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Augmented Reality in Seismic Risk Management: A Contribution to the Reduction of Non-Structural Damage (2022)

Falsaperla, Susanna ; Reitano, Danilo ; Musacchio, Gemma

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Publication Date: 2022-09-07

Description: To increase seismic resilience is one of the challenges the developers of new technologies face to reduce seismic risk. We set up an augmented reality (AR) exhibition with which users’ curiosity was confronted with the opportunity to have a wealth of information on damaging earthquakes that could be a multimedia add-on to the plain “single-layer exhibit”. AR is an emergent technology developed to “augment” reality through various devices; it combines the real world with virtual items, such as images and videos. Our AR exhibition aims to: (i) show the effects of earthquakes even in cases of moderate magnitude; and (ii) promote preventive actions to reduce non-structural damage. It can be customized for different seismic scenarios. In addition, it offers a holistic approach to communicate problems and solutions—with the cost and degree of ease of execution for each solution—to reduce non-structural damage at home, school, and office. Our AR exhibition can do more than just a plain text or a preconceived video: it can trigger fruitful interaction between the presenters, or even the stand-alone poster, and the public. Such interactivity offers an easy engagement to people of all ages and cultural backgrounds. AR is, indeed, extremely flexible in raising recipients’ interest; moreover, it is an appealing tool for the digital native generations. The positive feedback received led us to conclude that this is an effective way to raise awareness and individual preparedness to seismic risk.

Description: This study was co-financed by the European Commission’s Humanitarian Aid and Civil Protection (grant agreement ECHO/SUB/2015/718655/PREV28).

Description: Published

Description: 332

Description: 5T. Sismologia, geofisica e geologia per l'ingegneria sismica

Description: JCR Journal

Keywords: Augmented Reality ; earthquakes ; non-structural damage ; seismic risk ; education ; 04.06. Seismology ; 05.06. Methods ; 05.08. Risk

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Radon Hazard in Central Italy: Comparison among Areas with Different Geogenic Radon Potential (2022)

Giustini, Francesca ; Ruggiero, Livio ; Sciarra, Alessandra ; [et al.]

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Publication Date: 2022-02-03

Description: Radon (222Rn) is a natural radioactive gas formed in rocks and soil by the decay of its parent nuclide (238-Uranium). The rate at which radon migrates to the surface, be it along faults or directly emanated from shallow soil, represents the Geogenic Radon Potential (GRP) of an area. Considering that the GRP is often linked to indoor radon risk levels, we have conducted multi-disciplinary research to: (i) define local GRPs and investigate their relationship with associated indoor Rn levels; (ii) evaluate inhaled radiation dosages and the associated risk to the inhabitants; and (iii) define radon priority areas (RPAs) as required by the Directive 2013/59/Euratom. In the framework of the EU-funded LIFE-Respire project, a large amount of data (radionuclide content, soil gas samples, terrestrial gamma, indoor radon) was collected from three municipalities located in different volcanic districts of the Lazio region (central Italy) that are characterised by low to high GRP. Results highlight the positive correlation between the radionuclide content of the outcropping rocks, the soil Rn concentrations and the presence of high indoor Rn values in areas with medium to high GRP. Data confirm that the Cimini-Vicani area has inhalation dosages that are higher than the reference value of 10 mSv/y.

Description: European LIFE projects, LIFE-Respire (LIFE16 ENV/IT/000553) projects; Istituto Nazionale per l’Assicurazione contro gli Infortuni sul Lavoro, project number: INAIL/CNR-IGAG (P19L06)

Description: Published

Description: 666

Description: 6A. Geochimica per l'ambiente e geologia medica

Description: JCR Journal

Keywords: geogenic radon potential ; risk assessment ; soil gas and indoor radon ; 05.08. Risk

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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A Technological System for Post-Earthquake Damage Scenarios Based on the Monitoring by Means of an Urban Seismic Network (2021)

Costanzo, Antonio ; Falcone, Sergio ; D'Alessandro, Antonino ; [et al.]

