Your search keyword '"SAREF"' showing total 19 results

1. OfficeGraph: A Knowledge Graph of Office Building IoT Measurements

Author

van der Weerdt, Roderick, de Boer, Victor, Siebes, Ronald, Groenewold, Ronnie, van Harmelen, Frank, Hartmanis, Juris, Founding Editor, Goos, Gerhard, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Meroño Peñuela, Albert, editor, Dimou, Anastasia, editor, Troncy, Raphaël, editor, Hartig, Olaf, editor, Acosta, Maribel, editor, Alam, Mehwish, editor, Paulheim, Heiko, editor, and Lisena, Pasquale, editor

Published

2024

2. The SAREF Pipeline and Portal—An Ontology Verification Framework

Author

Lefrançois, Maxime, Gnabasik, David, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Payne, Terry R., editor, Presutti, Valentina, editor, Qi, Guilin, editor, Poveda-Villalón, María, editor, Stoilos, Giorgos, editor, Hollink, Laura, editor, Kaoudi, Zoi, editor, Cheng, Gong, editor, and Li, Juanzi, editor

Published

2023

3. Ontologies for IoT Semantic Interoperability

Author

Cimmino, Andrea, Fernández-Izquierdo, Alba, Poveda-Villalón, María, García-Castro, Raúl, Zivkovic, Carna, editor, Guan, Yajuan, editor, and Grimm, Christoph, editor

Published

2021

4. Supporting Smart Home Scenarios Using OWL and SWRL Rules.

Author

Reda, Roberto, Carbonaro, Antonella, de Boer, Victor, Siebes, Ronald, van der Weerdt, Roderick, Nouwt, Barry, and Daniele, Laura

Subjects

*SMART homes, *HOME automation, *SEMANTIC Web, *OWLS, *INTERNET of things, *SELF-expression

Abstract

Despite the pervasiveness of IoT domotic devices in the home automation landscape, their potential is still quite under-exploited due to the high heterogeneity and the scarce expressivity of the most commonly adopted scenario programming paradigms. The aim of this study is to show that Semantic Web technologies constitute a viable solution to tackle not only the interoperability issues, but also the overall programming complexity of modern IoT home automation scenarios. For this purpose, we developed a knowledge-based home automation system in which scenarios are the result of logical inferences over the IoT sensors data combined with formalised knowledge. In particular, we describe how the SWRL language can be employed to overcome the limitations of the well-known trigger-action paradigm. Through various experiments in three distinct scenarios, we demonstrated the feasibility of the proposed approach and its applicability in a standardised and validated context such as SAREF [ABSTRACT FROM AUTHOR]

Published

2022

5. Supporting Smart Home Scenarios Using OWL and SWRL Rules

Author

Roberto Reda, Antonella Carbonaro, Victor de Boer, Ronald Siebes, Roderick van der Weerdt, Barry Nouwt, and Laura Daniele

Subjects

IoT, home automation, smart home, SAREF, ontology, SWRL, Chemical technology, TP1-1185

Abstract

Despite the pervasiveness of IoT domotic devices in the home automation landscape, their potential is still quite under-exploited due to the high heterogeneity and the scarce expressivity of the most commonly adopted scenario programming paradigms. The aim of this study is to show that Semantic Web technologies constitute a viable solution to tackle not only the interoperability issues, but also the overall programming complexity of modern IoT home automation scenarios. For this purpose, we developed a knowledge-based home automation system in which scenarios are the result of logical inferences over the IoT sensors data combined with formalised knowledge. In particular, we describe how the SWRL language can be employed to overcome the limitations of the well-known trigger-action paradigm. Through various experiments in three distinct scenarios, we demonstrated the feasibility of the proposed approach and its applicability in a standardised and validated context such as SAREF

Published

2022

6. OWL2Go: Auto-generation of Go data models for OWL ontologies with integrated serialization and deserialization functionality

