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2025-09-05

10:00

• 10:00 - 10:00 - Programma di dettaglio: Il programma dettagliato dell'evento può essere scaricato al seguente link.

2025-09-07

18:30

• 18:30 - 20:30 - Registrazione & Aperitivo di benvenuto: Aperitivo di benvenuto presso il Borgo Antichi Orti, Via Pallareto, 1, 06081 Assisi. Contestualmente sarà possibile registrarsi al convegno.
  
  

2025-09-08

08:00

• 08:00 - 09:00 - Registrazione

08:45

• 08:45 - 09:30 - Introduzione e saluti

09:30

• 09:30 - 10:15 - Keynote - Dr. Atilla Ansal: 

  Recent Developments in Site Response Analysis and Microzonation

  Abstract: The basic purpose of site response analysis is to evaluate possible local site effects and the earthquake characteriscs on the ground surface to estimate probable earthquake damage for the existing building stock and for the design of new structures. The basic issues in the site response analysis are the inherent uncertainty in source characteristics, soil profile, soil properties, and site response analysis procedure. In addition, characteristics of the building inventories would introduce critical uncertainties associated with these analyses. Recent advances, with growing computational capacity, emphasize probabilistic frameworks to capture these uncertainties. The probability distribution of the related earthquake parameters on the ground surface may be determined considering all possible input acceleration time histories, site profiles, and dynamic soil properties. One option to account for the variability in earthquake source and path effects may be to consider using large number of acceleration records compatible with the site-dependent earthquake hazard partially based on  hazard deaggregation at the investigated site. Likewise, stochastic soil profiles generated via Monte Carlo simulations can be used to account for the site condition variability. A comprehensive seismic microzonation methodology is proposed based on the probabilistic assessment of these factors involved in site response analyses. The second important issue is the selection of microzonation parameters. The selection of microzonation parameters—such as Cumulative Absolute Velocity (CAV) and Housner Intensity (HI)—is emphasized for their stronger empirical correlation with structural damage. The main approach is to develop a microzonation procedure for ground shaking intensity accounting for variability in ground motion and soil response. The third issue is the reliability and correctness of the site response analysis procedure. The adopted methodology advances traditional site response analysis by integrating frequency- and stress-dependent soil behavior models to achieve a more accurate numerical model and proposing the use of 3D site response analysis to reflect the multi-directional nature of seismic loading. It also highlights the need for representative time histories with known exceedance probabilities. Even though the selected representative acceleration time histories may be scaled with respect to probabilistic acceleration spectrum or peakground acceleration obtained based on probabilistic site response analysis; the probability of the selected acceleration time histories are not known. The only possible option is to estimate probabilistic acceleration time histories with predetermined exceedance probabilities to enhance fully probabilistic site response analysis. The proposed methodology is demonstrated through case studies based on data from the Istanbul Rapid Response Network, to underline the importance of fully probabilistic site response analysis in seismic microzonation, aiming to improve the reliability of ground motion predictions and support informed decision-making in earthquake engineering.

10:15

• 10:15 - 11:00 - Keynote - Dr. Giovanni Macedonio: 

  Bradiseism and volcanic hazard at Campi Flegrei, Italy

  Abstract: The Phlegraean Fields (Campi Flegrei) are a volcanic caldera formed by the eruptions of the Campanian Ignimbrite (39,000 years ago) and the Yellow Tuff (15,000 years ago). Subsequently, three periods of activity can be distinguished, during which about 70 eruptions occurred, separated by long periods of quiescence. The most recent eruption took place in 1538, and it is well documented through images and historical documents. The typical hazardous eruptive phenomena include the generation of pyroclastic flows, the dispersal and fallout of volcanic ash, and lava flows. More recently, the "bradyseism risk" has been officially recognized, referring to ongoing ground deformation and associated earthquakes in the area. An additional hazard that is now being discussed is the potential occurrence of phreatic explosions, which may be triggered by the rapid depressurization of shallow portions of the hydrothermal system. The presentation will illustrate the various hazards related to the possible opening of new eruptive vents and volcanic eruptions, as well as the damage associated with seismic activity, ground deformation, and gas emissions that occur during bradyseismic crises, such as the one that has been ongoing since 2005.

11:00

• 11:00 - 11:30 - Coffe break

11:30

• 11:30 - 13:00 - Sessioni parallele

13:00

• 13:00 - 14:00 - Pranzo

14:00

• 14:00 - 14:45 - Keynote - Dr. Michael Constantinuou: 

  Performance of Seismically Isolated Structures in Earthquakes.

