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1. Acoustic Emission Localization in Steel Pipes Through Entropy-information Analysis

Author

Denis Bogomolov, Camilla B. Larocca, Sina Zolfagharysaravi, Lorenzo M. Peppi, Evgeny Burda, Canio Mennuti, Giuseppe Augugliaro, Luca De Marchi, and Alessandro Marzani

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

The present study aims to introduce an innovative entropy-based denoising technique to enhance the accuracy of TDoA (Time Difference of Arrival) in source localization techniques based on acoustic emissions (AE). The approach focuses on the challenging scenario of industrial pipelines in energy and transportation systems characterized by high level of noise. Conventional methods for estimating the TDoA of AE sources, are generally hindered by external interferences in near-industrial scenarios, leading to distorted AE signals. The proposed approach encompasses a comprehensive analysis of signal waveforms, integrating local entropy to effectively compensate for the presents of noise, and employing the Akaike Information Criterion (AIC) to estimate the TDoA. To evaluate the performance of the proposed method, a two-stage experimental campaign was conducted on a pressurized hydraulic circuit. The first stage involved verifying the statistical reliability of the proposed algorithm by employing the Hsu-Nielsen test (pencil lead break) at multiple points along a series of pipes. In the second stage, an ad-hoc system was devised to induce accelerated corrosion on the same piping while capturing raw acoustic emission waveforms. Various levels of Gaussian noise, reflecting distinct signal-to-noise ratios, were added to the recorded raw waveforms to simulate diverse industrial interference scenarios. The findings illustrate significant enhancement in the accuracy and repeatability of AE source localization. The proposed entropy-based denoising technique showcases substantial potential for advancing damage detection and localization within the Process & Power Industry.

Published
2024

4. Comparing Static and Dynamic Regression Models for Temperature Compensation in Vibration-Based SHM Systems

Author

Kamali, Soroosh, Kalantari, Ata, Mariani, Stefano, Mennuti, Canio, Augugliaro, Giuseppe, Marzani, Alessandro, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Rainieri, Carlo, editor, Gentile, Carmelo, editor, and Aenlle López, Manuel, editor

Published
2024
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7. BREAKING: JM Caparro announced as new athletic director - The Eagle

Author

Mennuti, Izzy FantiniCharlie

Subjects
News, opinion and commentary, Sports and fitness, American University, Boston College
Abstract

Byline: Izzy FantiniCharlie Mennuti American University President Sylvia Burwell announced in an email Tuesday that JM Caparro will replace Billy Walker as director of athletics and recreation, following the announcement [...]

Published
2024

8. Advanced Video-Based Processing for Low-Cost Damage Assessment of Buildings under Seismic Loading in Shaking Table Tests

Author

Antonino Cataldo, Ivan Roselli, Vincenzo Fioriti, Fernando Saitta, Alessandro Colucci, Angelo Tatì, Felice Carlo Ponzo, Rocco Ditommaso, Canio Mennuti, and Alessandro Marzani

Subjects
video based, vibrational monitoring, structural damage, low-cost monitoring methods, modal parameters identification, damage location, Chemical technology, TP1-1185
Abstract

This paper explores the potential of a low-cost, advanced video-based technique for the assessment of structural damage to buildings caused by seismic loading. A low-cost, high-speed video camera was utilized for the motion magnification processing of footage of a two-story reinforced-concrete frame building subjected to shaking table tests. The damage after seismic loading was estimated by analyzing the dynamic behavior (i.e., modal parameters) and the structural deformations of the building in magnified videos. The results using the motion magnification procedure were compared for validation of the method of the damage assessment obtained through analyses of conventional accelerometric sensors and high-precision optical markers tracked using a passive 3D motion capture system. In addition, 3D laser scanning to obtain an accurate survey of the building geometry before and after the seismic tests was carried out. In particular, accelerometric recordings were also processed and analyzed using several stationary and nonstationary signal processing techniques with the aim of analyzing the linear behavior of the undamaged structure and the nonlinear structural behavior during damaging shaking table tests. The proposed procedure based on the analysis of magnified videos provided an accurate estimate of the main modal frequency and the damage location through the analysis of the modal shapes, which were confirmed using advanced analyses of the accelerometric data. Consequently, the main novelty of the study was the highlighting of a simple procedure with high potential for the extraction and analysis of modal parameters, with a special focus on the analysis of the modal shape’s curvature, which provides accurate information on the location of the damage in a structure, while using a noncontact and low-cost method.