Author

Stefan Dähling, Lukas Razik, and Antonello Monti

Subjects

Ontology, OWL, Go, SAREF, Computer software, QA76.75-76.765

Abstract

The Web Ontology Language (OWL) is a formal language for the description of terms and their relationship in a certain domain. It enables information exchange among heterogeneous applications and devices in a machine-readable format. However, in software development the usage of data models is common. In order to facilitate the usage of ontologies encoded in OWL also in software development we present OWL2Go. OWL2Go is a code-generator that parses an OWL ontology and generates a Go package implementing a data model compliant with the ontology as well as a serializer and deserializer for conversion between the Go data model and Turtle or JSON-LD documents. We demonstrate the generation process and the usage of the resulting Go package with the Smart Appliances REFerence (SAREF) ontology.

Published

2020

7. SAREF4INMA: A SAREF extension for the industry and manufacturing domain.

Author

Thakker, Dhaval, Patel, Pankesh, Intizar Ali, Muhammad, Shah, Tejal, de Roode, Mike, Fernández-Izquierdo, Alba, Daniele, Laura, Poveda-Villalón, María, García-Castro, Raúl, and Ali, Muhammad Intizar

Subjects

SMART devices, MANUFACTURING industries, SEMANTICS, ONTOLOGIES (Information retrieval)

Abstract

The IoT landscape is characterized by a fragmentation of standards, platforms and technologies, often scattered among different vertical domains. To prevent the market to continue to be fragmented and power-less, a protocol-independent semantic layer can serve as enabler of interoperability among the various smart devices from different manufacturers that co-exist in a specific industry domain, but also across different domains. To that end, the SAREF ontology was created in 2015 with the intention to interconnect data, enabling the communication between IoT devices that use different protocols and standards. A number of industrial sectors consequently expressed their interest to extend SAREF into their domains in order to fill the gaps of the semantics not yet covered by their communication protocols. Therefore, the SAREF4INMA ontology was recently created to extend SAREF for describing the Smart Industry & Manufacturing domain. SAREF4INMA is based on several standards and IoT initiatives, as well as on real use cases, and includes classes, properties and instances specifically created to cover the industry and manufacturing domain. This work describes the approach followed to develop this ontology, specifies its requirements and also includes a practical example of how to use it. [ABSTRACT FROM AUTHOR]

Published

2020

8. SAREF4health: Towards IoT standard-based ontology-driven cardiac e-health systems.

Author

Moreira, João, Pires, Luís Ferreira, van Sinderen, Marten, Daniele, Laura, Girod-Genet, Marc, Borgo, Stefano, Hitzler, Pascal, and Shimizu, Cogan

Subjects

*ONTOLOGIES (Information retrieval), *TIME series analysis, *CONCEPTUAL models, *TRUCK drivers, *ELECTROCARDIOGRAPHY

Abstract

Recently, a number of ontology-driven healthcare systems have been leveraged by the Internet-of-Things (IoT) technologies that offer opportunities to improve abnormal situation detection when integrating medical wearables and cloud infrastructure. Usually, these systems rely on standardised IoT ontologies to represent sensor data observations. The ETSI Smart Applications REFerence ontology (SAREF) is an extensible industry-oriented standard. In this paper, we explain the need for interoperability of IoT healthcare applications and the role of standardised ontologies to achieve semantic interoperability. In particular, we discuss the verbosity problem of SAREF when used for real-time electrocardiography (ECG), emphasizing the requirement of representing time series. We compared the main ontologies in this context, according to quality, message size (payload), IoT-orientation and standardisation. Here we describe the first attempt to extend SAREF for specific e-Health use cases related to ECG data, the SAREF4health extension, which tackles the verbosity problem. Ontology-driven conceptual modelling was applied to develop SAREF4health, in which an ECG ontology grounded in the Unified Foundational Ontology (UFO), which plays the role of a reference model. The methodology was enhanced by following a standardisation procedure and considering the RDF implementation of the HL7 Fast Healthcare Interoperability Resources (FHIR) standard. The validation of SAREF4health includes the responses to competency questions, as well as the development and tests of an IoT Early Warning System prototype that uses ECG data and collision identification to detect accidents with truck drivers in a port area. This prototype integrates an existing ECG wearable with a cloud infrastructure, demonstrating the performance impact of SAREF4health considering IoT constraints. Our results show that SAREF4health enables the semantic interoperability of IoT solutions that need to deal with frequency-based time series. Design decisions regarding the trade-off between ontology quality and aggregation representation are also discussed. [ABSTRACT FROM AUTHOR]

