ObjectProperty {http://www.example.org/SysML-QUDV.owl#}baseDimension(baseDimension)
	range:{http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}baseQuantityKind(baseQuantityKind)
	range:{http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind)
	subpropertyOf:{http://www.example.org/SysML-QUDV.owl#}quantityKind(quantityKind)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}quantityKind(quantityKind)
	range:{http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}baseUnit(baseUnit)
	range:{http://www.example.org/SysML-QUDV.owl#}Unit(Unit)
	subpropertyOf:{http://www.example.org/SysML-QUDV.owl#}unit(unit)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}unit(unit)
	range:{http://www.example.org/SysML-QUDV.owl#}Unit(Unit)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}dimension(dimension)
	range:{http://www.example.org/SysML-QUDV.owl#}Dimension(Dimension)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}factor(factor)
	range:Class 1
	unionOf(
	{http://www.example.org/SysML-QUDV.owl#}DimensionFactor(DimensionFactor)
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
	)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}generalQuantityKind(generalQuantityKind)
	range:{http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}prefix(prefix)
	range:{http://www.example.org/SysML-QUDV.owl#}Prefix(Prefix)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}referenceUnit(referenceUnit)
	range:{http://www.example.org/SysML-QUDV.owl#}Unit(Unit)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}scale(scale)
	range:{http://www.example.org/SysML-QUDV.owl#}Scale(Scale)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}scaleValueDefinition(scaleValueDefinition)
	range:{http://www.example.org/SysML-QUDV.owl#}ScaleValueDefinition(ScaleValueDefinition)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}specificQuantityKind(specificQuantityKind)
	range:{http://www.example.org/SysML-QUDV.owl#}SpecializedQuantityKind(SpecializedQuantityKind)
	inverseOf:{http://www.example.org/SysML-QUDV.owl#}generalQuantityKind(generalQuantityKind)
ObjectProperty {http://www.example.org/SysML-QUDV.owl#}systemOfQuantities(systemOfQuantities)
	range:{http://www.example.org/SysML-QUDV.owl#}SystemOfQuantities(SystemOfQuantities)
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
	description:A ModelOfOperationObjectProperty describes a relationship between a part of a model of operation and another part of a model of operation.
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ReceiveRate
	description:A ReceiveRate defines a range of transfer rates at which an endpoint can receive data through a link.
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataTransferRateRange
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLinkState
	description:A SpaceWireLinkState relationship identifies a mechanism for enabling a SpaceWire link.
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLinkEnablement
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLogicalAddressValidRange
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLogicalAddressRange
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireProtocolSupport
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireProtocol
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPAddressValidRange
	description:A SpaceWireRMAPAddressValidRange identifies a range of memory addresses in an endpoint that are accessible through the RMAP protocol.
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPAddressRange
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWrite
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWriteSupport
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpecificValueAttribute
	domain:Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation
	description:A model of operation is a description of the parts of a component and the context in which the component operates.  A model of operation may be expressed in a data modeling language, such as MOF or SysML, and then extracted into a set of OWL classes and relations.  The OWL model of operation contains an individual in the ModelOfOperation class, called the anchor.  The anchor has object relations to individuals in other classes that form a graph.  A semantic attribute that corresponds to a referential class has for its value a string that describes a path through the graph starting from the name of the anchor and traversing relations by name to a set of target individuals.  The meaning of the attribute is a relationship between the EDS object in which the attribute appears and target individuals in the model of operation.
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpecificValue
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SubnetInterface
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
ObjectProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}TransmitRate
	description:A TransmitRate defines a range of transfer rates at which an endpoint can deliver data through a link.
	range:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataTransferRateRange
	subpropertyOf:{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperationObjectProperty
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}conversionFactor(conversionFactor)
	range:http://www.w3.org/2001/XMLSchema#double
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}conversionOffset(conversionOffset)
	range:http://www.w3.org/2001/XMLSchema#double
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}definitionURI(definitionURI)
	description:URI that contains an authoritative definition of the referent thing
	range:http://www.w3.org/2001/XMLSchema#string
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}description(description)
	range:http://www.w3.org/2001/XMLSchema#string
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}exponent(exponent)
	range:http://www.w3.org/2001/XMLSchema#double
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}expression(conversionExpression)
	range:http://www.w3.org/2001/XMLSchema#string
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}name(name)
	description:human-readable word or sequence of words by which a thing is known
	range:http://www.w3.org/2001/XMLSchema#string
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}numericalValue(numericalValue)
	range:http://www.w3.org/2001/XMLSchema#double
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}symbol(symbol)
	description:short symbolic name
	range:http://www.w3.org/2001/XMLSchema#string
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}symbolicExpression(symbolicExpression)
	range:http://www.w3.org/2001/XMLSchema#string
DatatypeProperty {http://www.example.org/SysML-QUDV.owl#}unitMultipleFactor(unitMultipleFactor)
	range:http://www.w3.org/2001/XMLSchema#double
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}maxInclusive
	description:A maxInclusive data property defines an included upper bound of a range of values.
	subpropertyOf:DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#modelOfOperationAttribute
DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#modelOfOperationAttribute
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}memoryId
	range:http://www.w3.org/2001/XMLSchema#integer
	subpropertyOf:DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#modelOfOperationAttribute
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}minInclusive
	description:A minInclusive data property defines an included lower bound of a range of values.
	subpropertyOf:DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#modelOfOperationAttribute
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}modelOfOperationAttribute
	description:A modelOfOperationAttribute property describes a relation between a part of a model of operation and a specific type of data.
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}protocolId
	description:A protocolId identifies a communication protocol.
	range:http://www.w3.org/2001/XMLSchema#integer
	subpropertyOf:DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#modelOfOperationAttribute
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}semanticPropertyAttribute
DatatypeProperty {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}syntax
	range:http://www.w3.org/2001/XMLSchema#string
	subpropertyOf:DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#semanticPropertyAttribute
DatatypeProperty http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#semanticPropertyAttribute
Class {http://www.w3.org/2002/07/owl#}Ontology
Class {http://www.w3.org/2002/07/owl#}AnnotationProperty
Class {http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 16
	intersectionOf(
	Class 17
	onProperty:#scale
	onClass:#Scale
	maxQualifiedCardinality:1
	Class 18
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 19
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 20
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 21
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}Unit(Unit)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 49
	intersectionOf(
	Class 50
	onProperty:#quantityKind
	onClass:#QuantityKind
	maxQualifiedCardinality:1
	Class 51
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 52
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 53
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 54
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}Dimension(Dimension)
	comment:A Dimension represents the [VIM] concept of 'quantity dimension' that is defined as 'expression of the dependence of a quantity on the base quantities of a system of quantities as a product of powers of factors corresponding to the base quantities, omitting any numerical factor.'

For example in the ISQ the quantity dimension of 'force' is denoted by dim F = Lï¿½Mï¿½T^2, where 'F' is the symbol for 'force', and 'L', 'M', 'T' are the symbols for the ISQ base quantities 'length', 'mass' and 'time' respectively.

The Dimension of any QuantityKind can be derived through the algorithm that is defined in C.5.3.20 with SystemOfQuantities. The actual Dimension for a given QuantityKind depends on the choice of baseQuantityKind specified in a SystemOfQuantities.