  Abstract: many seismically isolated structures have been constructed, ranging from houses, apartment buildings, hospitals, emergency facilities, architecturally and historically significant structures and tall buildings to large bridges and offshore platforms.  The observation of performance of such structures in earthquakes provides valuable information on the validity of design procedures and on the lifetime behavior of isolators and delivers lessons on actions that are needed to avoid problems and enhance reliability.

  The presentation will start with a discussion of design procedures for seismically isolated structures, uncertainty and reliability in design.  This guides the audience to a better understanding of the observed performance of several seismically isolated structures that are presented next.  It is concluded that, in general, the performance of seismically isolated structures is very good but dependent on proper analysis and design, provisions for increased capacities of isolators and superstructures to meet reliability objectives, effective peer review, testing (prototype and production) of isolators, proper construction and inspection.

14:45

• 14:45 - 16:15 - Sessioni parallele

16:15

• 16:15 - 16:45 - Coffe break

16:45

• 16:45 - 17:45 - Sessioni parallele

19:30

• 19:30 - 20:30 - Concerto del Coro dell'Università di Perugia: Concerto del Coro dell’Università degli Studi di Perugia, presso la Basilica Superiore di San Francesco d’Assisi.
  
  

2025-09-09

08:00

• 08:00 - 09:00 - Registrazione

09:00

• 09:00 - 09:45 - Keynote - Dr. Tiziana Rossetto: 

  Earth, Fire, Wind and Water: Research needs to understand vulnerability to the 4 elements.

  Abstract: In the field of vulnerability and risk to natural hazards, earthquake engineering has led the way. This includes providing exposure taxonomies, post-earthquake damage data, and the definition of empirical, numerical, and judgement-based approaches for the development of fragility functions. This dominance of earthquake engineering in risk modelling is underpinned by a history of high earthquake losses, and by close collaboration between researchers working on hazard with those working on the hazard performance of engineered infrastructure. This has not necessarily been the case for other hazards, where silos still exist between hazard scientists and engineers. However, with climate and sea level rise projections predicting the higher frequency and intensity of meteorological and hydraulic hazards, it is becoming of growing importance to better understand risk from these. In this talk the four classical Greek elements of Earth, Fire, Wind and Water will be used to frame discussions around the state of art of fragility functions to different hazards. Drawing on past experience and current research, examples will be provided of the strong challenges that exist in deriving fragility models for tsunami, landslides, man-made fires and extreme winds. It will be shown that although advances made in earthquake risk assessment have had significant positive influence, they have at times negatively biased the development of fragility models for other (non-earthquake) hazards. In particular, multi-hazard fragility of buildings to earthquake ground shaking combined with fire and tsunami will be presented to highlight the importance of hazard-specific considerations for structural loading and damage representation in infrastructure. Throughout, the talk will highlight significant data and research gaps that need to be filled to better understand community and infrastructure risk to the four elements of an equal degree.

09:45

• 09:45 - 10:30 - Keynote - Dr. Joel Conte: 

  Digital Twin of the NHERI-UC San Diego 6-DOF Large High-Performance Outdoor Shake Table (LHPOST6).

  Abstract: The UC San Diego Large High-Performance Outdoor Shake Table (LHPOST) was commissioned on October 1, 2004, as a shared-use experimental facility under the U.S. National Science Foundation (NSF) Network for Earthquake Engineering Simulation (NEES) program. While originally conceived as a six-degree-of-freedom (6-DOF) system, budget constraints led to its initial construction as a single-degree-of-freedom (1-DOF) shake table. After serving the earthquake engineering community for 15 years, the LHPOST underwent a major upgrade to its originally intended 6-DOF configuration between October 2019 and April 2022, at which point it was renamed the LHPOST6.

  A mechanics-based numerical model (i.e., digital twin) of the LHPOST6 was developed. Under bare-table conditions, this model comprises three subsystems: (1) the hydraulic dynamics, (2) the hold-down struts, and (3) the three-dimensional kinematics and dynamics of the mechanical components of the LHPOST6, including the platen and the attached vertical and horizontal actuators. A systematic, step-by-step methodology was established to both calibrate the model parameters and validate the model itself, using an extensive set of experimental data from acceptance and characterization tests.

  A dynamic model of the LHPOST6 under loaded-table conditions was developed by coupling three software platforms: (a) the MTS 469D motion controller, (b) the LHPOST6 dynamic model implemented in Simulink, and (c) the nonlinear structural specimen modeled in OpenSees. A numerical algorithm was formulated to solve the nonlinear equations of motion governing the coupled system. This model was validated using data from two landmark research projects recently completed on the LHPOST6: the full-scale 10-story mass timber building tested in the NHERI TallWood project and the full-scale 6-story mass timber building tested in the NHERI Converging Design project. The promising approach of iteratively tuning the shake table controller to optimize tracking of target earthquake ground motions—using the fully numerical model of the coupled LHPOST6-specimen system, thereby avoiding the risk of damaging high-cost test specimens during tuning—was also investigated.