Published

2020

9. The ETSI STF 653 roadmap towards the consolidation and factorization of SAREF with ontology patterns

Author

Lefrançois, Maxime, École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT), Laboratoire d'Informatique, de Modélisation et d'Optimisation des Systèmes (LIMOS), Ecole Nationale Supérieure des Mines de St Etienne (ENSM ST-ETIENNE)-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA)-Institut national polytechnique Clermont Auvergne (INP Clermont Auvergne), Université Clermont Auvergne (UCA)-Université Clermont Auvergne (UCA), Institut Henri Fayol (FAYOL-ENSMSE), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT), Département Informatique et systèmes intelligents ( FAYOL-ENSMSE), Ecole Nationale Supérieure des Mines de St Etienne (ENSM ST-ETIENNE), and ETSI

Subjects

SAREF, [INFO.INFO-WB]Computer Science [cs]/Web, IoT technologies, Ontologies, [INFO]Computer Science [cs], [INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI]

Abstract

This presentation provides an overview of the progress on Specialist Task Force 641 Task 2, and STF 653."The overall goal of STF 641 Task 2 and STF 653 is to homogenise and facilitate the use of SAREF and existing 11 SAREF domain mapping by:• SAREF revision based on harmonisation using common ontology patterns• SAREF portal automatization (tooling) for ontologies with common patterns"This presentation will be based on the description of STF 641 and 653, progress report of Milestone A of STF 653, Stable draft TR 103 781, and initial development towards the factorization of the SAREF suite of ontologies.

Published

2023

10. Semantic Interoperability between IEC 61850 and oneM2M for IoT-Enabled Smart Grids

Author

Salvatore Cavalieri

Subjects

smart grid, internet of things, IEC 61850, oneM2M, semantic interoperability, SAREF, Chemical technology, TP1-1185

Abstract

In the era of Industry 4.0, pervasive adoption of communication technologies based on the Internet of Things represents a very strong requirement in several domains. In the smart grid domain, there is the need to overcome one of the main limitations of the current electric grid, allowing the use of heterogeneous devices capable of measuring, monitoring and exchanging information about grid components. For this reason, current literature often presents research activities about enabling internet of things (IoT) in smart grids; in particular, several proposals aim to realize interworking between IoT and smart grid communication standards, allowing exchange of information between IoT devices and the electrical grid components. Semantic interoperability should be achieved in an interworking solution in order to provide a common meaning of the data exchanged by heterogeneous devices, even if they belong to different domains. Until now, semantic interoperability remains an open challenge in the smart grid field. The paper aims to propose a novel solution of interworking between two of the most used communication systems in smart grids and IoT domains, i.e., IEC 61850 and oneM2M, respectively. A semantic interoperability solution is also proposed to be used in the interworking scheme here presented.

