@prefix fhir: .
@prefix owl: .
@prefix rdfs: .
@prefix xsd: .
# - resource -------------------------------------------------------------------
a fhir:CodeSystem ;
fhir:nodeRole fhir:treeRoot ;
fhir:id [ fhir:v "v3-EntityDeterminer"] ; #
fhir:language [ fhir:v "en"] ; #
fhir:text [
fhir:status [ fhir:v "extensions" ] ;
fhir:div "Placeholder
"
] ; #
fhir:url [ fhir:v "http://terminology.hl7.org/CodeSystem/v3-EntityDeterminer"^^xsd:anyURI] ; #
fhir:identifier ( [
fhir:system [ fhir:v "urn:ietf:rfc:3986"^^xsd:anyURI ] ;
fhir:value [ fhir:v "urn:oid:2.16.840.1.113883.5.30" ]
] ) ; #
fhir:version [ fhir:v "2.1.0"] ; #
fhir:name [ fhir:v "EntityDeterminer"] ; #
fhir:title [ fhir:v "EntityDeterminer"] ; #
fhir:status [ fhir:v "active"] ; #
fhir:experimental [ fhir:v "false"^^xsd:boolean] ; #
fhir:date [ fhir:v "2019-03-20"^^xsd:date] ; #
fhir:publisher [ fhir:v "Health Level 7"] ; #
fhir:contact ( [
fhir:name [ fhir:v "Health Level Seven" ]
] ) ; #
fhir:description [ fhir:v "EntityDeterminer in natural language grammar is the class of words that comprises articles, demonstrative pronouns, and quantifiers. In the RIM, determiner is a structural code in the Entity class to distinguish whether any given Entity object stands for some, any one, or a specific thing."] ; #
fhir:caseSensitive [ fhir:v "true"^^xsd:boolean] ; #
fhir:hierarchyMeaning [ fhir:v "is-a"] ; #
fhir:content [ fhir:v "complete"] ; #
fhir:property ( [
fhir:extension ( [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-symmetry"^^xsd:anyURI ] ;
fhir:value [ fhir:v "antisymmetric" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-transitivity"^^xsd:anyURI ] ;
fhir:value [ fhir:v "transitive" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-reflexivity"^^xsd:anyURI ] ;
fhir:value [ fhir:v "irreflexive" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-isNavigable"^^xsd:anyURI ] ;
fhir:value [ fhir:v "true"^^xsd:boolean ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-relationshipKind"^^xsd:anyURI ] ;
fhir:value [ fhir:v "Specializes" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-inverseName"^^xsd:anyURI ] ;
fhir:value [ fhir:v "Generalizes" ]
] ) ;
fhir:code [ fhir:v "Specializes" ] ;
fhir:description [ fhir:v "The child code is a more narrow version of the concept represented by the parent code. I.e. Every child concept is also a valid parent concept. Used to allow determination of subsumption. Must be transitive, irreflexive, antisymmetric." ] ;
fhir:type [ fhir:v "Coding" ]
] [
fhir:extension ( [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-symmetry"^^xsd:anyURI ] ;
fhir:value [ fhir:v "antisymmetric" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-transitivity"^^xsd:anyURI ] ;
fhir:value [ fhir:v "transitive" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-reflexivity"^^xsd:anyURI ] ;
fhir:value [ fhir:v "irreflexive" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-isNavigable"^^xsd:anyURI ] ;
fhir:value [ fhir:v "true"^^xsd:boolean ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-relationshipKind"^^xsd:anyURI ] ;
fhir:value [ fhir:v "Generalizes" ]
] [
fhir:url [ fhir:v "http://terminology.hl7.org/StructureDefinition/ext-mif-relationship-inverseName"^^xsd:anyURI ] ;
fhir:value [ fhir:v "Specializes" ]
] ) ;
fhir:code [ fhir:v "Generalizes" ] ;
fhir:description [ fhir:v "Inverse of Specializes. Only included as a derived relationship." ] ;
fhir:type [ fhir:v "Coding" ]
] [
fhir:code [ fhir:v "internalId" ] ;
fhir:uri [ fhir:v "http://terminology.hl7.org/CodeSystem/utg-concept-properties#v3-internal-id"^^xsd:anyURI ] ;
fhir:description [ fhir:v "The internal identifier for the concept in the HL7 Access database repository." ] ;
fhir:type [ fhir:v "code" ]
] [
fhir:code [ fhir:v "status" ] ;
fhir:uri [ fhir:v "http://hl7.org/fhir/concept-properties#status"^^xsd:anyURI ] ;