Published
2023
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9. Acoustic Emission Localization in Steel Pipes through Entropy-Information Analysis.

Author

Bogomolov, Denis, Larocca, Camilla B., Zolfagharysaravi, Sina, Peppi, Lorenzo M., Burda, Evgeny, Mennuti, Canio, Augugliaro, Giuseppe, De Marchi, Luca, and Marzani, Alessandro

Subjects
ACOUSTIC localization, HYDRAULIC circuits, AKAIKE information criterion, STATISTICAL reliability, PIPELINE transportation
Abstract

The present study aims to introduce an innovative entropy-based denoising technique to enhance the accuracy of TDoA (Time Difference of Arrival) in source localization techniques based on acoustic emissions (AE). The approach focuses on the challenging scenario of industrial pipelines in energy and transportation systems characterized by high level of noise. Conventional methods for estimating the TDoA of AE sources, are generally hindered by external interferences in near-industrial scenarios, leading to distorted AE signals. The proposed approach encompasses a comprehensive analysis of signal waveforms, integrating local entropy to effectively compensate for the presents of noise, and employing the Akaike Information Criterion (AIC) to estimate the TDoA. To evaluate the performance of the proposed method, a two-stage experimental campaign was conducted on a pressurized hydraulic circuit. The first stage involved verifying the statistical reliability of the proposed algorithm by employing the Hsu-Nielsen test (pencil lead break) at multiple points along a series of pipes. In the second stage, an ad-hoc system was devised to induce accelerated corrosion on the same piping while capturing raw acoustic emission waveforms. Various levels of Gaussian noise, reflecting distinct signal-to-noise ratios, were added to the recorded raw waveforms to simulate diverse industrial interference scenarios. The findings illustrate significant enhancement in the accuracy and repeatability of AE source localization. The proposed entropy-based denoising technique showcases substantial potential for advancing damage detection and localization within the Process & Power Industry. [ABSTRACT FROM AUTHOR]

Published
2024
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10. A Wireless Sensor Node for Acoustic Emission Non-destructive Testing

Author

Cardarilli, Gian Carlo, Di Nunzio, Luca, Massimi, Federico, Fazzolari, Rocco, De Petris, Carlo, Augugliaro, Giuseppe, Mennuti, Canio, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Ruediger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Liang, Qilian, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zhang, Junjie James, Series Editor, and De Gloria, Alessandro, editor

Published
2019
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11. Application of statistical analysis for the identification of critical bottom areas due to corrosion in atmospheric storage tanks

Author

Giuseppa Ancione, Canio Mennuti, Paolo Bragatto, Maria Francesca Milazzo, and Edoardo Proverbio

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

Equipment ageing containing hazardous substances is a criticality for the safe as leakages can give rise to serious accidental scenarios such as fires, explosions, and dispersions of chemicals into the environment. The attention towards this issue grows over the time and becomes significant when the equipment is reaching the end of its lifetime. Ageing management usually includes targeted and in-depth integrity controls performed at regular intervals. Atmospheric storage tanks of hydrocarbons are particularly critical as the control of the bottom integrity requires not only the service interruption, but also the need for the inspectors to stay long time in hazardous environments during the time required for the thickness measurements. One of the main causes of perforation is corrosion. The whole bottom is in any case subjected to significant stress, therefore, the thickness of the bottom plates must not be below a threshold value to avoid leakages. The aim of this work is to investigate the entire bottom of an atmospheric storage tank to identify the most susceptible locations with respect to the deterioration due to localised corrosion. The assessment of the probability of perforation of the bottom indicated the annular ring as the most critical. To achieve this objective, the latest inspection data have been used that allowed identifying the probabilities of leakage for the various homogeneous areas identified in the bottom. An estimate of the time to reach the critical thickness has also been given based on a recent approach that combines the extreme value theory of with the Bayes theorem.

