@@ -36,7 +36,7 @@ SAREF4EHAW extension has been specified and formalised by investigating EHAW dom
...
@@ -36,7 +36,7 @@ SAREF4EHAW extension has been specified and formalised by investigating EHAW dom
- Use case 3 “Early Warning System (EWS) and Cardiovascular Accidents detection”.
- Use case 3 “Early Warning System (EWS) and Cardiovascular Accidents detection”.
- Fulfil the eHealth Ageing Well related requirements provided in ETSI TR 103 509, mainly the ontological ones that were mostly taken as input for the ontology specification.
- Fulfil the eHealth Ageing Well related requirements provided in ETSI TR 103 509, mainly the ontological ones that were mostly taken as input for the ontology specification.
SAREF4EHAW mainly reuses the following existing ontologies: SAREF, ETSI SmartBAN reference model, SAREF 4 Environment extension, SAREF 4 Wearables extension, SAREF4health ontology which is a very first try to somehow extend SAREF ontology for the health vertical (it has nothing to do with ETSI SAREF4XYZ naming convention). The following figure presents the high level view of SAREF4EHAW ontology.
SAREF4EHAW mainly reuses the following existing ontologies: SAREF, ETSI SmartBAN reference model, SAREF 4 Environment extension and W3C SSN System module. The following figure presents the high level view of SAREF4EHAW ontology.
For semantic interoperability handling purposes, an ontology based solution, combined with sensing-as-a-service and WoT strategies, is retained for SAREF4EHAW. Therefore, an upper level ontology, at service level, shall also behas been fully modelled (Service class and sub-classes depicted in the previous figure).
For semantic interoperability handling purposes, an ontology based solution, combined with sensing-as-a-service and WoT strategies, is retained for SAREF4EHAW. Therefore, an upper level ontology, at service level, shall also behas been fully modelled (Service class and sub-classes depicted in the previous figure).
For embedded semantic analytics purposes, SAREF4EHAW shall behas been designed using the modularity principle (see ETSI TR 103 509) and can thus be mainly described by the following self-contained knowledge sub-ontologies (or modules): HealthActor, Ban, HealthDevice, Function (measured data related concepts included) and Service."""^^<http://www.iana.org/assignments/media-types/text/markdown>.
For embedded semantic analytics purposes, SAREF4EHAW shall behas been designed using the modularity principle (see ETSI TR 103 509) and can thus be mainly described by the following self-contained knowledge sub-ontologies (or modules): HealthActor, Ban, HealthDevice, Function (measured data related concepts included) and Service."""^^<http://www.iana.org/assignments/media-types/text/markdown>.