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 5
	intersectionOf(
	Class 6
	onProperty:#factor
	allValuesFrom:#DimensionFactor
	Class 7
	onProperty:#symbolicExpression
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	)
Class 1
	unionOf(
	{http://www.example.org/SysML-QUDV.owl#}DimensionFactor(DimensionFactor)
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
	)
Class {http://www.example.org/SysML-QUDV.owl#}DimensionFactor(DimensionFactor)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 8
	onProperty:#baseDimension
	onClass:#QuantityKind
	qualifiedCardinality:1
Class {http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 22
	intersectionOf(
	Class 23
	onProperty:#quantityKind
	onClass:#QuantityKind
	qualifiedCardinality:1
	Class 24
	onProperty:#exponent
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 55
	intersectionOf(
	Class 56
	onProperty:#unit
	onClass:#Unit
	qualifiedCardinality:1
	Class 57
	onProperty:#exponent
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}Prefix(Prefix)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 11
	intersectionOf(
	Class 12
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 13
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 14
	onProperty:#unitMultipleFactor
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}Scale(Scale)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 25
	intersectionOf(
	Class 26
	onProperty:#scaleValueDefinition
	someValuesFrom:#ScaleValueDefinition
	Class 27
	onProperty:#unit
	onClass:#Unit
	maxQualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}ScaleValueDefinition(ScaleValueDefinition)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 28
	intersectionOf(
	Class 29
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 30
	onProperty:#numericalValue
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}SpecializedQuantityKind(SpecializedQuantityKind)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind))
	equivalentClass:Class 31
	onProperty:#generalQuantityKind
	onClass:#QuantityKind
	qualifiedCardinality:1
Class {http://www.example.org/SysML-QUDV.owl#}SystemOfQuantities(SystemOfQuantities)
	comment:A SystemOfQuantities represents the [VIM] concept of 'system of quantities' that is defined as a 'set of quantities together with a set of non-contradictory equations relating those quantities'. It collects a list of QuantityKind that specifies the kinds of quantity that are known in the system.

The International System of Quantities (ISQ) is an example of a SystemOfQuantities, defined in ISO 31 and ISO/IEC 80000.
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 32
	intersectionOf(
	Class 33
	onProperty:#dimension
	someValuesFrom:#Dimension
	Class 34
	onProperty:#quantityKind
	someValuesFrom:#QuantityKind
	Class 35
	onProperty:#baseQuantityKind
	allValuesFrom:#QuantityKind
	Class 36
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 37
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 38
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 39
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class {http://www.example.org/SysML-QUDV.owl#}ConversionBasedUnit(ConversionBasedUnit)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}Unit(Unit))
	equivalentClass:Class 2
	onProperty:#referenceUnit
	onClass:#Unit
	qualifiedCardinality:1
Class 2
	onProperty:#referenceUnit
	onClass:#Unit
	qualifiedCardinality:1
Class #Unit
Class {http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind))
	equivalentClass:Class 3
	onProperty:#factor
	someValuesFrom:#QuantityKindFactor
Class 3
	onProperty:#factor
	someValuesFrom:#QuantityKindFactor
Class #QuantityKindFactor
Class {http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}Unit(Unit))
	equivalentClass:Class 4
	onProperty:#factor
	someValuesFrom:#UnitFactor
Class 4
	onProperty:#factor
	someValuesFrom:#UnitFactor
Class #UnitFactor
Class 5
	intersectionOf(
	Class 6
	onProperty:#factor
	allValuesFrom:#DimensionFactor
	Class 7
	onProperty:#symbolicExpression
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	)
Class 6
	onProperty:#factor
	allValuesFrom:#DimensionFactor
Class #DimensionFactor
Class 7
	onProperty:#symbolicExpression
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class {http://www.w3.org/2002/07/owl#}Thing
Class 8
	onProperty:#baseDimension
	onClass:#QuantityKind
	qualifiedCardinality:1
Class #QuantityKind
Class {http://www.example.org/SysML-QUDV.owl#}GeneralConversionUnit(GeneralConversionUnit)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}ConversionBasedUnit(ConversionBasedUnit))
	equivalentClass:Class 9
	onProperty:#expression
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 9
	onProperty:#expression
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class {http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}ConversionBasedUnit(ConversionBasedUnit))
	equivalentClass:Class 10
	onProperty:#conversionFactor
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
Class 10
	onProperty:#conversionFactor
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
Class 11
	intersectionOf(
	Class 12
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 13
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 14
	onProperty:#unitMultipleFactor
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class 12
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 13
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 14
	onProperty:#unitMultipleFactor
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
Class {http://www.example.org/SysML-QUDV.owl#}PrefixedUnit(PrefixedUnit)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}ConversionBasedUnit(ConversionBasedUnit))
	equivalentClass:Class 15
	onProperty:#prefix
	onClass:#Prefix
	qualifiedCardinality:1
Class 15
	onProperty:#prefix
	onClass:#Prefix
	qualifiedCardinality:1
Class #Prefix
Class {http://www.example.org/SysML-QUDV.owl#}Quantity(Quantity)
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
Class 16
	intersectionOf(
	Class 17
	onProperty:#scale
	onClass:#Scale
	maxQualifiedCardinality:1
	Class 18
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 19
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 20
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 21
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class 17
	onProperty:#scale
	onClass:#Scale
	maxQualifiedCardinality:1
Class #Scale
Class 18
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 19
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 20
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 21
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 22
	intersectionOf(
	Class 23
	onProperty:#quantityKind
	onClass:#QuantityKind
	qualifiedCardinality:1
	Class 24
	onProperty:#exponent
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class 23
	onProperty:#quantityKind
	onClass:#QuantityKind
	qualifiedCardinality:1
Class 24
	onProperty:#exponent
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
Class 25
	intersectionOf(
	Class 26
	onProperty:#scaleValueDefinition
	someValuesFrom:#ScaleValueDefinition
	Class 27
	onProperty:#unit
	onClass:#Unit
	maxQualifiedCardinality:1
	)
Class 26
	onProperty:#scaleValueDefinition
	someValuesFrom:#ScaleValueDefinition
Class #ScaleValueDefinition
Class 27
	onProperty:#unit
	onClass:#Unit
	maxQualifiedCardinality:1
Class 28
	intersectionOf(
	Class 29
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 30
	onProperty:#numericalValue
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class 29
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 30
	onProperty:#numericalValue
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
Class {http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}QuantityKind(QuantityKind))
Class {http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
	subClassOf({http://www.example.org/SysML-QUDV.owl#}Unit(Unit))
Class 31
	onProperty:#generalQuantityKind
	onClass:#QuantityKind
	qualifiedCardinality:1
Class 32
	intersectionOf(
	Class 33
	onProperty:#dimension
	someValuesFrom:#Dimension
	Class 34
	onProperty:#quantityKind
	someValuesFrom:#QuantityKind
	Class 35
	onProperty:#baseQuantityKind
	allValuesFrom:#QuantityKind
	Class 36
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 37
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 38
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 39
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class 33
	onProperty:#dimension
	someValuesFrom:#Dimension
Class #Dimension
Class 34
	onProperty:#quantityKind
	someValuesFrom:#QuantityKind
Class 35
	onProperty:#baseQuantityKind
	allValuesFrom:#QuantityKind
Class 36
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 37
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 38
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 39
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class {http://www.example.org/SysML-QUDV.owl#}SystemOfUnits(SystemOfUnits)
	comment:A SystemOfUnits represents the [VIM] concept of 'system of units' that is defined as 'set of base units and derived units, together with their multiples and submultiples, defined in accordance with given rules, for a given system of quantities'. It collects a list of Unit that are known in the system. A SysML SystemOfUnits only optionally defines multiples and submultiples.