Published
2022
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15. Assessment of the Perforation Risk for Atmospheric Storage Tanks Containing Solvents

Author

Maria Francesca Milazzo, Giuseppa Ancione, Paolo Bragatto, and Canio Mennuti

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

The assessment of the integrity of the atmospheric storage tanks is needed to prevent releases of hazardous materials. In particular, the control of the localised losses of thickness, due to pitting or other phenomena, is essential for the bottom of the storage tanks, because these could lead to the perforation of the plates and leakages of materials with severe environmental consequences. Different techniques are available for the integrity measurement, but they always require the tanks is out of service, therefore, it has to be empty and reclaimed. Measurements can be repeated only after some years of further service. Nevertheless, the estimation of the perforation probability is important to assess the risk of major accidents as well as the environmental risk, associated with possible leakages. Unfortunately, discrete thickness measurements cannot determine with certainty the maximum corrosion depth of the bottom, where the materials usually exhibit localised corrosion in the form of pits. For this reason, to assess the perforation probability of the storage tank, a probabilistic approach based on the extreme value theory must be used. This work describes a model predicting the maximum expected damage with respect to the deterioration mechanisms affecting the bottom of the atmospheric storage tanks containing naphtha based solvents. The model is based on an analysis of the bottom damage, obtained by collecting thickness measurements. The application to a real case-study is presented.

Published
2021
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19. REVIEW: 'Dumb Money' is a 'sort of smart' dramatization of the GameStop stock scandal

Author

Mennuti, Charlie

Subjects
Stocks, Scandals, Television programs -- Television program reviews, News, opinion and commentary, Sports and fitness
Abstract

Byline: Charlie Mennuti 'Dumb Money,' the new docu-drama from 'I, Tonya' director Craig Gillespie, showcases the time-honored trope of an underdog gatecrashing a walled-off society. This time, Gillespie exposes the [...]

Published
2023

21. CCBE1 Mutation in Two Siblings, One Manifesting Lymphedema-Cholestasis Syndrome, and the Other, Fetal Hydrops

Author

Bull, Laura, Shah, S, Conlin, LK, Gomez, L, Aagenaes, Ø, Eiklid, K, Knisely, AS, Mennuti, MT, Matthews, RP, Spinner, NB, and Bull, LN

Abstract

Background:Lymphedema-cholestasis syndrome (LCS; Aagenaes syndrome) is a rare autosomal recessive disorder, characterized by 1) neonatal intrahepatic cholestasis, often lessening and becoming intermittent with age, and 2) severe chronic lymphedema, mainly

Published
2013

22. Simplified Modelling of the Remaining Useful Lifetime of Atmospheric Storage Tanks in Major Hazard Establishments

Author

Maria Francesca Milazzo, Giuseppa Ancione, Paolo Bragatto, and Canio Mennuti

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

In Europe, after the Directive 2012/18/UE entered into force, the operators of establishments at major hazard accident are required to evaluate and manage equipment ageing through a detailed planning with the aim to control the integrity and prevent unwanted losses of hazardous materials as well as occupational risk. It is essential to estimate the equipment health and predict its remaining useful lifetime. Reliable estimates make possible to achieve a safe and efficient conduction of normal operations. To contribute to the achievement of these aims, a system is being developed, which is based on prognostic modelling and augmented reality for the prediction of the equipment degradation and the remaining useful lifetime. The system consists of hardware and software, in which the forecasting models draw information from a network of sensors installed on the equipment and from a database containing the history of inspections. The model integrates also information about deterioration mechanisms. This paper presents a preliminary study carried out for the derivation of the degradation model with respect to the mechanisms affecting atmospheric storage tanks, namely the internal corrosion of metal structures exposed hydrocarbons and the backside corrosion of the bottom floors. A comparison between the proposed method and the EEMUA standard is also given.

