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12 articles in journal  /  Angelo Croatti
 @ARTICLE {9325551,
author = {A. Ricci and A. Croatti and S. Montagna},
journal = {IEEE Internet Computing},
title = {Pervasive and Connected Digital Twins—A Vision for Digital Health},
year = {2022},
volume = {26},
number = {05},
issn = {1941-0131},
pages = {26-32},
abstract = {Healthcare is a primary domain where digital twins are being explored and applied. In this context, the main perspective explored in research and industry insofar is about the virtualization of standalone assets—such as devices, structures, and patients—in a digital twin as-an-application perspective. However, in the real world, these assets are often related to each other, taking part in the same processes and physical ecosystem. In this article, we discuss a vision in which digital twins are used to virtualizing contexts and situations involving multiple related strategic assets of a health organization, resulting in ecosystems of digital twins based on a digital-twin as-a-service perspective. Trauma management is considered as a specific concrete real-world example; nevertheless, open ecosystems of digital twins appear to be a blueprint for virtualizing complex physical realities applicable across different application domains.},
keywords = {digital twin;internet;hospitals;monitoring;real-time systems;interoperability;accidents},
doi = {10.1109/MIC.2021.3052039},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
month = {sep}
} 
 @article{ricci-wodt2021,
    acm = {10.1145/3507909},
    articleno = 101,
    author = {Ricci, Alessandro and Croatti, Angelo and Mariani, Stefano and Montagna, Sara and Marco Picone},
    doi = {10.1145/3507909},
    journal = {ACM Transactions on Internet Technology},
    number = 4,
    numpages = 30,
    semanticscholar = {246488871},
    title = {Web of Digital Twins},
    url = {https://dl.acm.org/doi/10.1145/3507909},
    urlpdf = {https://dl.acm.org/doi/pdf/10.1145/3507909},
    volume = 22,
    year = 2022
} 
 @article{CroattiSn2021,
	year = 2021,
	number = 117,
	author = {Croatti, Angelo and Montagna, Sara and Lombardi, Carolina and Parati, Gianfranco and Pengo, Martino F. and Silvani, Alessandro},
	numpages = 9,
	volume = 2,
	status = {In press},
	title = {An Internet of Medical Things system to increase continuous positive airway pressure usage in patients with sleep disordered breathing},
	journal = {SN Computer Science},
	abstract = {Obstructive sleep apnea (OSA) is a highly prevalent sleep disorder and it is associated with increased daytime sleepiness and cardiovascular risk. Continuous positive airway pressure (CPAP) requiring a pressure-generating device connected via tubing to a mask during sleep is an effective treatment, but compliance is often sub-optimal. Behavioural interventions are effective in improving adherence to CPAP. We aimed to provide proof of principle for the operation of a low-cost, self-standing, internet-based system to measure and promote CPAP compliance. The system is composed by triaxial acceleration sensors attached to the CPAP mask and to the wrist, able to record CPAP usage information, and a mobile app that collects such information and, thorough a chatbot, feeds back to the patient to improve treatment compliance. The mask subsystem identifies time periods when the mask is put on based on relatively high values of the ratio between acceleration spectral power at frequencies < 0.33 Hz vs. 0.33-2 Hz, over 1-minute windows. Accuracy in identification may be increased taking account of the surges in the standard deviation of wrist accelerations over 1-minute windows that accompany putting on and taking off the mask. The whole system can represent a unique tool capable to monitor and improve patients' adherence to CPAP treatment, thus improving sleep quality and OSA related symptoms. Its main strength lies in its simplicity, low-cost, and independence from the specific CPAP device and mask employed.},
	url = {https://link.springer.com/article/10.1007%2Fs42979-021-00522-x},
	venue_list = {--}} 
 @article{CROATTI2022164,
title = {Applying Telemedicine for Stroke Remote Diagnosis: the TeleStroke System},
journal = {Procedia Computer Science},
volume = {198},
pages = {164-170},
year = {2021},