10:30

• 10:30 - 11:00 - Coffe break

11:00

• 11:00 - 13:00 - Sessioni parallele

13:00

• 13:00 - 14:00 - Pranzo

14:00

• 14:00 - 15:00 - Tavola Rotonda: "I rischi naturali nei grandi progetti del PNRR: quali scenari per il futuro?"

15:00

• 15:00 - 16:30 - Sessioni parallele

16:30

• 16:30 - 17:00 - Coffe break

17:00

• 17:00 - 18:00 - Sessioni parallele & PhD Contest

20:00

• 20:00 - 23:00 - Cena di Gala: Cena di gala presso Cantina Tabarrini a Montefalco.
  
  

2025-09-10

08:00

• 08:00 - 09:00 - Registrazione

09:00

• 09:00 - 09:45 - Keynote - Commissario alla Ricostruzione Sen. Guido Castelli: 

  Ricostruire l'Appennino Centrale tra Innovazione e Sicurezza.

  Abstract: Il territorio italiano ha un primato assoluto in Europa: quello della maggiore sismicità continentale. Su 1.300 terremoti distruttivi di cui si ha memoria e documentazione nel secondo Millennio, nell’area del Mediterraneo, almeno 500 hanno interessato il nostro Paese. Insomma, l’Italia è un Paese quasi totalmente esposto al rischio sismico, cambia solo la frequenza attesa e la potenza liberata.

  La ricostruzione da un terremoto costa in genere circa 10-100 volte di più che realizzare un adeguamento o un miglioramento antisismico. Dal terremoto del Belice in poi si stima che le ricostruzioni post sisma siano costate fino a 200 miliardi, senza contare i danni economici indiretti. 

  È la prima volta che, nell’ambito di una ricostruzione post sisma di vasta portata come quella dell’Italia Centrale (la sequenza sismica 2016-2017 ha interessato un’area di 8000 kmq, distruggendo edifici per un valore di circa 28 miliardi di euro), viene pianificato un lavoro di analisi sistematica, con controlli sul campo e l’uso di tecnologie avanzate sulle aree di dissesto individuate. 

  Ricostruire in sicurezza vuol dire aver sciolto definitivamente quella visione datata e irrealistica della ricostruzione “dov’era, com’era”. Dopo le indicazioni univoche offerte dalla conferenza di Sendai oggi l’attenzione si è spostata, opportunamente, sulla necessità di migliorare la comprensione del rischio di disastri in tutte le sue dimensioni di esposizione, vulnerabilità e caratteristiche di pericolosità; la responsabilità per la gestione del rischio di disastri deve avere l’obiettivo di "ricostruire meglio", laddove sia possibile e sicuro farlo. 

  Nella ricostruzione in atto nel più grande cantiere edile d’Europa abbiamo due “case histories” all’avanguardia: Arquata del Tronto e Castelluccio di Norcia. Due esempi di questo innovativo percorso di messa in sicurezza prima di ricostruire. Due progettazioni ormai diventati oggetto di studio in Italia e all’estero.

09:45

• 09:45 - 11:00 - Tavola Rotonda: "Ricerca ed innovazione per la Sicurezza in Europa tra minacce tradizionali e minacce emergenti"

11:00

• 11:00 - 11:30 - Coffe break

11:30

• 11:30 - 13:00 - Sessioni parallele

13:00

• 13:00 - 14:00 - Pranzo

14:00

• 14:00 - 14:45 - Keynote - Dr. Anil Agrawal: 

  Large Ship Impacts on Bridge Piers.

  Abstract:The Key Bridge in Baltimore stood for more than half a century until it collapsed when a massive ship it was never designed to withstand collided with it. Ship collision design provisions established in 1991, well after the bridge was built, suggest that the chance of collision was extremely low, estimated to be around 1/100,000. This risk assessment, which ultimately proved to be overly optimistic, likely contributed to a false sense of security about the bridge’s vulnerability and may have impeded proactive measures to reinforce the structure.  Collapse of this bridge also highlighted the need for critical investigation through complex simulations using impact of large ships into bridge piers to determine the sufficiently of current AASHTO guideline and development of simulation tools to investigate safety of bridge piers from large ship impacts.  This presentation will highlight various critical aspects of the impact of large ships on bridge piers.

14:45

• 14:45 - 15:30 - Keynote - Dr. Gian Michele Calvi: 

  Isolamento e controllo attivo nella progettazione fondata sulla minimizzazione delle perdite.

