The Internet of Everything and Semantic Web can be joined by giving more intelligence to pervasive systems. To that end, reasoning capabilities should be enabled even for very resource-constrained embedded devices. This paper presents Tiny-ME (the Tiny Matchmaking Engine), a matchmaking and reasoning engine for the Web Ontology Language (OWL), designed and implemented with a compact and portable C core. Main features are high resource efficiency and multiplatform support, spanning containerized microservices, desktops, mobile devices, and embedded boards. The OWLlink interface has been extended to enable non-standard reasoning services for matchmaking in Web, Cloud, and Edge computing. A prototype evaluation is proposed, including a case study on the Pixhawk Unmanned Aerial Vehicle (UAV) autopilot and performance highlights.
A multiplatform reasoning engine for the Semantic Web of Everything / Ruta, Michele; Scioscia, Floriano; Bilenchi, Ivano; Gramegna, Filippo; Loseto, Giuseppe; Ieva, Saverio; Pinto, Agnese. - In: JOURNAL OF WEB SEMANTICS. - ISSN 1570-8268. - STAMPA. - 73:(2022). [10.1016/j.websem.2022.100709]
A multiplatform reasoning engine for the Semantic Web of Everything
Michele Ruta;Floriano Scioscia;Ivano Bilenchi;Filippo Gramegna;Giuseppe Loseto;Saverio Ieva;Agnese Pinto
2022
Abstract
The Internet of Everything and Semantic Web can be joined by giving more intelligence to pervasive systems. To that end, reasoning capabilities should be enabled even for very resource-constrained embedded devices. This paper presents Tiny-ME (the Tiny Matchmaking Engine), a matchmaking and reasoning engine for the Web Ontology Language (OWL), designed and implemented with a compact and portable C core. Main features are high resource efficiency and multiplatform support, spanning containerized microservices, desktops, mobile devices, and embedded boards. The OWLlink interface has been extended to enable non-standard reasoning services for matchmaking in Web, Cloud, and Edge computing. A prototype evaluation is proposed, including a case study on the Pixhawk Unmanned Aerial Vehicle (UAV) autopilot and performance highlights.| File | Dimensione | Formato | |
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