Published
2020
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25. List of Contributors

Author

Biggio, Joseph R., primary, Bromley, Bryann, additional, Dugoff, Lorraine, additional, Edelson, P. Kaitlyn, additional, Giordano, Jessica L., additional, Gregg, Anthony R., additional, Guo, Michael H., additional, Guseh, Stephanie, additional, Klugman, Susan, additional, Kuller, Jeffrey A., additional, Levy, Brynn, additional, Lichten, Lauren, additional, MacKenzie, Tippi C., additional, Mennuti, Michael T., additional, Nguyen, Quoc-Hung L., additional, Norton, Mary E., additional, O’Brien, Barbara M., additional, Patel, Soha S., additional, Prabhu, Malavika, additional, Rabin-Havt, Sara Schonfeld, additional, Rajkovic, Aleksandar, additional, Reimers, Rebecca, additional, Rink, Britton D., additional, Stosic, Melissa, additional, Van den Veyver, Ignatia B., additional, Wapner, Ronald, additional, Wilkins-Haug, Louise, additional, Witt, Russell G., additional, and Yatsenko, Svetlana A., additional

Published
2019
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26. Advanced Video-Based Processing for Low-Cost Damage Assessment of Buildings under Seismic Loading in Shaking Table Tests

Author

Marzani, Antonino Cataldo, Ivan Roselli, Vincenzo Fioriti, Fernando Saitta, Alessandro Colucci, Angelo Tatì, Felice Carlo Ponzo, Rocco Ditommaso, Canio Mennuti, and Alessandro

Subjects
video based, vibrational monitoring, structural damage, low-cost monitoring methods, modal parameters identification, damage location
Abstract

This paper explores the potential of a low-cost, advanced video-based technique for the assessment of structural damage to buildings caused by seismic loading. A low-cost, high-speed video camera was utilized for the motion magnification processing of footage of a two-story reinforced-concrete frame building subjected to shaking table tests. The damage after seismic loading was estimated by analyzing the dynamic behavior (i.e., modal parameters) and the structural deformations of the building in magnified videos. The results using the motion magnification procedure were compared for validation of the method of the damage assessment obtained through analyses of conventional accelerometric sensors and high-precision optical markers tracked using a passive 3D motion capture system. In addition, 3D laser scanning to obtain an accurate survey of the building geometry before and after the seismic tests was carried out. In particular, accelerometric recordings were also processed and analyzed using several stationary and nonstationary signal processing techniques with the aim of analyzing the linear behavior of the undamaged structure and the nonlinear structural behavior during damaging shaking table tests. The proposed procedure based on the analysis of magnified videos provided an accurate estimate of the main modal frequency and the damage location through the analysis of the modal shapes, which were confirmed using advanced analyses of the accelerometric data. Consequently, the main novelty of the study was the highlighting of a simple procedure with high potential for the extraction and analysis of modal parameters, with a special focus on the analysis of the modal shape’s curvature, which provides accurate information on the location of the damage in a structure, while using a noncontact and low-cost method.

