sub-networks: the Friuli Venezia Giulia Accelerometric Network, the Irpinia Seismic Network, and all the other stations. The Antelope software automatically collects, processes, and archives data in the data acquisition centre in Rome (Italy). The efficiency of the network on a daily basis is today more than 97%. The automatic and fast procedures that run in Antelope for the real-time strong motion data analysis are continuously improved at the University of Trieste: a large set of strong motion parameters and correspondent Ground Motion Prediction Equations allow ground shaking intensity maps to be provided for moderate to strong earthquakes occurring within the Italian territory. These maps and strong motion parameters are included in automatic reports generated for civil protection purposes.

Published
2022
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22. Earthquake early warning feasibility in the Campania region (southern Italy) and demonstration system for public school buildings

Author

Gaetano Festa, L. Elia, C. Martino, Simona Colombelli, Piero Brondi, Matteo Picozzi, Alessandro Caruso, Nicola Miranda, Aldo Zollo, Antonio Emolo, Emolo, Antonio, Picozzi, Matteo, Festa, Gaetano, Martino, Claudio, Colombelli, Simona, Caruso, Alessandro, Elia, Luca, Zollo, Aldo, Brondi, Piero, and Miranda, Nicola

Subjects
education.field_of_study, 010504 meteorology & atmospheric sciences, Warning system, Population, Earthquake warning system, Building and Construction, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Geophysics, Single site, education, Geology, Seismology, 0105 earth and related environmental sciences, Civil and Structural Engineering
Abstract

We present the results of a feasibility study of an earthquake early warning system (EEWS) for the Campania region (southern Italy) using schools as specific targets. The study considered the seismogenic zones as sources of potential earthquakes for the area, the Italian accelerometric network as the recording network for seismic event occurrence, and the performances of the software platform PRESTo Plus for data analysis and processing. We analyze the distribution of lead-times for all possible threatening seismic sources for each municipality in the region under study by extracting the lead-time value corresponding to the 5th, 10th and 25th percentiles of the distributions. We discuss the results for the 5th percentile in order to analyze the worst-case scenario: in the case of a single site, the lead-time is expected to be larger than this value in the 95 % of the cases. Since the population distribution in Campania is uneven and most of the people live nearby the coast, whilst the most destructive earthquakes occur along the Apennine chain, we can conclude that an efficient EEWS can allow most of the schools in the area to undertake some mitigating actions. The testing of the EEWS was carried out in the high school ITIS ‘E. Majorana’, located at Somma Vesuviana, about 80 km from the seismogenic Irpinia region. For this purpose, the Sentinel, an actuator made up of low-cost hardware (i.e., Arduino®), was developed in close cooperation with students and teachers of the school to receive alert messages from the PRESTo Plus platform and warn the school users in case of a seismic event. The EEWS and the Sentinel were successfully tested during some blind drills performed during normal school activities.

Published
2016

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