	subClassOf({http://www.w3.org/2002/07/owl#}Thing)
	equivalentClass:Class 40
	intersectionOf(
	Class 41
	onProperty:#unit
	someValuesFrom:#Unit
	Class 42
	onProperty:#baseUnit
	allValuesFrom:#Unit
	Class 43
	onProperty:#prefix
	allValuesFrom:#Prefix
	Class 44
	onProperty:#systemOfQuantities
	allValuesFrom:#SystemOfQuantities
	Class 45
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 46
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 47
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 48
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class 40
	intersectionOf(
	Class 41
	onProperty:#unit
	someValuesFrom:#Unit
	Class 42
	onProperty:#baseUnit
	allValuesFrom:#Unit
	Class 43
	onProperty:#prefix
	allValuesFrom:#Prefix
	Class 44
	onProperty:#systemOfQuantities
	allValuesFrom:#SystemOfQuantities
	Class 45
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 46
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 47
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 48
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class 41
	onProperty:#unit
	someValuesFrom:#Unit
Class 42
	onProperty:#baseUnit
	allValuesFrom:#Unit
Class 43
	onProperty:#prefix
	allValuesFrom:#Prefix
Class 44
	onProperty:#systemOfQuantities
	allValuesFrom:#SystemOfQuantities
Class #SystemOfQuantities
Class 45
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 46
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 47
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 48
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 49
	intersectionOf(
	Class 50
	onProperty:#quantityKind
	onClass:#QuantityKind
	maxQualifiedCardinality:1
	Class 51
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 52
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
	Class 53
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	Class 54
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
	)
Class 50
	onProperty:#quantityKind
	onClass:#QuantityKind
	maxQualifiedCardinality:1
Class 51
	onProperty:#name
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 52
	onProperty:#symbol
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	qualifiedCardinality:1
Class 53
	onProperty:#definitionURI
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 54
	onProperty:#description
	onDataRange:{http://www.w3.org/2001/XMLSchema#}string
	maxQualifiedCardinality:1
Class 55
	intersectionOf(
	Class 56
	onProperty:#unit
	onClass:#Unit
	qualifiedCardinality:1
	Class 57
	onProperty:#exponent
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
	)
Class 56
	onProperty:#unit
	onClass:#Unit
	qualifiedCardinality:1
Class 57
	onProperty:#exponent
	onDataRange:{http://www.w3.org/2001/XMLSchema#}double
	qualifiedCardinality:1
Class {http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
Class {http://www.w3.org/2002/07/owl#}AllDisjointClasses
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataTransferRateRange
	description:A DataTransferRateRange defines a range of data transfer rates.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}IntegerRange)
	equivalentClass:Class 58
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#maxInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1Class 59
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#minInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLinkEnablement
	description:A SpaceWireLinkEnablement describes the mechanism to enable a SpaceWire link.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLogicalAddressRange
	description:A SpaceWireLogicalAddressRange specifies the included bounds on a range of SpaceWire logical addresses.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}IntegerRange)
	equivalentClass:Class 63
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#maxInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1Class 64
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#minInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireProtocol
	description:A SpaceWireProtocol describes the parameters that constrain the content and sequencing of data sent and received through a SpaceWire link.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
	equivalentClass:Class 65
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLogicalAddressValidRange
	someValuesFrom:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLogicalAddressRange
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPAddressRange
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}IntegerRange)
	equivalentClass:Class 67
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPWrite
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPWriteSupport
	maxQualifiedCardinality:1Class 68
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#memoryId
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	maxQualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWriteSupport
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation
	description:A model of operation is a description of the parts of a component and the context in which the component operates.  A model of operation may be expressed in a data modeling language, such as MOF or SysML, and then extracted into a set of OWL classes and relations.  The OWL model of operation contains an individual in the ModelOfOperation class, called the anchor.  The anchor has object relations to individuals in other classes that form a graph.  A semantic attribute that corresponds to a referential class has for its value a string that describes a path through the graph starting from the name of the anchor and traversing relations by name to a set of target individuals.  The meaning of the attribute is a relationship between the EDS object in which the attribute appears and target individuals in the model of operation.
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpecificValue
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataSheetLanguage
	description:The data sheet language specifies the versions of documents that control the syntax and semantics of the SEDS instance in which they appear.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfProduction)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfProduction
	description:A model of production describes the provenance of a device or software component.
Class 58
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#maxInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1
Class 59
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#minInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}IntegerRange
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
	equivalentClass:Class 60
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#maxInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	qualifiedCardinality:1Class 61
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#minInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	qualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DesignParameters
	description:Design parameters adjust the behavior of a component to suit the context in which it operates.  The context includes the assembly of components in which the component operates.  It also includes the standards of the agency that builds and operates the assembly of components.  Often the assembly of components is a vehicle.
Design parameters must be delivered to a component from the designers of the assembly in which it operates.  For this reason, the description of design parameters takes the form of an interface to the component.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SubnetInterfaceType)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SubnetInterfaceType
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DoT
	description:The Dictionary of Terms is the ontology in which this concept is defined.  SANA publishes this ontology.  This concept may be used in the "subject" semantic attribute of a meatadata value, to indicate that the version number is a version of the Dictionary of Terms.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataSheetLanguage)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DoTErrorControlType
	description:Standard types of error control algorithms
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ExtensibleEnumeration)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ExtensibleEnumeration
	description:Extensions to the enumerations in the seds.xsd file.
Class 60
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#maxInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	qualifiedCardinality:1
Class 61
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#minInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	qualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Manufacture
	description:The manufacture topic in a model of producction identifies a device or software component by describing how it was made.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfProduction)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Manufacturer
	description:The manufacturer is the organization that constructed a device or software component.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Manufacture)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ManufacturersModel
	description:The manufacturers model is a string assigned by a manufacturer to identify a kind of product that it makes.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Manufacture)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ParameterOpsType
	description:A ParameterOpsType provides an element in which to describe the operational constraints on a parameter.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}QUDV
	description:QUDV is an ontology that defines units of measure and quantity kinds.  It is published by Object Management Group, so its version numbers follow the conventions of that group.  The DoT uses QUDV for the subject matter that it covers.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataSheetLanguage)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}RefersToModel
	description:A class derived from RefersToModel may be called a referential class, and shall have no individual members.  A semantic attribute in the electronic data sheet schema that corresponds to a referential class shall have a range of values in "xsd:string".  The prefix of the string shall be the name of an individual in the "ModelOfOperation" class or a derivative of that class.  The remainder of the string shall be a path expression delimited by ".", which consists of alternating names of object relations and names of classes or individuals.  The definition of a referential class shall relate the part of the electronic data sheet that bears the attribute to the individuals or classes in the ontology that are at the end of the path specified by the value of the attribute.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty
	description:A SemanticProperty is an enumeration of properties that describe the intended usage of data in a SOIS electronic data sheet.
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SOIS_Version
	description:The version numbers for the schema and for the DoT shall have the form of three positive integers concatenated with period-characters, “.”.
1.	The first integer shall be zero for the first version and incremented by 1 for versions that are not backward compatible with the previous version.
2.	The second integer shall be zero for each first version that breaks compatibility and incremented by 1 for versions that extend the previous version while maintaining compatibility.