Published
2023
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28. Next Generation Edge-Cloud Continuum Architecture for Structural Health Monitoring

Author

Gigli, Lorenzo, Zyrianoff, Ivan, Zonzini, Federica, Bogomolov, Denis, Testoni, Nicola, Felice, Marco Di, De Marchi, Luca, Augugliaro, Giuseppe, Mennuti, Canio, and Marzani, Alessandro

Abstract

Assessing the integrity of industrial and civil appliances has become a priority worldwide. Noteworthy, this goal requires a strong synergy between multiple tools, disciplines, and approaches to be attained via a joint hardware-software co-design of the different Structural Health Monitoring (SHM) system components. This work proposes the $\sf{MAC4PRO}$ architecture, a sensor-to-cloud monitoring platform that seamlessly integrates sensing and software technologies for accurate data measurement, transmission, and analysis. The developed solution stands out for its interoperability and versatility, making it a promising candidate for integration in the next generation of smart structures. Our platform was validated during extensive experimental campaigns targeted at various industrial scenarios. The results show that the $\sf{MAC4PRO}$ architecture can identify subtle changes, such as 1mm size leakage events in pipeline circuits, or less than 1% frequency drifts in civil buildings after seismic excitation, while ensuring more than 90% reduction in the edge-to-cloud data transfer process.

Published
2024
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31. Improving Safety of Process Plants, through Smart Systems for Critical Equipment Monitoring

Author

Paolo Bragatto, Maria Ansaldi Silvia, and Canio Mennuti

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

In the last years there has been a considerable development of wireless sensors based on technologies that allow machine-to-machine communication, thus to talk about the "Internet of Things" IoT and "smart systems". Many industries, such as manufacturing and construction, are adopting smart technologies for improving all the production activities, including safety. The research laboratories have developed many Smart Safety System SSS. Many Commercial provider are already selling SSS even though the actual benefits are not yet so clear. The paper focuses on the establishments that handle hazardous chemical materials and fall under the Directive 2012/18/EU Seveso III, which requires a quantitative assessment of the risk. The goal of the paper is to assess how the use of SSS applied to critical equipment can improve the safety, reducing the likelihood of incidents occurrence or mitigating the consequences related to the loss of containment of hazardous substances. The paper proposes a method, based on some primary criteria, useful for the stakeholders to address the choice of the SSS and to assess the benefits for risk reduction. Several examples, described in the paper, show solutions of smart systems able to monitor critical equipment on more frequent mechanisms of damage, including corrosion, erosion, thinning, structural defects, and vibration anomalies. The SSS provide the operators with a huge amount of data, which may be integrated with adequate information and sound knowledge, so that to make possible a dynamic management of the risk.

Published
2018
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32. Structural Health Monitoring and Prognostic of Industrial Plants and Civil Structures: A Sensor to Cloud Architecture

Author

Federica Zonzini, Nicola Testoni, Cristiano Aguzzi, Luca Sciullo, Marco Di Felice, Alessandro Marzani, Luca De Marchi, Canio Mennuti, Tullio Salmon Cinotti, Lorenzo Gigli, Zonzini F., Aguzzi C., Gigli L., Sciullo L., Testoni N., De Marchi L., Di Felice M., Cinotti T.S., Mennuti C., and Marzani A.

Subjects
Computer architecture, Tools, Sensors, Task analysis, Monitoring, Civil engineering, Testing, Distributed database, Computer science, 020208 electrical & electronic engineering, Interoperability, 02 engineering and technology, Predictive maintenance, Web of Things, Component-based software engineering, Scalability, 0202 electrical engineering, electronic engineering, information engineering, Systems engineering, Structural health monitoring, Electrical and Electronic Engineering, Instrumentation, Wireless sensor network
Abstract