fhir:description [ fhir:v "A property that indicates the status of the concept. One of active, experimental, deprecated, or retired." ] ;
fhir:type [ fhir:v "code" ]
] [
fhir:code [ fhir:v "deprecationDate" ] ;
fhir:uri [ fhir:v "http://hl7.org/fhir/concept-properties#deprecationDate"^^xsd:anyURI ] ;
fhir:description [ fhir:v "The date at which a concept was deprecated. Concepts that are deprecated but not inactive can still be used, but their use is discouraged." ] ;
fhir:type [ fhir:v "dateTime" ]
] [
fhir:code [ fhir:v "Name:Class" ] ;
fhir:uri [ fhir:v "http://terminology.hl7.org/CodeSystem/utg-concept-properties#rim-Class"^^xsd:anyURI ] ;
fhir:description [ fhir:v "The formal name for the class clone under this code" ] ;
fhir:type [ fhir:v "code" ]
] ) ; #
fhir:concept ( [
fhir:code [ fhir:v "INSTANCE" ] ;
fhir:display [ fhir:v "specific" ] ;
fhir:definition [ fhir:v "**Description:**A determiner that specifies that the Entity object represents a particular physical thing (as opposed to a universal, kind, or class of physical thing).\r\n\r\n**Discussion:** It does not matter whether an INSTANCE still exists as a whole at the point in time (or process) when we mention it, for example, a drug product lot is an INSTANCE even though it has been portioned out for retail purpose." ] ;
fhir:property ( [
fhir:code [ fhir:v "status" ] ;
fhir:value [ fhir:v "active" ]
] [
fhir:code [ fhir:v "internalId" ] ;
fhir:value [ fhir:v "10881" ]
] ) ;
fhir:concept ( [
fhir:code [ fhir:v "GROUP" ] ;
fhir:display [ fhir:v "specific group" ] ;
fhir:definition [ fhir:v "A determiner that specifies that the Entity object represents a particular collection of physical things (as opposed to a universal, kind, or class of physical thing). While the collection may resolve to having only a single individual (or even no individuals), the potential should exist for it to cover multiple individuals." ] ;
fhir:property ( [
fhir:code [ fhir:v "status" ] ;
fhir:value [ fhir:v "active" ]
] [
fhir:code [ fhir:v "internalId" ] ;
fhir:value [ fhir:v "23599" ]
] )
] )
] [
fhir:code [ fhir:v "KIND" ] ;
fhir:display [ fhir:v "described" ] ;
fhir:definition [ fhir:v "**Description:**A determiner that specifies that the Entity object represents a universal, kind or class of physical thing (as opposed to a particular thing)." ] ;
fhir:property ( [
fhir:code [ fhir:v "status" ] ;
fhir:value [ fhir:v "active" ]
] [
fhir:code [ fhir:v "internalId" ] ;
fhir:value [ fhir:v "10879" ]
] [
fhir:code [ fhir:v "Name:Class" ] ;
fhir:value [ fhir:v "Kind" ]
] ) ;
fhir:concept ( [
fhir:code [ fhir:v "GROUPKIND" ] ;
fhir:display [ fhir:v "described group" ] ;
fhir:definition [ fhir:v "A determiner that specifies that the Entity object represents a universal, kind or class of collections physical things. While the collection may resolve to having only a single individual (or even no individuals), the potential should exist for it to cover multiple individuals." ] ;
fhir:property ( [
fhir:code [ fhir:v "status" ] ;
fhir:value [ fhir:v "active" ]
] [
fhir:code [ fhir:v "internalId" ] ;
fhir:value [ fhir:v "23600" ]
] )
] [
fhir:code [ fhir:v "QUANTIFIED_KIND" ] ;
fhir:display [ fhir:v "described quantified" ] ;
fhir:definition [ fhir:v "The described quantified determiner indicates that the given Entity is taken as a general description of a specific amount of a thing. For example, QUANTIFIED\\_KIND of syringe (quantity = 3,) stands for exactly three syringes." ] ;
fhir:property ( [
fhir:code [ fhir:v "status" ] ;
fhir:value [ fhir:v "deprecated" ]
] [
fhir:code [ fhir:v "deprecationDate" ] ;
fhir:value [ fhir:v "2008-11-14"^^xsd:date ]
] [
fhir:code [ fhir:v "internalId" ] ;
fhir:value [ fhir:v "10880" ]
] )
] )
] ) . #
# -------------------------------------------------------------------------------------