Publications tagged with "Computing paradigm"

1. A Petri net oriented approach for advanced building energy management systems

   Marrone, S., Campanile, L., De Fazio, R., Di Giovanni, M., Gentile, U., Marulli, F., & Verde, L. (2023). A Petri net oriented approach for advanced building energy management systems [Article]. Journal of Ambient Intelligence and Smart Environments, 15(3), 211–233. https://doi.org/10.3233/AIS-230065

   Abstract

   Sustainability is one of the main goals to pursue in several aspects of everyday life; the recent energy shortage and the price raise worsen this problem, especially in the management of energy in buildings. As the Internet of Things (IoT) is an assessed computing paradigm able to capture meaningful data from the field and send them to cloud infrastructures, other approaches are also enabled, namely model-based approaches. These methods can be used to predict functional and non-functional properties of Building Energy Management Systems (BEMS) before setting up them. This paper aims at bridging the gap between model-based approaches and physical realizations of sensing and small computing devices. Through an integrated approach, able to exploit the power of different dialects of Petri Nets, this paper proposes a methodology for the early evaluation of BEMS properties as well as the automatic generation of IoT controllers. © 2023 - IOS Press. All rights reserved.

   DOI Publisher Details Copy BibTeX Download .bib

   {"key"=>"Marrone2023211", "type"=>"Article", "bibtex"=>"@article{Marrone2023211,\n  author = {Marrone, Stefano and Campanile, Lelio and De Fazio, Roberta and Di Giovanni, Michele and Gentile, Ugo and Marulli, Fiammetta and Verde, Laura},\n  title = {A Petri net oriented approach for advanced building energy management systems},\n  year = {2023},\n  journal = {Journal of Ambient Intelligence and Smart Environments},\n  volume = {15},\n  number = {3},\n  pages = {211 – 233},\n  doi = {10.3233/AIS-230065}\n}\n", "author"=>"Marrone, Stefano and Campanile, Lelio and De Fazio, Roberta and Di Giovanni, Michele and Gentile, Ugo and Marulli, Fiammetta and Verde, Laura", "author_array"=>[{"first"=>"Stefano", "last"=>"Marrone", "prefix"=>"", "suffix"=>""}, {"first"=>"Lelio", "last"=>"Campanile", "prefix"=>"", "suffix"=>""}, {"first"=>"Roberta", "last"=>"De Fazio", "prefix"=>"", "suffix"=>""}, {"first"=>"Michele", "last"=>"Di Giovanni", "prefix"=>"", "suffix"=>""}, {"first"=>"Ugo", "last"=>"Gentile", "prefix"=>"", "suffix"=>""}, {"first"=>"Fiammetta", "last"=>"Marulli", "prefix"=>"", "suffix"=>""}, {"first"=>"Laura", "last"=>"Verde", "prefix"=>"", "suffix"=>""}], "author_0_first"=>"Stefano", "author_0_last"=>"Marrone", "author_0_prefix"=>"", "author_0_suffix"=>"", "author_1_first"=>"Lelio", "author_1_last"=>"Campanile", "author_1_prefix"=>"", "author_1_suffix"=>"", "author_2_first"=>"Roberta", "author_2_last"=>"De Fazio", "author_2_prefix"=>"", "author_2_suffix"=>"", "author_3_first"=>"Michele", "author_3_last"=>"Di Giovanni", "author_3_prefix"=>"", "author_3_suffix"=>"", "author_4_first"=>"Ugo", "author_4_last"=>"Gentile", "author_4_prefix"=>"", "author_4_suffix"=>"", "author_5_first"=>"Fiammetta", "author_5_last"=>"Marulli", "author_5_prefix"=>"", "author_5_suffix"=>"", "author_6_first"=>"Laura", "author_6_last"=>"Verde", "author_6_prefix"=>"", "author_6_suffix"=>"", "title"=>"A Petri net oriented approach for advanced building energy management systems", "year"=>"2023", "journal"=>"Journal of Ambient Intelligence and Smart Environments", "volume"=>"15", "number"=>"3", "pages"=>"211 – 233", "doi"=>"10.3233/AIS-230065", "url"=>"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85171756787&doi=10.3233%2fAIS-230065&partnerID=40&md5=c9ba851e3f244f007a1c6d3a5c2e449a", "abstract"=>"Sustainability is one of the main goals to pursue in several aspects of everyday life; the recent energy shortage and the price raise worsen this problem, especially in the management of energy in buildings. As the Internet of Things (IoT) is an assessed computing paradigm able to capture meaningful data from the field and send them to cloud infrastructures, other approaches are also enabled, namely model-based approaches. These methods can be used to predict functional and non-functional properties of Building Energy Management Systems (BEMS) before setting up them. This paper aims at bridging the gap between model-based approaches and physical realizations of sensing and small computing devices. Through an integrated approach, able to exploit the power of different dialects of Petri Nets, this paper proposes a methodology for the early evaluation of BEMS properties as well as the automatic generation of IoT controllers.  © 2023 - IOS Press. All rights reserved.", "author_keywords"=>"building energy management system; fluid stochastic Petri nets; Input-output Petri nets; model driven engineering; quantitative evaluation", "keywords"=>"Buildings; Energy management; Energy management systems; Internet of things; Petroleum reservoir evaluation; Stochastic models; Stochastic systems; Building energy management systems; Computing paradigm; Energy in buildings; Energy shortages; Fluid Stochastic Petri Nets; Input-output; Input-output petri net; Model based approach; Model-driven Engineering; Quantitative evaluation; Petri nets", "publication_stage"=>"Final", "source"=>"Scopus", "note"=>"Cited by: 1; All Open Access, Bronze Open Access"}
       

