Semantic network management for next‐generation networks

To accommodate the proliferation of heterogeneous network models and protocols, the use of semantic technologies to enable an treatment of networks is proposed. Network adapters are employed to lift network specific data into a semantic representation. Semantic reasoning integrates the disparate net...

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Veröffentlicht in:	Computational intelligence 2019-05, Vol.35 (2), p.285-309
Hauptverfasser:	Matheus, Christopher J., Boran, Aidan, Carr, Dominic, Collier, Rem W., Kroon, Barnard, Murdoch, Olga, Lillis, David, O'Grady, Michael J., O'Hare, Gregory M. P.
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Sprache:	eng
Schlagworte:	Adapters Configuration management home area networks Knowledge representation Middleware Monitoring Network adapters network monitoring Protocol (computers) semantic computing Semantics sensing web Sensors
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container_title	Computational intelligence
container_volume	35
creator	Matheus, Christopher J. Boran, Aidan Carr, Dominic Collier, Rem W. Kroon, Barnard Murdoch, Olga Lillis, David O'Grady, Michael J. O'Hare, Gregory M. P.
description	To accommodate the proliferation of heterogeneous network models and protocols, the use of semantic technologies to enable an treatment of networks is proposed. Network adapters are employed to lift network specific data into a semantic representation. Semantic reasoning integrates the disparate network models and protocols into a common data model by making intelligent inferences from low‐level network and device details. Automatic discovery of new devices, monitoring of device state, and invocation of device actions in a generic fashion that is agnostic of network types is enabled. A prototype system called SNoMAC is described that employs the proposed approach operating over UPnP, TR‐069, and heterogeneous sensors. These sensors are integrated by means of a sensor middleware named SIXTH that augments the capabilities of SNoMAC to allow for intelligent management and configuration of a wide variety of sensor devices. A major benefit of this approach is that the addition of new models, protocols, or sensor types merely involves the development of a new network adapter based on an ontology. Additionally, the semantic representation of the network and associated data allows for a variety of client interfaces to facilitate human input to the management and monitoring of the system.
doi_str_mv	10.1111/coin.12180
format	Article
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source	Wiley Online Library Journals Frontfile Complete; Business Source Complete
subjects	Adapters Configuration management home area networks Knowledge representation Middleware Monitoring Network adapters network monitoring Protocol (computers) semantic computing Semantics sensing web Sensors
title	Semantic network management for next‐generation networks
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