3.	The third integer shall be zero for each first version that breaks compatibility or that extends compatibly, and incremented by 1 for versions that correct errors in previous versions without breaking compatibility and without extending compatibly.
Example – 1.2.0
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Version)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Version
	description:A version is a string assigned by the manufacturer to identify a stage in the development of a kind of product that it makes.  Some versions may be offered in a market, while others may be used only internally for experimental development.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfProduction)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Schema
	description:The schema governs the content of an Electronic Data Sheet.  SANA publishes the schemas for electronic data sheets.  This concept may be used in the "subject" semantic attribute of a metadata value of ConfigurationManagement in order to indicate that the value is a version number for the schema that governs the Electronic Data Sheet in which it appears.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DataSheetLanguage)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SerialNumber
	description:A serial number is a string assigned by a manufacturer to identify a particular instance of a kind of product that it makes.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Manufacture)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireCPTP
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireProtocol)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireCustomProtocol
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireProtocol)
	equivalentClass:Class 62
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#protocolId
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	minQualifiedCardinality:0
Class 62
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#protocolId
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	minQualifiedCardinality:0
Class 63
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#maxInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1
Class 64
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#minInclusive
	onDataRange:{http://www.w3.org/2001/XMLSchema#}positiveInteger
	qualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireParameter
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpecificValue)
Class 65
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLogicalAddressValidRange
	someValuesFrom:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLogicalAddressRange
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLogicalAddressRange
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAP
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireProtocol)
	equivalentClass:Class 66
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPAddressValidRange
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPAddressRange
	qualifiedCardinality:1
Class 66
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPAddressValidRange
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPAddressRange
	qualifiedCardinality:1
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPAddressRange
Class 67
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPWrite
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPWriteSupport
	maxQualifiedCardinality:1
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireRMAPWriteSupport
Class 68
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#memoryId
	onDataRange:{http://www.w3.org/2001/XMLSchema#}integer
	maxQualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireSubnet
	description:A SpaceWireSubnet is a model of operation of SpaceWire as a sub-network in SOIS.  The attributes of this class and of associated classes define the SpaceWire configuration parameters.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SubnetInterfaceType)
	equivalentClass:Class 69
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#ReceiveRate
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#DataTransferRateRange
	minQualifiedCardinality:0Class 70
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkState
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkEnablement
	minQualifiedCardinality:0Class 71
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireProtocolSupport
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireProtocol
	minQualifiedCardinality:0Class 72
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpecificValueAttribute
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireParameter
	minQualifiedCardinality:0Class 73
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#TransmitRate
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#DataTransferRateRange
	minQualifiedCardinality:0Class 74
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkState
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkEnablement
	maxQualifiedCardinality:1
Class 69
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#ReceiveRate
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#DataTransferRateRange
	minQualifiedCardinality:0
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#DataTransferRateRange
Class 70
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkState
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkEnablement
	minQualifiedCardinality:0
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkEnablement
Class 71
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireProtocolSupport
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireProtocol
	minQualifiedCardinality:0
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireProtocol
Class 72
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpecificValueAttribute
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireParameter
	minQualifiedCardinality:0
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireParameter
Class 73
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#TransmitRate
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#DataTransferRateRange
	minQualifiedCardinality:0
Class 74
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkState
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SpaceWireLinkEnablement
	maxQualifiedCardinality:1
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}Subnet
	description:A Subnet is a description of the parameters of a technology that implements the functions of the physical, datalink, and network layers of a standard OSI protocol stack in a SOIS protocol stack.  The Subnet description provides a standard framework in which to specify the particular technology parameters for a device in a SOIS electronic data sheet.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ModelOfOperation)
	equivalentClass:Class 75
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SubnetInterface
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SubnetInterfaceType
	minQualifiedCardinality:0
Class 75
	onProperty:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SubnetInterface
	onClass:http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SubnetInterfaceType
	minQualifiedCardinality:0
Class http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#SubnetInterfaceType
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UnitsNotYetIntegratedIntoQUDV
	description:The UnitsNotYetIntegratedIntoQUDV is a temporary category of discrete concept where the concepts that represent units not covered by QUDV conventions can reside until the QUDV conventions have been implemented.
	subClassOf({http://www.example.org/SysML-QUDV.owl#}Unit(Unit))
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}chirality
	description:This term indicates the handedness of a coordinate system.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 76
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}leftHanded
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rightHanded
	)
Class 76
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}leftHanded
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rightHanded
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	description:The “coordinate type” term indicates how to interpret a semantic type that is an array of coordinates.  The arrays to which the coordinate type applies may be interpreted as locations in a phase space, such as position and velocity vectors.  For arrays that may be interpreted as transformation from one frame to another, such as quaternions and direction cosine matrices, the transformation type applies.
The “coordinate type” term specifies a particular combination of the following terms:
•	coordinate system
•	array size
•	unit of measure
•	reference frame
Some of the terms listed above may be incompletely determined by a “coordinate type” value, and so must be specified in an electronic data sheet with that “coordinate type” value when defining an item of data.  Those terms above that are completely determined by a “coordinate type” value need not be specified with that value in an electronic data sheet.  The definition of a value of the “coordinate type” term in the dictionary of terms must provide the information about the terms listed above.
In an electronic data sheet this term is the “coordinateType” attribute of a data item.
Use Cases:
Interpret a semantic type that is an array of numbers.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 77
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}J2000
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LLA
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}MOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}TOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UPS
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTC
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTM
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}latLon
	)
Class 77
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}J2000
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LLA
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}MOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}TOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UPS
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTC
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTM
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}latLon
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
	description:Variables that represent a difference between values of measureable quantities are called “relative” variables.  This term identifies the convention for computing the difference.
In an electronic data sheet this term is the “differenceConvention” attribute of a data item.
Use Cases:
Specify that the change in speed reported by a single-axis accelerometer is the difference between the speed at the time of reporting and the speed at the time of the previous report.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 78
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}comparison
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}delta
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}gradient
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}path
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ratio
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sinceEpoch
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sinceSync
	)
Class 78
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}comparison
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}delta
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}gradient
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}path
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ratio
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sinceEpoch
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sinceSync
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}enumeration
	description:The classes derived from this class represent enumerations that may be the range of a data item in an interface described by an electronic data sheet.  The individuals in classes derived from this class are discrete concepts that are values in the range of an enumeration data item in an interface described by an electronic data sheet.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthStatus
	description:This concepts enumerates the states of health of a device.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}enumeration)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
	description:The “interpretation” term identifies a broad class of data types to which an item of data belongs.
In an electronic data sheet, this term is the “interpretation” attribute of a data item.
Use Cases:
Determine how to interpret the semantic type string for a data item.
Distinguish an index from a count.
Distinguish a transformation from a position.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 79
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}command
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}difference
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}mode
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}name
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}orbit
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}position
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}scope
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}status
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformation
	)
Class 79
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}command
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}difference
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}mode
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}name
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}orbit
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}position
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}scope
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}status
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformation
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}memberOf
	description:An element bearning this semantic attribute is a member of the class in a standard or user-provided model of operation, named by the value of the attribute.