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2. Performance evaluation of a fog WSN infrastructure for emergency management

   Campanile, L., Gribaudo, M., Iacono, M., & Mastroianni, M. (2020). Performance evaluation of a fog WSN infrastructure for emergency management [Article]. Simulation Modelling Practice and Theory, 104. https://doi.org/10.1016/j.simpat.2020.102120

   Abstract

   Advances in technology and the rise of new computing paradigms, such as Fog computing, may boost the definition of a new generation of advanced support services in critical applications. In this paper we explore the possibilities of a Wireless Sensor Network support (WSN) for a Fog computing system in an emergency management architecture that has been previously presented. Disposable intelligent wireless sensors, capable of processing tasks locally, are deployed and used to support and protect the intervention of a squad of firemen equipped with augmented reality and life monitoring devices to provide an environmental monitoring system and communication infrastructure,in the framework of a next-generation, cloud-supported emergency management system. Simulation is used to explore the design parameter space and dimension the workloads and the extension of the WSN, according to an adaptive behavior of the resulting Fog computing system that varies workloads to save the integrity of the WSN. © 2020 Elsevier B.V.

   DOI Publisher Details Copy BibTeX Download .bib

   {"key"=>"Campanile2020", "type"=>"Article", "bibtex"=>"@article{Campanile2020,\n  author = {Campanile, Lelio and Gribaudo, Marco and Iacono, Mauro and Mastroianni, Michele},\n  title = {Performance evaluation of a fog WSN infrastructure for emergency management},\n  year = {2020},\n  journal = {Simulation Modelling Practice and Theory},\n  volume = {104},\n  doi = {10.1016/j.simpat.2020.102120}\n}\n", "author"=>"Campanile, Lelio and Gribaudo, Marco and Iacono, Mauro and Mastroianni, Michele", "author_array"=>[{"first"=>"Lelio", "last"=>"Campanile", "prefix"=>"", "suffix"=>""}, {"first"=>"Marco", "last"=>"Gribaudo", "prefix"=>"", "suffix"=>""}, {"first"=>"Mauro", "last"=>"Iacono", "prefix"=>"", "suffix"=>""}, {"first"=>"Michele", "last"=>"Mastroianni", "prefix"=>"", "suffix"=>""}], "author_0_first"=>"Lelio", "author_0_last"=>"Campanile", "author_0_prefix"=>"", "author_0_suffix"=>"", "author_1_first"=>"Marco", "author_1_last"=>"Gribaudo", "author_1_prefix"=>"", "author_1_suffix"=>"", "author_2_first"=>"Mauro", "author_2_last"=>"Iacono", "author_2_prefix"=>"", "author_2_suffix"=>"", "author_3_first"=>"Michele", "author_3_last"=>"Mastroianni", "author_3_prefix"=>"", "author_3_suffix"=>"", "title"=>"Performance evaluation of a fog WSN infrastructure for emergency management", "year"=>"2020", "journal"=>"Simulation Modelling Practice and Theory", "volume"=>"104", "doi"=>"10.1016/j.simpat.2020.102120", "url"=>"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85086081117&doi=10.1016%2fj.simpat.2020.102120&partnerID=40&md5=5b6295e3277498cb527187d1b2a73f87", "abstract"=>"Advances in technology and the rise of new computing paradigms, such as Fog computing, may boost the definition of a new generation of advanced support services in critical applications. In this paper we explore the possibilities of a Wireless Sensor Network support (WSN) for a Fog computing system in an emergency management architecture that has been previously presented. Disposable intelligent wireless sensors, capable of processing tasks locally, are deployed and used to support and protect the intervention of a squad of firemen equipped with augmented reality and life monitoring devices to provide an environmental monitoring system and communication infrastructure,in the framework of a next-generation, cloud-supported emergency management system. Simulation is used to explore the design parameter space and dimension the workloads and the extension of the WSN, according to an adaptive behavior of the resulting Fog computing system that varies workloads to save the integrity of the WSN. © 2020 Elsevier B.V.", "author_keywords"=>"Edge computing; Emergency management; Fog computing; Internet of things; ns-3; Performance evaluation; Simulation; Wireless sensor networks", "keywords"=>"Augmented reality; Civil defense; Disasters; Environmental management; Fog; Risk management; Wireless sensor networks; Adaptive behavior; Communication infrastructure; Computing paradigm; Critical applications; Design parameters; Emergency management; Emergency management systems; Environmental monitoring system; Fog computing", "publication_stage"=>"Final", "source"=>"Scopus", "note"=>"Cited by: 11"}
       

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