note = {12th International Conference on Emerging Ubiquitous Systems and Pervasive Networks / 11th International Conference on Current and Future Trends of Information and Communication Technologies in Healthcare},
issn = {1877-0509},
doi = {https://doi.org/10.1016/j.procs.2021.12.224},
url = {https://www.sciencedirect.com/science/article/pii/S1877050921024637},
author = {Angelo Croatti and Marco Longoni and Sara Montagna},
keywords = {Telemedicine, Teleconsultation, Neurology, Stroke, Smartglasses},
abstract = {In the healthcare context, one of the branches where we assisted in a remarkable evolution in the last decade is telemedicine. Enhancements in the ICT landscape have driven this evolution toward the current state of the art. Nonetheless, despite its undeniable benefits – both for patients health and local health authorities economics – nowadays, telemedicine has not been fully adopted as much as it could be. The recent COVID-19 pandemic has further strengthened the role and importance of telemedicine nowadays, also highlighting the existing gaps. This paper describes a telemedicine-oriented software system called TeleStroke to support the remote diagnosis of a possible stroke, applied to an Hub&Spoke healthcare organisation.}
} 
 @article{traumatracker-hij26,
    author = {Montagna, Sara and Croatti, Angelo and Ricci, Alessandro and Agnoletti, Vanni and Albarello, Vittorio and Gamberini, Emiliano},
    title ={Real-time tracking and documentation in trauma management},
    journal = {Health Informatics Journal},
    volume = 26,
    number = 1,
    pages = {328-341},
    year = 2020,
    doi = {10.1177/1460458219825507},
    pubmed = {30726161},
    url = {https://journals.sagepub.com/doi/10.1177/1460458219825507}
} 
 @article{journals/aamas/CroattiR20,
	keywords = {Agents; BDI; Android; JaCaMo; Personal Agents},
	year = 2020,
	articleNo = 48,
	number = 1,
	author = {Croatti, Angelo and Ricci, Alessandro},
	venue_j = {Journals.Aamas},
	iris = {1585/766369},
	sort = {article},
	numpages = 27,
	volume = 34,
	month = {July},
	publisher = {Springer},
	doi = {10.1007/s10458-020-09474-7},
	status = {Published},
	title = {Mobile Apps as Personal Assistant Agents. The JaCa-Android Framework for Programming Agents-based applications on Mobile Devices},
	journal = {Autonomous Agents and Multi-Agent Systems},
	wos = {000548236100001},
	booktitle = {Current Trends in Research on Software Agents and Agent-Based Software Development},
	urlpdf = {https://link.springer.com/content/pdf/10.1007/s10458-020-09474-7.pdf},
	abstract = {A relevant application domain for agent-based software is given by mobile and wearable applications. In this context, the impressive progress of technologies in the last decade makes it possible to explore the use of agent-oriented programming languages and frameworks based on cognitive architectures, such as the BDI (BeliefDesire-Intention) one. Accordingly, in this paper we provide a comprehensive description of the JaCa-Android
approach, a framework based on the JaCaMo platform that allows for designing and programming smart mobile apps using cognitive agents based on the BDI architecture and the Agents & Artifacts (A&A) environment conceptual model. In these years, the framework has been applied in real-world projects and application domains, and extended and evolved accordingly. The aim of the paper is to report our experience about designing and programming mobile apps as personal assistant agents, as well as to discuss in detail the architecture of the framework.},
	url = {https://link.springer.com/article/10.1007/s10458-020-09474-7},
	scopus = {2-s2.0-85087865737}} 
 @article{croatti-himas2020,
    articleno = 161,
    author = {Croatti, Angelo and Gabellini, Matteo and Montagna, Sara and Ricci, Alessandro},
    booktitle = {Healthcare Intelligent Multi-Agent Systems (HIMAS2020)},
    dblp = {journals/jms/CroattiGMR20},
    doi = {10.1007/s10916-020-01623-5},
    iris = {11585/768219},
    journal = {Journal of Medical Systems},
    keywords = {Digital Twin; Agents; MAS; Healthcare; Trauma Management},
    month = aug,
    numpages = 8,
    publisher = {Springer},
    pubmed = {32748066},
    scopus = {2-s2.0-85088988374},
    semanticscholar = {220938916},
    status = {Published},
    title = {On the Integration of Agents and Digital Twins in Healthcare},