Standard models of operation cannot efficiently represent the variety of details that may occur in a specific instrument.  To address this difficulty, the parts of a standard model of operation, which are classes, can be interpreted as a skeletal model.  Individuals in the classes of a standard model of operation can be defined in an electronic data sheet, and can be related to those classes by the referential attriibute "memberOf".  This convention allows electronic data sheets to define a variety of operating models without needing a user-provided ontology, which would diminish their portability.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}RefersToModel)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}purpose
	description:The purpose of a semantic type determines how to apply an instance of the type.  A person may think that the purpose of a semantic type derives from its context of usage, for example, thinking that a parameter of a command must be a set-point.  However, measured values that are not set-points may also be parameters of a command.  Both set-points and measured values may appear in published data.
The purpose may be clear for simple commands and telemetry that set a data item in a device; in those cases, the purpose attribute can be left implicit.  In some housekeeping telemetry the distinction is not so clear; both set points and measurements may appear in the same relation; in those cases, the purpose attribute must be explicit on each data item.
In an electronic data sheet this term is the “purpose” attribute of a data item.
Use Cases:
Distinguish a set-point from a measurement to be controlled.
Distinguish a central value from a measured value.
Distinguish an adjustment from a measurement
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 80
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}action
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}calibration
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}measurement
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}nominal
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}setPoint
	)
Class 80
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}action
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}calibration
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}measurement
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}nominal
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}setPoint
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	description:The “reference frame” term identifies the frame of reference in which a semantic type is relevant.  The generic names of frames are employed here, such as “device” and “vehicle”; these generic names do not imply a specific coordinate system.  For example, “ECI” is a value of this enumeration, while the more specific “J2000”, “TOD”, and “MOD” are reserved for the “coordinate type” enumeration.
In an electronic data sheet this term is the “referenceFrame” attribute of a data item.
Use Cases:
Determine the frame in which a semantic type is represented, in order to determine what transformation is needed, if any, to represent the semantic type in a frame that is appropriate for an application.
Determine the frame of reference that is input to a transformation of coordinates.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 81
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ECEF
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ECI
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LVLH
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}device
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}externalObject
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}mount
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transducer
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}vehicle
	)
Class 81
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ECEF
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ECI
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LVLH
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}device
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}externalObject
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}mount
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transducer
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}vehicle
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}relationToTimestamp
	description:When a time stamp appears in a relation with other data items, it may be important to a designer of a control system to know how the time stamp relates to the age of the other data items in the relation.
In an electronic data sheet this term is the timeRelation attribute of a time stamp data item.
Use Cases:
Enable a design of a control system to estimate the delay between measurement of a data value and the time when the control system obtains the data item.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 82
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}acquiring
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}generation
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sending
	)
Class 82
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}acquiring
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}generation
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sending
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerOperatingMode
	description:The starTrackerOperatingMode enumerates the modes of operation of a star tracker.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}enumeration)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}statusConvention
	description:The “status convention” describes how a data item represents the quality of function of a device.
In an electronic data sheet, this term is the “statusConvention” attribute of a data item.
Use Cases:
Determine whether the data reported by a sensor can be trusted.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 83
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}binaryStatus
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}qualityFraction
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ternaryStatus
	)
Class 83
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}binaryStatus
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}qualityFraction
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ternaryStatus
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}subject
	description:The subject property is a reference to a component of the system in which the data item using the subject property appears.  The meaning is that the data item applies to the component.  For example, if the purpose property of the data item is "measurement", then the data item is a measurement of the component referenced in the subject property.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}RefersToModel)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}tecOperatingMode
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}enumeration)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
	description:The toCoordinateType identifies the coordinate type that results from a transformation from the coordinate system identified by the coordinateType.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 84
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}J2000
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LLA
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}MOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}TOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UPS
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTC
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTM
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}latLon
	)
Class 84
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}J2000
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LLA
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}MOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}TOD
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UPS
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTC
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTM
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}latLon
	)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
	description:The toFrame idenitifies the frame of reference that results from a transformation from the frame identified by the referenceFrame.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
Class {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
	description:The “transformation type” term indicates how to interpret a semantic type that is an array of numbers.  The arrays to which the transformation type applies may be interpreted as transformation from one frame to another, such as quaternions and direction cosine matrices.  For arrays that may be interpreted as locations in a phase space, such as position and velocity vectors, the coordinate type applies.  A coordinate type that is a vector may be treated as a transformation by adding it to other vectors, for example; such a transformation would be a called a translation.
The “transformation type” term specifies a particular combination of the following terms:
•	coordinate system
•	array size
•	unit of measure
•	computation
The definition of a value of the “transformation type” term must provide the information about the terms listed above.  The “reference frame” and “to frame” must be specified with the transformation type in an electronic data sheet when defining an item of data. 
In an electronic data sheet this term is the “transformationType” attribute of a data item.
Use Cases:
Interpret the quaternion that is emitted by a star tracker.
	subClassOf({http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SemanticProperty)
	equivalentClass:Class 85
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DCM
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}quaternion
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rollPitchYaw
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rotationRate
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}translation
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}velocity
	)
Class 85
	oneOf(
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DCM
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}quaternion
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rollPitchYaw
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rotationRate
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}translation
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}velocity
	)
Class {http://www.w3.org/2002/07/owl#}AllDifferent
Individual {http://www.example.org/SysML-QUDV.owl#}
	type:
	{http://www.w3.org/2002/07/owl#}Ontology
Individual {http://www.example.org/SysML-QUDV.owl#}http://purl.org/dc/elements/1.1/description
	type:
	{http://www.w3.org/2002/07/owl#}AnnotationProperty
Individual 1
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
	type:
	{http://www.w3.org/2002/07/owl#}AllDisjointClasses
Individual 2
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
	type:
	{http://www.w3.org/2002/07/owl#}AllDisjointClasses
Individual 3
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
	type:
	{http://www.w3.org/2002/07/owl#}AllDisjointClasses
Individual {http://www.example.org/SysML-QUDV-SI.owl#}
	type:
	{http://www.w3.org/2002/07/owl#}Ontology
Individual {http://www.example.org/SysML-QUDV-SI.owl#}celsiusTemperatureQK(celsiusTemperatureQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}celsiusTemperatureScale(celsiusTemperatureScale)
	type:
	{http://www.example.org/SysML-QUDV.owl#}Scale(Scale)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}celsiusTemperatureScaleMeltingPointOfWater(celsiusTemperatureScaleMeltingPointOfWater)
	type:
	{http://www.example.org/SysML-QUDV.owl#}ScaleValueDefinition(ScaleValueDefinition)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}degreeCelsius(degreeCelsius)
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}energyQK(energyQK)
	description:Energy is also known as work and quantity of heat.