The deployment of Structural Health Monitoring (SHM) systems is a natively interdisciplinary task that involves joint research contributions from sensing technologies, data science and civil engineering. The capability to assess, also from remote stations, the working conditions of industrial plants or the structural integrity of civil buildings is widely requested in many application fields. The technological development aims to continuously provide innovative tools and approaches to satisfy these demands. As a first instance, reliable monitoring strategies are needed to detect structural damages while filtering out environmental noise. Ongoing solutions to tackle these topics are based on the exploitation of highly customized sensing technologies, such as shaped transducers for Acoustic Emission (AE) testing or Micro-Electro-Mechanical System (MEMS) accelerometers for Operational Modal Analysis (OMA) [1]. On the other hand, effective data acquisition and storage techniques must be employed to cope with the heterogeneity of the sensing devices and with the amount of data produced by collecting raw measured signals. Finally, damage detection and prediction tasks should be computed via data-driven algorithms that can complement the model-based alternatives traditionally used in civil engineering. Layered SHM architectures [2] represent straightforward approaches to address the system complexity originated by this interdisciplinary design; however, few real-world implementations have been presented so far in the literature. In this paper, we overcome these limitations by presenting an Internet of Things (IoT)-based SHM architecture for the predictive maintenance of industrial sites and civil engineering structures and infrastructures. The proposed cyber-physical system includes a monitoring layer, that consists of accelerometer-based sensor networks, a data acquisition layer, built on the recent W3C Web of Things standard [3], and a data storage and analytics layer, which leverages distributed database and Machine Learning tools. We extensively discuss the hardware/software components of the proposed SHM architecture, by stressing its advantages in terms of device versatility, data scalability and interoperability support. Finally, the effectiveness of the system is validated on a real-world use-case, i.e., the monitoring of a metallic frame structure located at the SHM research labs of the University of Bologna, Italy, within the MAC4PRO project [4].

Published
2020

34. Dynamic Bandwidth Allocation

Author

Celandroni, Nedo, Davoli, Franco, Ferro, Erina, Gotta, Alberto, Karapantazis, Stylianos, Mennuti, Giada, Morell, Antoni, Pecorella, Tommaso, Granados, Gonzalo Seco, Todorova, Petia, Castro, María Angeles Vázquez, and Giambene, Giovanni, editor

Published
2007
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37. School-Based Therapy

Author

Mennuti, Rosemary, Christner, Ray W., Freeman, Arthur, editor, Felgoise, Stephanie H., editor, Nezu, Christine M., editor, Nezu, Arthur M., editor, and Reinecke, Mark A., editor

Published
2005
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38. Selflife: A Life Skills Development Tool to Prevent Sexual Violence among Healthcare Students

Author

Sylvie Pires, Hélène Denizot, Abdel Halim Boudoukha, Julie Mennuti, Cécile Miele, Catherine Potard, Gaëlle Riquoir, Pierre-Michel Llorca, Valentin Flaudias, and Laurent Gerbaud

Subjects
sexual violence, prevention, trauma, students, life skills, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health
Abstract

Background: in France, 14.5% of women and 3.9% of men aged 20–69 years have experienced sexual violence. Of these, 40% will go on to develop posttraumatic stress disorder. Sexual violence is therefore a major public health issue. In the present study, we tested a life skills development tool (Selflife) designed to prevent sexual violence in a population of healthcare students. Methods: a total of 225 French healthcare students were randomly divided into a control group using case studies (n = 114) and a group using Selflife (n = 111) to discuss the topic of sexual violence. After the session, they completed self-report questionnaires collecting sociodemographic data and probing their feelings about their participation, their life skills, and their verdict on the intervention. Results: compared with controls, participants in the Selflife group reported gaining more knowledge about sexual violence, a greater sense of improving their life skills, and greater satisfaction with the intervention. Conclusions: these results suggest that, in addition to providing information about sexual violence, Selflife helped students develop their life skills, thereby empowering them to act when confronted with sexual violence. Its impact on prevalence and on the psychological and psychiatric consequences remains to be assessed.