Published

2021

11. Making heterogeneous smart home data interoperable with the SAREF ontology

Author

Roderick Van Der Weerdt, Victor De Boer, Laura Daniele, Barry Nouwt, Ronald Siebes, Business Web and Media, Network Institute, and Intelligent Information Systems

Subjects

IoT, SAREF, data mapping, smart home, ontology, SDG 7 - Affordable and Clean Energy, Library and Information Sciences, Computer Science Applications, Information Systems

Abstract

SAREF is an ontology created to enable interoperability between smart devices, but there is a lack in the literature of practical examples to implement SAREF in real applications. We validate the practical implementation of SAREF through two approaches. We first examine two methods to map the IoT data available in a smart home into linked data using SAREF: (1) by creating a template-based mapping to describe how SAREF can be used and (2) by using a mapping language to demonstrate it can be simple to map, while still using SAREF. The second approach demonstrates the communication capabilities of IoT devices when they share knowledge represented using SAREF and describes how SAREF enables interoperability between different devices. The two approaches demonstrate that all the information from various data sets of smart devices can successfully be transformed into the SAREF ontology and how SAREF can be applied in a concrete interoperability framework.

Published

2022

12. An ontology-based innovative energy modeling framework for scalable and adaptable building digital twins.

Author

Bjørnskov, Jakob and Jradi, Muhyiddine

Subjects

*DIGITAL twins, *SPACE heaters, *BUILDING information modeling, *ONTOLOGIES (Information retrieval), *BUILDING additions, *BUILDING operation management, *DIGITAL asset management

Abstract

Digitalization of buildings and the use of IoT sensing and metering devices are steadily increasing, offering new opportunities for more autonomous, efficient, and flexible buildings. As part of this transformation and inspired by the added value demonstrated in other domains, the concept of a building digital twin that can monitor, simulate, manage, and optimize building operation has received increased interest. To aid such digital twin implementations, accurate and adaptable simulation models are required, which can effectively integrate and utilize the available data. However, traditional building modeling and digital practices, such as Building Information Modeling and white-box modeling tools, are not easily compatible with these requirements. This work presents an innovative and flexible energy modeling framework based on the SAREF ontology. With a basis in the SAREF4BLDG extension for buildings and the defined classes, different models are presented for a selection of typical systems and devices such as spaces, space heaters, dampers, coils, etc. Using the generic semantics and relations of the SAREF4SYST extension, a method for linking and simulating component models is then presented. A proof-of-concept of the modeling framework is provided, showing its application and feasibility to provide a dynamic simulation of the different systems and devices included in a demonstration case. Finally, a future line of work is identified considering the implementation of the modeling framework in an actual building case study, including integration with actual sensing equipment to demonstrate different digital twin services such as performance monitoring, strategy planning, and operational optimization. • An innovative energy modeling framework for building digital twins is presented. • The framework is built directly upon the SAREF ontology to improve interoperability. • Dynamic component models are identified for a selection SAREF4BLDG classes. • Algorithms are presented to link models and enable system simulation. • A proof-of-concept is provided through implementation on a demonstration case. [ABSTRACT FROM AUTHOR]

Published

2023

13. Making heterogeneous smart home data interoperable with the SAREF ontology

Author

Van Der Weerdt, Roderick, De Boer, Victor, Daniele, Laura, Nouwt, Barry, Siebes, Ronald, Van Der Weerdt, Roderick, De Boer, Victor, Daniele, Laura, Nouwt, Barry, and Siebes, Ronald

Abstract

SAREF is an ontology created to enable interoperability between smart devices, but there is a lack in the literature of practical examples to implement SAREF in real applications. We validate the practical implementation of SAREF through two approaches. We first examine two methods to map the IoT data available in a smart home into linked data using SAREF: (1) by creating a template-based mapping to describe how SAREF can be used and (2) by using a mapping language to demonstrate it can be simple to map, while still using SAREF. The second approach demonstrates the communication capabilities of IoT devices when they share knowledge represented using SAREF and describes how SAREF enables interoperability between different devices. The two approaches demonstrate that all the information from various data sets of smart devices can successfully be transformed into the SAREF ontology and how SAREF can be applied in a concrete interoperability framework.