Energy has the same units as torque, which is a different quantity kind.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
Individual {http://www.example.org/SysML-QUDV-SI.owl#}energyQK_Power1(energyQK_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}gram(gram)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}inch(inch)
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}joule(joule)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}joule_Power1(joule_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}kelvin(kelvin)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}kilo(kilo)
	type:
	{http://www.example.org/SysML-QUDV.owl#}Prefix(Prefix)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}kilogram(kilogram)
	type:
	{http://www.example.org/SysML-QUDV.owl#}PrefixedUnit(PrefixedUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}kilogram_Power1(kilogram_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}lengthQK(lengthQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}lengthQK_Power1(lengthQK_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}lengthQK_Power2(lengthQK_Power2)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}massQK(massQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}massQK_Power1(massQK_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}metre(metre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}metrePerSecond(metrePerSecond)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}metre_Power1(metre_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}metre_Power2(metre_Power2)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}powerQK(powerQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}second(second)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}second_PowerMinus1(second_PowerMinus1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}second_PowerMinus2(second_PowerMinus2)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}theInternationalSystemOfQuantities(theInternationalSystemOfQuantities)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SystemOfQuantities(SystemOfQuantities)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}theInternationalSystemOfUnits(theInternationalSystemOfUnits)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SystemOfUnits(SystemOfUnits)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}thermodynamicTemperatureQK(thermodynamicTemperatureQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}thermodynamicTemperatureScale(thermodynamicTemperatureScale)
	type:
	{http://www.example.org/SysML-QUDV.owl#}Scale(Scale)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}thermodynamicTemperatureScaleAbsoluteZero(thermodynamicTemperatureScaleAbsoluteZero)
	type:
	{http://www.example.org/SysML-QUDV.owl#}ScaleValueDefinition(ScaleValueDefinition)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}thermodynamicTemperatureScaleTriplePointOfWater(thermodynamicTemperatureScaleTriplePointOfWater)
	type:
	{http://www.example.org/SysML-QUDV.owl#}ScaleValueDefinition(ScaleValueDefinition)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}timeQK(timeQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}timeQK_PowerMinus1(timeQK_PowerMinus1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}timeQK_PowerMinus2(timeQK_PowerMinus2)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}velocityQK(velocityQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.example.org/SysML-QUDV-SI.owl#}watt(watt)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl
	type:
	{http://www.w3.org/2002/07/owl#}Ontology
Individual {http://www.example.org/SysML-QUDV.owl#}symbol
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ETRTick
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}aToDCount
	description:An analog to digital count is a number produced by an analog-to-digital converter to measure a physical quantity.  The measurement action counts the time for the measurement transducer to reach equilibrium.
A count represents a quantity kind that depends upon the analog process that is being measured.  For this reason, the association between count and quantity kind should ideally not be fully specified in this ontology, but should wait until the time of describing a particular device.  However, that specification may require additional syntax in a schema.  The current strategy in this ontology is to leave the specification of quantity kind to the point of description of a device, and to expect the additional syntax in the schema that uses this concept.  The alternative is to define a subclass of AToDCount for each quantity kind.  The delayed specification of quantity kind may provide a model to simplify the definition of other units.
Typically, a count will be the basis for a conversion-based unit that converts the count into a physical quantity.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}acousticPowerQK
	description:Acoustic power measures the energy of sound in matter.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}amountOfMolecularSpeciesQK
	description:The amount of a substance is correlated with the number of molecules of that substance that are present.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ampere
	description:An ampere is one of the base units in the SI units of measure, corresonding to the quantity kind of electric current.  It represents a coulomb of electrical charge flowing through a known cross section per time.  The default interpretation of cross section is the cross section of a wire in an electrical circuit, perpendicular to the path of the wire.  For current through other media, the cross section must be explained separately.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ampere-hour(ampere-hour)
	description:An ampere-hour is a measure of electric charge typically used to describe the capacity of an electric battery.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ampere-metre(ampere-metre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ampere-squareMetre(ampere-squareMetre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}amperePerMetre(amperePerMetre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}amperePerSquareMetre(amperePerSquareMetre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ampere_Power1(ampere_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ampere_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}angleQK
	description:Angle measures the arc separation of two rays at some standard radius from their common point of origin.  There is a choice between two angles, each of which is the difference between a full revolution and the other.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}angleQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}angularRateQK
	description:An angular rate is a measure of speed of rotation.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}arcsecond
	description:An arcsecond is 1/3600 of a degree of angle.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}arcsecondPerSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}arcsecond_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}areaQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}astronomicalMagnitudeQK
	description:Astronomical magnitude provides a logarithmic comparison of apparent magnitudes of stars and other visible objects.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}astronomicalUnit(astronomicalUnit)
	description:An astronomical unit is the nominal distance between Earth and Sun.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}bar
	description:A bar is approximately the same a the air pressure on Earth at sea level.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}bit
	description:A bit is a measure of information, uncertainty, or entropy.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}bit_Power1(bit_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}bitsPerSecond(bitsPerSecond)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}candela
	description:A candela is the unit of luminous intensity in the international system of units.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}candela_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}capacitanceQK
	description:Capacitance is the amount of charge that can be stored in a capacitor per change in electrical potential across the input to the device.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}coulomb(coulomb)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}coulombPerCubicMetre(coulombPerCubicMetre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}coulombPerSquareMetre(coulombPerSquareMetre)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}coulomb_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}count
	description:A count is an integer that represents the number of individuals of the subject class.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}cubicMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}cubicMetrePerSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}dataRateQK
	description:Data rate quantity kind is the rate of transfer of information per time.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}day(day)
	description:A day is the nominal time for the Earth to rotate from one noon to the next noon at the same geographic location.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}debye(debye)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}decibel
	description:A decibel is 10 times the base 10 logarithm of the ratio of a measured quantity to a reference quantity.  The quantities are generally power or intensity.  The reference quantity is often implicit in casual usage.  In this ontology, the implicit form only refers to the sound pressure level reference near the threshold of human hearing, the sound of a mosquito flying three metres away.  All other reference quantities must be stated in the name of the unit, such as dBW, in which the reference quantity is one Watt.
	type:
	{http://www.example.org/SysML-QUDV.owl#}GeneralConversionUnit(GeneralConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}decibelWatt
	description:A decibel watt is 10 times the base 10 logarithm of the ratio of a measured quantity to 1 watt.
	type:
	{http://www.example.org/SysML-QUDV.owl#}GeneralConversionUnit(GeneralConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}degreeAngle
	description:A degree of angle is 1/360 of one full rotation.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}dynamicViscosityQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricChargeDensityQK(electricChargeDensityQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricChargeQK(electricChargeQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricChargeQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricConductancePerDistanceQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricConductanceQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricConductanceQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricCurrentDensityQK
	description:Electric current density is the same as electric current, but normalized per cross section area through which the current flow.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricCurrentQK
	description:Electric current is a measure of the amount of electrical charge flowing through a known cross section per time.  The default interpretation of cross section is the cross section of a wire in an electrical circuit, perpendicular to the path of the wire.  For current through other media, the cross section must be explained separately.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricCurrentQK_Power1(electricCurrent_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricCurrentQK_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricDipoleMomentQK(electricDipoleMomentQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricDisplacementQK(electricDisplacementQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricPotentialGradientQK
	description:An electric potential gradient can be used to estimate the chance of dielectric failure.  This quantity kind is also known as electric field strength.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricPotentialQK
	description:Electric potential measures the energy that would be gained by an electric charge moving from the point of measurement to the reference point, which has zero potential.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricPotentialQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricPotentialQK_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electricResistanceQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electron
	description:An electron is an elementary particle that carries an electric charge.  The unit of electron is the measure of the charge of one electron.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electron_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}electronsPerPixelPerSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}entropyQK
	description:Entropy may also be called "heat capacity".