    url = {https://link.springer.com/10.1007/s10916-020-01623-5},
    urlpdf = {https://link.springer.com/content/pdf/10.1007/s10916-020-01623-5.pdf},
    volume = 44,
    wos = {000555985700001},
    year = 2020
} 
 @article{Croatti2019BDI,
	year = 2019,
	scopus = {2-s2.0-85058662276},
	url = {https://www.sciencedirect.com/science/article/pii/S0933365717306000},
	month = may,
	issn = {0933-3657},
	publisher = {Elsevier Science B.V.},
	journal = {Artificial Intelligence in Medicine},
	author = {Croatti, Angelo and Montagna, Sara and Ricci, Alessandro and Gamberini, Emiliano and Albarello, Vittorio and Agnoletti, Vanni},
	title = {BDI Personal Medical Assistant Agents: The Case of Trauma Tracking and Alerting},
	pages = {187 - 197},
	volume = 96,
	numpages = 11,
	doi = {10.1016/j.artmed.2018.12.002}
} 
 @article{Mayer2018,
author = {Mayer Simon and Ciortea Andrei and Ricci Alessandro and Robles Maria Ines and Kovatsch Matthias and Croatti Angelo},
title = {Hypermedia to connect them all autonomous hypermedia agents and sociotechnical interactions},
journal = {Internet Technology Letters},
volume = {0},
number = {0},
pages = {e50},
keywords = {HATEOAS, hypermedia, Internet of Things, mixed reality, multiagent systems, Web of Things},
doi = {10.1002/itl2.50},
url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/itl2.50},
eprint = {https://onlinelibrary.wiley.com/doi/pdf/10.1002/itl2.50},
abstract = {Current standardization efforts of the Web of Things provide a unique opportunity to integrate technologies from the research domain of multiagent systems and the human‐computer interaction field that could take us closer to creating intuitively usable distributed artificial intelligence. In this paper, we discuss what bridges are missing between these largely detached research communities: we propose to use the Hypermedia As The Engine Of Application State principle that is at the core of the Web architecture to underpin systems that integrate multiagent planning and acting with semantic technologies and with interoperable mixed reality interfaces. This should enable the creation of highly augmented environments in private as well as commercial and industrial environments where physical and digital things coexist and interact with one another.}
} 
 @article{spatialtuples-exsys35,
    author = {Ricci, Alessandro and Viroli, Mirko and Omicini, Andrea and Mariani, Stefano and Croatti, Angelo and Pianini, Danilo},
    dblp = {journals/es/RicciVOMCP18},
    doi = {10.1111/exsy.12273},
    editor = {Camacho, David and Novais, Paulo},
    iris = {11585/646034},
    issn = {0266-4720},
    journal = {Expert Systems},
    keywords = {Artificial intelligence, coordination, pervasive computing, spatial computing, software engineering},
    month = oct,
    note = {{S}pecial Issue: New trends and innovations in intelligent distributed computing},
    number = 5,
    publisher = {Wiley},
    scholar = {15432439871249761138},
    scopus = {2-s2.0-85045836760},
    title = {Spatial Tuples: Augmenting Reality with Tuples},
    url = {http://onlinelibrary.wiley.com/doi/10.1111/exsy.12273},
    volume = 35,
    wos = {000446560700003},
    year = 2018
} 
 @article{safe-ijdst17,
    acm = {10.4018/IJDST.2017010104},
    author = {Croatti, Angelo and Ricci, Alessandro and Viroli, Mirko},
    dblp = {journals/ijdst/CroattiRV17},
    doi = {10.4018/IJDST.2017010104},
    iris = {11585/582002},
    journal = {International Journal of Distributed Systems and Technologies (IJDST)},
    number = 1,
    pages = {46--58},
    publisher = {IGI Global},
    scopus = {2-s2.0-84998910333},
    title = {Towards a Mobile Augmented Reality System for Emergency Management: The Case of {SAFE}},
    url = {http://www.igi-global.com/article/towards-a-mobile-augmented-reality-system-for-emergency-management/171982},
    volume = 8,
    wos = {000390173100004},
    year = 2017
} 
 @article{VPRC-IJAOSE2017,
	Author = {Viroli, Mirko and Pianini, Danilo and Ricci, Alessandro and Croatti, Angelo},
	Issn = {1746-1375},
	eissn = {1746-1383},
	Journal = {International Journal of Agent-Oriented Software Engineering},
	Number = 5,
	Volume = 4,
	Pages = {336--365},
	Publisher = {Inderscience Publishers},
	Title = {Aggregate plans for multiagent systems},
	Year = 2017}
 
12 articles in journal • topindexbottom