  Abstract: Performance-based design was first envisaged in the early 1990s and has become a mantra in conceptual seismic design. However, practical approaches to be possibly introduced in codes of practice are not readily available, to say the least, though some can be found in the literature. What is essentially missing is some correlation between structural response parameters and expected monetary losses, at a level of simplicity comparable with the force- or displacement-based approaches applied to designing in everyday practice. The basics of a formulation that may evolve into such a practical loss–based approach will be discussed, with a focus on some essential practical questions: is it possible to design for very low expected loss and what will be the associated parametric investment cost? 

  In this context, seismic isolation plays a peculiar role, being one of the most accredited candidates to allow a credible design approach for strategic constructions, in which case extremely contained losses could be aimed at, even for low probability ground motions. Some examples derived from the recent 2023 Turkey earthquake will be introduced and discussed as case studies. 

  The potential application of active control for the same purpose will be briefly touched. This technology is still in its infancy but seems to be promising in specific areas of application. 

15:30

• 15:30 - 16:30 - Sessioni parallele

16:30

• 16:30 - 17:00 - Coffe break

17:00

• 17:00 - 18:30 - Sessioni parallele

2025-09-11

08:00

• 08:00 - 09:00 - Registrazione
• 08:00 - 13:30 - Visita Tecnica ai Siti Colpiti dal Sisma – Norcia: 
  In occasione del Convegno ANIDIS 2025, è prevista una visita tecnica a Norcia presso alcuni dei principali siti colpiti dal sisma, con l’obiettivo di osservare da vicino le attività di ricostruzione, consolidamento e monitoraggio strutturale in corso.
  
  
  Posti disponibili: 50
  
  
  La partecipazione alla visita è riservata ai soli iscritti al convegno e non comporta costi aggiuntivi rispetto alla quota di registrazione.
  
  
  Per aderire, è necessario inviare una mail di conferma al Prof. Marco Breccolotti all’indirizzo:
  - marco.breccolotti@unipg.it
  mettendo in copia conoscenza la segreteria del convegno:
  - convegno.anidis2025@unipg.it
  
  
  I posti saranno assegnati in base all’ordine di arrivo delle richieste.
  
  
  Invitiamo gli interessati a comunicare la propria adesione quanto prima, vista la disponibilità limitata.

09:00

• 09:00 - 09:45 - Keynote - Dr. Andrea Dall'Asta: 
  Il ruolo della sperimentazione sismica nella ricostruzione
  
  
  Abstract: Gli eventi sismici evidenziano spesso le carenze dei nostri modelli predittivi e delle nostre capacità di limitare in maniera efficace le conseguenze dei terremoti. Allo stesso tempo, durante e immediatamente dopo la sequenza sismica si attiva un complesso processo di ricostruzione che comprende il rilievo dei danni, l’adozione di interventi temporanei di messa in sicurezza, la progettazione e realizzazione di interventi di riduzione del rischio sismico a diversa scala. All’interno di questo processo si creano spesso condizioni uniche per confrontare i modelli teorici con il dato sperimentale, non solo attraverso l’osservazione delle conseguenze, ma anche attraverso l’attivazione di attività sperimentali orientate all’ottimizzazione delle risorse destinate alla ricostruzione e all’approfondimento di tecniche e metodi innovativi o non ancora completamenti maturi.
  
  
  La relazione fornisce un primo quadro delle opportunità che sono scaturite nell’ambito della ricostruzione che ha seguito l’ultimo evento sismico di rilievo nazionale (Centro Italia 2016), esperienza che si è intersecata con il Piano di Ricostruzione e Resilienza e che ha contribuito a realizzare sperimentazioni di sicuro interesse per la definizione di soluzioni costruttive più efficaci, auspicando che l’avvenimento di eventi non completamente prevedibili e potenzialmente disastrosi possa almeno essere utilizzato in maniera efficace per limitare danni nel futuro.

09:45

• 09:45 - 11:00 - Sessioni parallele

11:00

• 11:00 - 11:30 - Coffe break

11:30

• 11:30 - 13:00 - Sessioni parallele

14:00

• 14:00 - 18:50 - Evento dell'Ordine degli Ingegneri – CNI: 

  Murature Storiche e Resilienza Sismica: un binomio possibile? – Dalla diagnosi all’intervento: soluzioni tra innovazione e tradizione

   

  Nota: l'evento previsto nel programma per  il giovedì pomeriggio, pur essendo contiguo al convegno, non ne fa parte. Infatti, esso è organizzato con l'Ordine degli Ingegneri di Perugia, che curerà l'assegnazione dei crediti e richiederà il patrocinio.