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}farad
	description:A farad is the charge in Coulombs that a capacitor will accept for the potential across it to change by one volt.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}faradPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}forceQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}forceQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}frameCountQK
	description:A frame count represents the quantity of frames that have been imaged by a camera.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}frequencyQK
	description:Frequency measures the rate at which some implicitly defined event occurs.  This ontology differentiates inverse seconds from frequency, because the former has no event associated with it.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}henry
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}henryPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}henry_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}henry_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}hertz
	description:Hertz is the frequency of 1 event per second.  The event is not explicitly defined in the unit.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}hour
	description:An hour is one 24th of a day.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}inductanceQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}inductanceQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}informationQK(informationQK)
	description:This quantity kind is also known as entropy.  Claude Shannon is said to have considered calling it information or uncertainty, preferring the latter because the former seemed overused.  John von Neumann advised calling it entropy, because it was already in use in statistical mechanics.
	comment:John von Neumann's advice to Claude Shannon about using the term "entropy" also carred the reason that "no one knows what entropy really is, so in a debate you will always have the advantage".
	type:
	{http://www.example.org/SysML-QUDV.owl#}SpecializedQuantityKind(SpecializedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}informationQK_Power1(informationQK_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}inverseHenry
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}inverseKelvin
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}inverseSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}joulePerKelvin
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}kelvin_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}kilogramMetreSquared
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}kilogramPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}lengthQK_Power3
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}lengthQK_PowerMinus1(lengthQK_PowerMinus1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}lengthQK_PowerMinus2(lengthQK_PowerMinus2)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}lengthQK_PowerMinus3(lengthQK_PowerMinus3)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}liter
	description:A litre is 1/1000 of a cubic metre.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}litre
	description:A litre is 1/1000 of a cubic metre.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}luminanceQK
	description:Luminance provides a measure of spectral flux density that is invariant along a light beam.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}luminosityQK
	description:Luminosity, or luminous intensity, measures the strength of electromagnetic radiation.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}luminosityQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}magneticDipoleMomentQK(magneticDipoleMomentQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}magneticFieldStrengthQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}magneticFluxDensityQK(magneticFluxDensityQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}magneticFluxQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}magneticFluxQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}magneticPoleStrengthQK(magneticPoleStrengthQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}mega
	type:
	{http://www.example.org/SysML-QUDV.owl#}Prefix(Prefix)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}megabitsPerSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}PrefixedUnit(PrefixedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}metrePerSecondPerSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}metre_Power3
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}metre_PowerMinus1(metre_PowerMinus1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}metre_PowerMinus2(metre_PowerMinus2)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}metre_PowerMinus3(metre_PowerMinus3)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}milli
	type:
	{http://www.example.org/SysML-QUDV.owl#}Prefix(Prefix)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}millisecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}PrefixedUnit(PrefixedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}minute
	description:A minute is one 60th of an hour.
	type:
	{http://www.example.org/SysML-QUDV.owl#}LinearConversionUnit(LinearConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}mole
	description:A mole is a base unit in the SI units of measure.  It represents the quantity of a molecular species.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}momentOfForce
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}newton
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}newtonMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}newtonPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}newton_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}nit
	description:A nit is a measure of luminance, which is invariant along the propagation of a light beam.  It is measured in candelas per square meter.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}ohm
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pascal(pascal)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pascalSecond
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pascal_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}percent
	description:a percent is a ratio multiplied by 100
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}percentQK(percentQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}SpecializedQuantityKind(SpecializedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}permeabilityQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pixel
	description:The pixel unit represents a count of 1 pixels.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pixelQK
	description:The pixel quantity kind represents a count of pixels.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pixel_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}powerQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pressureQK(pressureQK)
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}pressureQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}quantityQK
	description:The number of countable individuals of the subject class.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}radian
	description:A radian is a natural measure of angle.  It is the ratio of the length of the arc within the angle to the length of the radius of the arc.  There are 2pi radians in a full rotation.
In SI units a radian would be unitless, because it is the ratio of two lengths.  In this ontology it is treated as a fundamental concept, independent of interaction with length.
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}radianPerSecond
	description:A radian per second is an angular rate that rotates one radian each second of time.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}radian_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}second_Power1(second_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}siemens
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}siemensPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}siemens_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}solidAngleQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleQuantityKind(SimpleQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}specificCapacitanceQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}squareMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}stellarMagnitude
	description:Stellar magnitude provides a logarithmic scale for describing the brightness of stars in which the star Vega has magnitude zero, and dimmer stars have higher magnitudes.
	type:
	{http://www.example.org/SysML-QUDV.owl#}GeneralConversionUnit(GeneralConversionUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}steradian
	type:
	{http://www.example.org/SysML-QUDV.owl#}SimpleUnit(SimpleUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}steradian_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}surfaceTensionQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}tesla
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}thermodynamicTemperatureQK_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}timeQK_Power1(timeQK_Power1)
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}torqueQK
	description:Torque has the same units as energy, which is a different quantity kind.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}volt
	description:A volt is the unit of energy gained by one coulomb of electrical charge moving from the point of measurement to the reference point, where the potential energy is zero.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}voltPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}volt_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}volt_PowerMinus1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}volumeQK
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}volumeQK_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}QuantityKindFactor(QuantityKindFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}volumetricFlowQK
	description:Volumetric flow measures the rate of passage of incompressible fluid through a portal, or the rate of sweep of space by a moving scoop.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedQuantityKind(DerivedQuantityKind)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}watt_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}weber
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}weberMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}weberPerMetre
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}weberPerSquareMetre
	description:A weber per square metre is also known as a tesla.
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}weberPerSteradian
	type:
	{http://www.example.org/SysML-QUDV.owl#}DerivedUnit(DerivedUnit)
Individual {http://www.ccsds.org/ontologies/2013/4/sysml-qudv-si-sois.owl#}weber_Power1
	type:
	{http://www.example.org/SysML-QUDV.owl#}UnitFactor(UnitFactor)
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl
	type:
	{http://www.w3.org/2002/07/owl#}Ontology
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}http://purl.org/dc/elements/1.1/description
	type:
	{http://www.w3.org/2002/07/owl#}AnnotationProperty
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}leftHanded
	description:A left-handed coordinate system has three dimensions, and the order of the presentation of positive values of the dimensions in a vector corresponds to the directions of thumb, index, and medius fingers of a human left hand.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}chirality
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rightHanded
	description:A right-handed coordinate system has three dimensions, and the order of the presentation of positive values of the dimensions in a vector corresponds to the directions of thumb, index, and medius fingers of a human right hand.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}chirality
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}J2000
	description:The “J2000” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian
•	array size = 3
•	unit of measure = length
•	reference frame = ECI
The elements of the vector are interpreted as Cartesian coordinates.  This approximately inertial coordinate frame has its origin at the center of the Earth.  It is defined with the Earth's Mean Equator and Equinox at 12:00 Terrestrial Time on 1 January 2000.  The x axis points toward the mean equinox corresponding to northern spring.  The z axis points north along the earth’s spin axis.  The y axis is 90 degrees east of the x axis in the plane of the equator, such that it forms a right-handed coordinate system.
The “unit of measure” must be specified with this coordinate type.
Use Cases:
Specify that a semantic type is a vector with a coordinate system that corresponds to ECI J2000.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LLA
	description:The “LLA” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = latitude, longitude, altitude
•	array size = 3
•	unit of measure = degree, degree, meter
•	reference frame = ECEF
The elements of the vector are interpreted as spherical coordinates, and the two angle coordinates are treated as latitude and longitude; the radial coordinate is zero at the radius of Earth’s mean sea level.  This coordinate system has its origin at the intersection of the prime meridian and the equator.  Latitude is often marked north or south, instead of using negative angles.  Similarly, angular distance around the equator is often marked as east or west.
