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
2022-01-01
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.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.