Published

2022

14. Apports des méthodologies et techniques de développement logiciel pour l'ingénierie des ontologies: Retour d'expérience des contributions au développement de l'ontologie ETSI SAREF

Author

Lefrançois, Maxime, García-Castro, Raúl, Poveda-Villalón, María, Qawasmeh, Omar, Laboratoire d'Informatique, de Modélisation et d'Optimisation des Systèmes (LIMOS), Ecole Nationale Supérieure des Mines de St Etienne-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA)-Institut national polytechnique Clermont Auvergne (INP Clermont Auvergne), Université Clermont Auvergne (UCA)-Université Clermont Auvergne (UCA), École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT), Open Engineering Group, Universidad Politécnica de Madrid, Hybrid Intelligence, Ecole Nationale Supérieure des Mines de St Etienne (ENSM ST-ETIENNE)-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA)-Institut national polytechnique Clermont Auvergne (INP Clermont Auvergne), Institut Henri Fayol (FAYOL-ENSMSE), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT), Département Informatique et systèmes intelligents ( FAYOL-ENSMSE), Ecole Nationale Supérieure des Mines de St Etienne (ENSM ST-ETIENNE), Ontology Engineering Group [Madrid] (OEG), Facultad de Informática [Madrid] (UPM), Universidad Politécnica de Madrid (UPM)-Universidad Politécnica de Madrid (UPM), Capgemini Engineering, Altran Research, entreprise-entreprise, and Benvenuti Rizzuti, Snezhana

Subjects

[INFO.INFO-AI] Computer Science [cs]/Artificial Intelligence [cs.AI], ACM: I.: Computing Methodologies/I.2: ARTIFICIAL INTELLIGENCE, DevOps, Agile, SAREF, SAREF Software Engineering, Software Engineering, Ontology Engineering, Ingénierie des Ontologies, Ingénierie logicielle, [INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI]

Abstract

Software engineering has always had a strong influence in ontology engineering. This article aims to identify these influences for some of the major themes of modern software engineering : 1. Requirements engineering ; 2. Software development life cycle models ; 3. Modularization ; 4. Patterns; 5. Development environments ; 6. Version naming ; 7. Version control and editing workflow; 8. Automation ; 9. Continuous Integration and Deployment. For each theme we identify work in the field of ontology engineering that relates to it, and provide lessons learned from our work on the specification of the ETSI Smart Applications REFerence ontology (SAREF) development framework and workflow, and development of the Community SAREF Portal for user engagement, L'ingénierie logicielle a toujours eu une grande influence dans l'ingénierie des ontologies. Cet article a pour objectif d'identifier ces influences pour certains des grands thèmes de l'ingénierie logicielle moderne : 1. Ingénierie des besoins ; 2. Modèles de cycle de vie du développement logiciel ; 3. Modularisation ; 4. Patrons ; 5. Environnements de développement ; 6. Nommage des versions ; 7. Contrôle des versions et workflow d'édition ; 8. Automatisation ; 9. Intégration et déploiement continu. Pour chaque thème nous identifions des travaux du domaine de l'ingénierie des ontologies qui s'y rapportent, et apportons un retour d'expérience de notre travail de spécification du cadre de développement et du flux de travail de l'ontologie ETSI Smart Applications REFerence (SAREF), et développement du portail communautaire SAREF.

Published

2022

15. SAREF4health: Towards IoT standard-based ontology-driven cardiac e-health systems

Author

Marten van Sinderen, João Luiz Rebelo Moreira, Laura Daniele, Luis Ferreira Pires, Marc Girod-Genet, and Services, Cybersecurity & Safety

Subjects

Linguistics and Language, 020205 medical informatics, General Computer Science, Computer science, Internet of Things, Interoperability, Cloud computing, Context (language use), 02 engineering and technology, Ontology (information science), Language and Linguistics, Ontology-driven healthcare, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Use case, RDF, Reference model, SAREF, ECG, business.industry, ontology-driven conceptual modelling, computer.file_format, Semantic interoperability, Software engineering, business, computer

