Biomedical Engineering Reference
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Fig. 3.
The compo
onents of the PHIS-server and its external connections
Fig. 4.
e
e-Health tools accessing the PHIS-ontology
integrated the ontologies o
Remote manager, and PHR
presented in Figure 4.
Figure 5 illustrates the
ontology is developed by i
and RM-ontology (Remote
OWL´s classes, rectangles
ellipses represent OWL's o
four ontologies.
In order to illustrate sha
C
class
Informal_entity
. Fu
ject property
A-E
is
deals
, d
url
. In such as setting we c
that John Smith suffers from
stored in a specific
url
.
of the Blog manager, Information therapy (Ix) manag
R manager. Such an internal architecture of the PHIS
ger,
S is
idea of the knowledge base and the case where PH
integrating the Blog-ontology, Ix-ontology, PHR-ontolo
e Monitoring ontology). In the figure ellipses repres
represent OWL's data properties and the lines betw
object properties. Accordingly class A is shared by all
HIS-
ogy
sent
ween
the
ared classes, A could be class
Disease
,
B
class
Patient
,
urther assume that object property A-B is
suffer_from
,
data property
b1
is
patient_name
, and data property
e1
could specify by RDF (Resource Description Framewo
m diabetes and the educational material dealing diabete
and
ob-
is a
ork)
es is
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