Published
2023

41. Le disposizioni sui comuni per il 2021: una rassegna normativa nella fase di ripresa del Paese

Author

Romano Astolfo, Danilo Ballanti, Barbara Becchi, Gioacchino Benfante, Chiara Bergonzini, Paolo Brambilla, Valeria Bucci, Noemi Ilaria Buonsante, Rebeca C. Cabrera Rivera, Stefano Campostrini, Natalina Teresa Capua, Giovanna Colombini, Giovanni Carrosio, Elisa Cavasino, Fausto Corradin, Filippo Corradini, Michele Costola, Marzia De Donno, Silvia Degli Angeli, Marcello Degni, Elena di Carpegna Brivio, Cristina Equizzi, Giancarlo Ferrara, Andrea Ferri, Fabio Fiorillo, Giaime Gabrielli, Giampiero Maria Gallo, Elena Giovannini, Carla Golfieri, Raffaele Lagravinese, Eleonora Luciani, Chiara Mancini, Vanessa Manzetti, Silvia Martini, Marco Mastracci, Manuela Lucia Mei, Edoardo Meneghelli, Pasquale Mennuti, Elvina Merkaj, Larysa Minzyuk, Francesco Monaco, Andrea Morgia, Riccardo Mussari, Emanuele Padovani, Massimo Paradiso, Francesco Porcelli, Stefania Porchia, Stefano Pozzoli, Cristina Randi, Paolo Ravaioli, Giuliano Resce, Alberto Scheda, Giulia Valeria Sonzogno, Stefano Sotgiu, Marco Stradiotto, Elena Torri, Claudia Tubertini, Cesare Vignocchi, Flaviano Zandonai, Maristella Zantedeschi., Degni, M, Luciani, E, Luciani, E., Romano Astolfo, Danilo Ballanti, Barbara Becchi, Gioacchino Benfante, Chiara Bergonzini, Paolo Brambilla, Valeria Bucci, Noemi Ilaria Buonsante, Rebeca C. Cabrera Rivera, Stefano Campostrini, Natalina Teresa Capua, Giovanna Colombini, Giovanni Carrosio, Elisa Cavasino, Fausto Corradin, Filippo Corradini, Michele Costola, Marzia De Donno, Silvia Degli Angeli, Marcello Degni, Elena di Carpegna Brivio, Cristina Equizzi, Giancarlo Ferrara, Andrea Ferri, Fabio Fiorillo, Giaime Gabrielli, Giampiero Maria Gallo, Elena Giovannini, Carla Golfieri, Raffaele Lagravinese, Eleonora Luciani, Chiara Mancini, Vanessa Manzetti, Silvia Martini, Marco Mastracci, Manuela Lucia Mei, Edoardo Meneghelli, Pasquale Mennuti, Elvina Merkaj, Larysa Minzyuk, Francesco Monaco, Andrea Morgia, Riccardo Mussari, Emanuele Padovani, Massimo Paradiso, Francesco Porcelli, Stefania Porchia, Stefano Pozzoli, Cristina Randi, Paolo Ravaioli, Giuliano Resce, Alberto Scheda, Giulia Valeria Sonzogno, Stefano Sotgiu, Marco Stradiotto, Elena Torri, Claudia Tubertini, Cesare Vignocchi, Flaviano Zandonai, Maristella Zantedeschi., Degni, M, Luciani, E, and Luciani, E.

Published
2022

45. AE fatigue experiments on tanks test samples with artificial pre-cracking

Author

C. Brutti, Andrea Chiappa, Pietro Salvini, Fabio Brini, Stefano Porziani, P. Quaresima, Giuseppe Augugliaro, Corrado Groth, C. Mennuti, and Marco Evangelos Biancolini

Subjects
Damage Evolution, Materials science, Nucleation, Crack Nucleation, 02 engineering and technology, Plasticity, 021001 nanoscience & nanotechnology, Fractal dimension, Fractal analysis, Machined Notch, Fully developed, Settore ING-IND/14 - Progettazione Meccanica e Costruzione di Macchine, Acoustic Emission, Non-Destructive Testing, 020303 mechanical engineering & transports, Discontinuity (geotechnical engineering), 0203 mechanical engineering, Acoustic emission, Pre cracking, Composite material, 0210 nano-technology, Earth-Surface Processes
Abstract