Abstract

Recently, a number of ontology-driven healthcare systems have been leveraged by the Internet-of-Things (IoT) technologies that offer opportunities to improve abnormal situation detection when integrating medical wearables and cloud infrastructure. Usually, these systems rely on standardised IoT ontologies to represent sensor data observations. The ETSI Smart Applications REFerence ontology (SAREF) is an extensible industry-oriented standard. In this paper, we explain the need for interoperability of IoT healthcare applications and the role of standardised ontologies to achieve semantic interoperability. In particular, we discuss the verbosity problem of SAREF when used for real-time electrocardiography (ECG), emphasizing the requirement of representing time series. We compared the main ontologies in this context, according to quality, message size (payload), IoT-orientation and standardisation. Here we describe the first attempt to extend SAREF for specific e-Health use cases related to ECG data, the SAREF4health extension, which tackles the verbosity problem. Ontology-driven conceptual modelling was applied to develop SAREF4health, in which an ECG ontology grounded in the Unified Foundational Ontology (UFO), which plays the role of a reference model. The methodology was enhanced by following a standardisation procedure and considering the RDF implementation of the HL7 Fast Healthcare Interoperability Resources (FHIR) standard. The validation of SAREF4health includes the responses to competency questions, as well as the development and tests of an IoT Early Warning System prototype that uses ECG data and collision identification to detect accidents with truck drivers in a port area. This prototype integrates an existing ECG wearable with a cloud infrastructure, demonstrating the performance impact of SAREF4health considering IoT constraints. Our results show that SAREF4health enables the semantic interoperability of IoT solutions that need to deal with frequency-based time series. Design decisions regarding the trade-off between ontology quality and aggregation representation are also discussed.

Published

2020

16. Investigating Potential Alignments between Modelica Standard Library and SAREF Ontologies

Author

Ana Roxin, Vishak Dudhee, Vladimir Vukovic, Roxin, Ana, Laboratoire d'Informatique de Bourgogne [Dijon] (LIB), Université de Bourgogne (UB), and Teesside University

Subjects

SAREF, [INFO.INFO-LO] Computer Science [cs]/Logic in Computer Science [cs.LO], [INFO.INFO-CL] Computer Science [cs]/Computation and Language [cs.CL], Modelica Standard Library, Ontologies, [INFO.INFO-LO]Computer Science [cs]/Logic in Computer Science [cs.LO], Building Energy Systems, [INFO.INFO-MO] Computer Science [cs]/Modeling and Simulation, [INFO.INFO-MO]Computer Science [cs]/Modeling and Simulation, SAREF4BLDG, [INFO.INFO-CL]Computer Science [cs]/Computation and Language [cs.CL]

Abstract

International audience; Simulation tools based on the Modelica language provide comprehensive modelling and simulation approaches for building energy systems. However, the simulation and optimisation of such systems are data-driven processes, lacking a common understanding of information structure within the process. This paper investigates the possible semantic alignments of the Smart Appliances REFerence (SAREF) ontology and its extension for building domain, SAREF4BLDG, with the Modelica Standard Library (MSL). Using the MSL, a residential heating system has been modelled in OpenModelica, an open-source modelling and simulation environment. Then, SAREF and its extension SAREF4BLDG semantic alignments to the MSL used to create the model have been assessed. A list of alignments has been proposed to expose semantic links for the residential Heating, Ventilation, and Air Conditioning (HVAC) system. Such alignments would allow for the semantic annotation of building energy system models and greater interoperability between modelling environments.

Published

2021

17. SmartM2M; Extension to SAREF; Part 8: eHealth/Ageing-well Domain

Author

Girod-Genet, Marc, Nachabe Ismail, Lina, Lefrançois, Maxime, Moreira, João, Dragoni, Mauro, Institut Polytechnique de Paris (IP Paris), Réseaux, Systèmes, Services, Sécurité (R3S-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Département Réseaux et Services Multimédia Mobiles (RS2M), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Sorbonne Université (SU), École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT), University of Twente [Netherlands], Fondazione Bruno Kessler [Trento, Italy] (FBK), ETSI SmartM2M, and ETSI STF566

Subjects

Monitoring and support, SAREF, Ontology, [INFO.INFO-IT]Computer Science [cs]/Information Theory [cs.IT], Early warning system, eHealth, Healthy lifestyles, Ageing-well, Semantics

Abstract

The present document presents SAREF4EHAW, an extension of SAREF for the eHealth/Ageing-well Domain.