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Publication Date: 2021-12-03

Description: A technological system capable of automatically producing damage scenarios at an urban scale, as soon as an earthquake occurs, can help the decision-makers in planning the first post-disaster response, i.e., to prioritize the field activities for checking damage, making a building safe, and supporting rescue and recovery. This system can be even more useful when it works on densely populated areas, as well as on historic urban centers. In the paper, we propose a processing chain on a GIS platform to generate post-earthquake damage scenarios, which are based: (1) on the near real-time processing of the ground motion, that is recorded in different sites by MEMS accelerometric sensor network in order to take into account the local effects, and (2) the current structural characteristics of the built heritage, that can be managed through an information system from the local public administration authority. In the framework of the EU-funded H2020-ARCH project, the components of the system have been developed for the historic area of Camerino (Italy). Currently, some experimental fragility curves in the scientific literature, which are based on the damage observations after Italian earthquakes, are implemented in the platform. These curves allow relating the acceleration peaks obtained by the recordings of the ground motion with the probability to reach a certain damage level, depending on the structural typology. An operational test of the system was performed with reference to an ML3.3 earthquake that occurred 13 km south of Camerino. Acceleration peaks between 1.3 and 4.5 cm/s2 were recorded by the network, and probabilities lower than 35% for negligible damage (and then about 10% for moderate damage) were calculated for the historical buildings given this low-energy earthquake.

Description: The research activities have been funded by the project “ARCH—Advancing Resilience of historic areas against Climate-related and other Hazards” funded by Horizon 2020—European Union Research and Innovation Program under grant agreement No. 820999.

Description: Published

Description: 7887

Description: 5T. Sismologia, geofisica e geologia per l'ingegneria sismica

Description: JCR Journal

Keywords: Earthquake monitoring ; Damage scenarios ; Vulnerability models ; Automated processing ; MEMS accelerometric sensor network ; GIS platform ; Information systems ; EU-H2020 ARCH project ; 05.08. Risk

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Assessing Earthquake Impacts and Monitoring Resilience of Historic Areas: Methods for GIS Tools (2021)

Giovinazzi, Sonia ; Marchili, Corinna ; Di Pietro, Antonio ; [et al.]

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Publication Date: 2021-11-29

Description: Historic areas (HAs) are highly vulnerable to natural hazards, including earthquakes, that can cause severe damage, if not total destruction. This paper proposes methods that can be implemented through a geographical information system to assess earthquake-induced physical damages and the resulting impacts on the functions of HAs and to monitor their resilience. For the assessment of damages, making reference to the universally recognised procedure of convoluting hazard, exposure, and vulnerability, this paper proposes (a) a framework for assessing hazard maps of both real and end-user defined earthquakes; (b) a classification of the exposed elements of the built environment; and (c) an index-based seismic vulnerability assessment method for heritage buildings. Moving towards the continuous monitoring of resilience, an index-based assessment method is proposed to quantify how the functions of HAs recover over time. The implementation of the proposed methods in an ad hoc customized WebGIS Decision Support System, referred to as ARCH DSS, is demonstrated in this paper with reference to the historic area of Camerino-San Severino (Italy). Our conclusions show how ARCH DSS can inform and contribute to increasing awareness of the vulnerabilities of HAs and of the severity of the potential impacts, thus supporting effective decision making on mitigation strategies, post-disaster response, and build back better.

Description: The main features of the ARCH DSS come from the exploitation of a DSS realized within the EU FP7 project “CIPRNet”, which has allowed the design and the realization of the core structure of the CIPCast DSS. Subsequently, the basic CIPCast DSS has been improved by using funds provided by the Italian Ministry for University and Research through PON project RAFAEL (“System for Risk Analysis and Forecast for Critical Infrastructures in the AppenninEs dorsaL Regions”, grant agreement no. ARS01_00305). Previous activities made in PON Project RoMA (Resilience enhancement of Metropolitan Areas, project nr. SCN_00064) have provided the basic technologies on which the ARCH DSS has been built upon. These funding agencies are greatly acknowledged. The research activities and the results that are the subject of the present work have been funded by the European project “ARCH—Advancing Resilience of historic areas against Climate-related and other Hazards” funded by the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 820999. The sole responsibility for the content of this publication lies with the authors. It does not necessarily represent the opinion of the European Union. Neither the EASME nor the European Commission are responsible for any use that may be made of the information contained therein.

Description: Published

Description: 461

Description: 5T. Sismologia, geofisica e geologia per l'ingegneria sismica

Description: JCR Journal

Keywords: geographic information system ; historic areas ; assessment of earthquake-induced damage and impact ; resilience monitoring ; 05.08. Risk

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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