The acoustic emission (AE) method is well studied for its capability to detect and locate discontinuity that evolve in time, when a pressure tank is charged with a greater load than the usual one. When the discontinuity is a crack the AE is able to follow the nucleation and the propagation of the defect in the material. For this paper, experiment on pre-cracked samples with different notch shape are presented. The samples have been loaded with fatigue cycles and the acoustic activity during the tests has been recorded. The stress was always positive to keep the notched side in traction during the test. During the test AE signals become relevant when the load leads plastic strain near the notch. We noticed an increase of activity when the plasticity advances with a stepped shape. This stepped shape of the number of the events versus time agrees very well with the crack nucleation and its evolution to a fully developed crack. We applied the fractal analysis method to these experiments, to verify the correlation between the fractal dimension (Dt), the applied stress and the order/disorder of the material of the sample. The fractal analysis method is capable to follow the damage status of the sample, while fatigue test.

Published
2020

46. Connected

Author

MENNUTI, NICHOLAS D.

Published
2008

48. Monitoraggio di una trave di calcestruzzo armato con rete di sensori eterogenea miniaturizzata

Author

MICHELANGELO MARIA MALATESTA, Federica Zonzini, Denis Bogomolov, Mirco Tarozzi, Testoni, Nicola, Giuseppe, Agugliaro, Canio, Mennuti, Alessandro Marzani, Luca De Marchi, Andrea Benedetti, and Michelangelo Maria Malatesta, Federica Zonzini, Denis Bogomolov, Mirco Tarozzi, Nicola Testoni, Giuseppe Agugliaro, Canio Mennuti, Alessandro Marzani, Luca De Marchi, Andrea Benedetti

Subjects
Analisi Vibrazionale, Emissioni Acustiche, reti miniaturizzate
Published
2020

49. Comparison of numerical models for Acoustic Emission propagation

Author

Alessandro Marzani, C. Mennuti, Andrea Chiappa, Marco Evangelos Biancolini, Marco Messina, F. Giorgetti, Giuseppe Augugliaro, Chiappa, A., Giorgetti, F., Marzani, A., Messina, M., Augugliaro, G., Mennuti, C., and Biancolini, M.E.

Subjects
Wave propagation, Computer science, Acoustics, NASTRAN, Structural system, 020101 civil engineering, 02 engineering and technology, 01 natural sciences, 0201 civil engineering, Reduction (complexity), Ultrasonic wave, ANSYS, Software, 0103 physical sciences, FEMAP, 010301 acoustics, Earth-Surface Processes, business.industry, Supercomputer, COMSOl, Settore ING-IND/14 - Progettazione Meccanica e Costruzione di Macchine, Acoustic emission, numerical simulation, Finite Element Method, Transient (oscillation), business, Wireless sensor network
Abstract

Acoustic Emissions (AE) are at the basis of extremely accurate and reliable monitoring systems. Within the SmartBench project, data regarding structural health of components are gathered in a database in order to make safety integrated, operative and smart. An accurate modelling of wave propagation is a necessary requirement for a proper design of sensor networks as well as for data interpretation. Numerical simulations of the transient behavior of structural systems are well-established in this field but, on the minus side, they are very expensive in terms of computational time and resources. This paper reports different instances of AE propagation through metallic media. Bulk waves and guided waves are both investigated by means of 2D and 3D models and resorting to different software. Obtained results are cross-checked and computational times are compared as well. As a last point, High Performance Computing is applied to the case of waves simulation in order to get a significant reduction of the required computational time.

Published
2018

50. Role of Orientation, Gender, and Dilemma Content in Moral Reasoning.

Author

Mennuti, Rosemary B. and Creamer, Don G.

Abstract

Explored use of multiple orientations in moral reasoning among nine female and seven male community college presidents. Three orientations to moral reasoning were revealed. Self-orientation appeared to join with one or both of the justice and care models. Both men and women used all three orientations; however, how the orientations were used seemed to vary slightly by gender. (LLL)

Published
1991

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