Published

2020

18. Rule-based model for smart building supervision and management

Author

Yacine Ghamri, Adrien Becue, Shohreh Ahvar, Nouredine Tamani, Paul-Emmanuel Brun, Gabriel Santos, Isabel Praça, Bernard Istasse, Noel Crespi, Université de La Rochelle (ULR), Département Réseaux et Services Multimédia Mobiles (RS2M), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Centre National de la Recherche Scientifique (CNRS), GECAD [Knowledge Engineering and Decision Support Research Group], Department of Electrical Engineering [Polytechnic Institute of Porto] (ISEP/IPP), Polytechnic Institute of Porto-Polytechnic Institute of Porto, EISIS/Arc Informatique (.), Airbus Defence & Space [France] (Airbus group), Réseaux, Systèmes, Services, Sécurité (R3S-SAMOVAR), and Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)

Subjects

Computer science, 020209 energy, Access control, 02 engineering and technology, Domain (software engineering), [INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI], 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Existential rules, Logical data model, BMS, Building automation, Building management system, SSN, SAREF, Knowledge bases, business.industry, Ontology, Internet of Things (IoT), Logical framework, Data model, FUST-IT, 020201 artificial intelligence & image processing, Software engineering, business, Building management

Abstract

International audience; Smart buildings are aimed at monitoring and controlling building facilities through a Building Management System (BMS). While current BMSs are based on processing logs of devices deployed in the building, this paper enables supervision and control of building by the use of semantic technologies. A common information base, as a core data model, is defined, which describes and defines formally the main physical and conceptual building elements (namely: assets, spaces, data points, incidents and key performance indicators), their characteristics and interrelationships, as well as the constraints that apply to them. For instantiation purposes, we relied on a logical framework based on the existential rules, which allows to describe any domain as a set of facts, a set of rules and a set of constraints. We have implemented a fragment of our logical model as a proof of concept, where two real-world scenarios are implemented as demonstrators of the FUSE-IT project. The former is about access control to a data center, and the latter is about temperature anomaly correlated with the heater functioning in a given zone of a building. The aim of these experiments is to illustrate the functional capabilities of our approach for smart control in building management

Published

2018

19. Semantic Interoperability between IEC 61850 and oneM2M for IoT-Enabled Smart Grids.

Author

Cavalieri, Salvatore and Corchado, Juan M.

Subjects

*SMART power grids, *TELECOMMUNICATION, *ELECTRIC power distribution grids, *ELECTRIC currents, *INTERNET of things, *INDUSTRY 4.0

Abstract

In the era of Industry 4.0, pervasive adoption of communication technologies based on the Internet of Things represents a very strong requirement in several domains. In the smart grid domain, there is the need to overcome one of the main limitations of the current electric grid, allowing the use of heterogeneous devices capable of measuring, monitoring and exchanging information about grid components. For this reason, current literature often presents research activities about enabling internet of things (IoT) in smart grids; in particular, several proposals aim to realize interworking between IoT and smart grid communication standards, allowing exchange of information between IoT devices and the electrical grid components. Semantic interoperability should be achieved in an interworking solution in order to provide a common meaning of the data exchanged by heterogeneous devices, even if they belong to different domains. Until now, semantic interoperability remains an open challenge in the smart grid field. The paper aims to propose a novel solution of interworking between two of the most used communication systems in smart grids and IoT domains, i.e., IEC 61850 and oneM2M, respectively. A semantic interoperability solution is also proposed to be used in the interworking scheme here presented. [ABSTRACT FROM AUTHOR]

Published

2021