Use Cases:
Specify the semantic type of a vector location of a building on Earth that is a target of surveillance.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}MOD
	description:The “MOD” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian
•	array size = 3
•	unit of measure = length
•	reference frame = ECI
The elements of the vector are interpreted as Cartesian coordinates.  This approximately inertial coordinate frame has its origin at the center of the Earth.  It is defined with the Earth's mean equator and equinox at a particular date, assumed here to be the time of the measurement.  The x axis points toward the mean equinox corresponding to northern spring.  The z axis points north along the earth’s spin axis.  The y axis is 90 degrees east of the x axis in the plane of the equator, such that it forms a right-handled coordinate system.
The “unit of measure” must be specified with this coordinate type.
Use Cases:
Specify that a semantic type is a vector with a coordinate system that corresponds to ECI MOD at the time of measurement.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}TOD
	description:The “TOD” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian
•	array size = 3
•	unit of measure = length
•	reference frame = ECI
The elements of the vector are interpreted as Cartesian coordinates.  This approximately inertial coordinate frame has its origin at the center of the Earth.  It is defined with the Earth's true equator and equinox at a particular date, assumed here to be the time of the measurement.  The x axis points toward the true equinox corresponding to northern spring.  The z axis points north along the earth’s spin axis.  The y axis is 90 degrees east of the x axis in the plane of the equator, such that it forms a right-handled coordinate system. 
The “unit of measure” must be specified with this coordinate type.
Use Cases:
Specify that a semantic type is a vector with a coordinate system that corresponds to ECI TOD at the time of measurement.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UPS
	description:The “UPS” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = latitude, longitude
•	array size = 2
•	unit of measure = degree
•	reference frame = ECEF
The elements of the vector are interpreted as universal polar stereographic coordinates.
Use Cases:
Specify that a semantic type is a vector location on Earth, with a coordinate system that corresponds to universal polar stereographic coordinates.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTC
	description:The “UTC” value of the “coordinate type” term specifies that a number is coordinated universal time as defined by the International Telecommunication Union and the International Astronomical Union.  The abbreviation is a compromise between “coordinated universal time” and “temps universel coordonné”.
Use Cases:
Represent the time obtained from a global positioning system.
Represent the time obtained from an atomic clock.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UTM
	description:The “UTM” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = latitude, longitude
•	array size = 2
•	unit of measure = degree
•	reference frame = ECEF
The elements of the vector are interpreted as universal transverse Mercator coordinates.
Use Cases:
Specify that a semantic type is a vector location on Earth, with a coordinate system that corresponds to universal transverse Mercator coordinates.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}latLon
	description:The “LatLon” value of the “coordinate type” term specifies the following information for a semantic type:
•	coordinate system = latitude, longitude
•	array size = 2
•	unit of measure = degree
•	reference frame = ECEF
The elements of the vector are interpreted as spherical coordinates, but only the two angle coordinates are used; the radial coordinate is fixed at the mean radius of Earth.  This coordinate system has its origin at the intersection of the prime meridian and the equator.  Latitude is often marked north or south, instead of using negative angles.  Similarly, angular distance around the equator is often marked as east or west.  Both of these directional conventions must be specified if a device uses them; the term is “latlon convention”.
Use Cases:
Specify the semantic type of a vector location of a ship at sea on Earth.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}comparison
	description:The “comparison” term identifies the difference convention for variables without a specific absolute reference frame.
Use Cases:
Specify that the voltage reported by a voltage meter is a difference in potential without a reference ground.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}delta
	description:The “delta” term identifies a difference between the value of a variable at one time compared to the value at a prior time.  For measurements, the prior time is the time that the variable was last reported, or since initialization.  For commanded values, the prior time is the time of the current command.
Use Cases:
Identify the change in speed reported by an accelerometer.
Identify the elapsed time since the last report of a measurement from a sensor.
Specify the time during which a command parameter is valid.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}gradient
	description:The “gradient” term identifies a difference computed as the ratio of a delta variable to a path variable.  Such a variable is an average obtained by dividing the differences over the same reporting interval.
Use Cases:
Identify the rate of change of atmospheric density with altitude at a particular time and place.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}path
	description:The “path” term identifies a difference between the value of a variable at one point on a path and the value at a prior point on the path.  The path is the continuously changing location and orientation of the device frame for the variable relative to the reference frame for the variable.  The prior point is the location at the time of the prior report or command.
Use Cases:
Identify the change in the Earth’s magnetic field reported by a magnetometer during the flight of the vehicle on which it is mounted.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ratio
	description:The “signalNoiseRatio” term indicates that a variable is a quotient of two quantities.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sinceEpoch
	description:The “sinceEpoch” term identifies the amount of time that has elapsed since a calendar epoch, so the data item that it describes is a date and time.
Use Cases:
Provide a time stamp on housekeeping data.
Specify the time when an action should be performed.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sinceSync
	description:The “sinceSync” term identifies the amount of time that has elapsed since the last synchronization signal.
Use Cases:
Identify the time at which a measurement was reported by a star tracker, relative to the last synchronization sent to the star tracker.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}differenceConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}command
	description:Variables with this interpretation are the verb of a command.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}difference
	description:Variables with this interpretation represent a difference between one physical quantity and another on the same scale.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}mode
	description:Variables with this interpretation represent a mode of operation of a device.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}name
	description:Variables with this interpretation are names of objects or variables in the management model of a system.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}orbit
	description:Variables with this interpretation define an orbit.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}position
	description:Variables with this interpretation represent a position in phase space.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}scope
	description:Variables with this interpretation represent a region or subset of a device.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}status
	description:Variables with this interpretation represent a status, such as an error condition, of a device.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformation
	description:Variables with this interpretation represent a change of coordinate systems.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}action
	description:A semantic type with purpose = action is a specific amount of action to be applied to the real world through an actuator.
Use Case:
Distinguish a torque to be applied to a reaction wheel from a stress measured by a strain gauge nearby.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}purpose
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}calibration
	description:A semantic type with purpose = calibration represents a number that is a measurement obtained through a calibration procedure.  It is a value obtained specifically for each instance of a device.
Use Cases:
Distinguish an adjustment from a measurement.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}purpose
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}measurement
	description:A semantic type with purpose = measurement is a measurement of the real world obtained by a sensor.
Use Cases:
Distinguish a set-point from a measurement to be controlled.
Distinguish a central value from a measured value.
Distinguish an adjustment from a measurement.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}purpose
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}nominal
	description:A semantic type with purpose = nominal is a number that is a non-specific central value over all instances of a device that result from a reproducible manufacturing process.
Use Cases:
Distinguish a central value from a measured value.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}purpose
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}setPoint
	description:A semantic type with purpose = set-point is a value to be achieved by a control system, or a setting to be applied to a component.
Use Cases:
Distinguish a set-point from a measurement to be controlled.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}purpose
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ECEF
	description:The acronym ECEF consists of the initials of Earth-centered, Earth fixed.  Data for Earth observation frequently refer to locations on the surface of the planet.  This term identifies the frame that rotates with the Earth to describe semantic types that represent data about the surface of the earth.
This reference frame must be accompanied by specification of coordinate type when used to describe a data item in an electronic data sheet.
Use Cases:
Specify the frame of latitude and longitude measurements.
Specify an approximate frame of geosynchronous spacecraft.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ECI
	description:The acronym ECI consists of the initials of Earth-centered, inertial.  The inertial frame of the Earth is generally based on the positions of remote stellar objects.  This reference frame is only approximately inertial, because of the acceleration of Earth to maintain its orbit. 
This reference frame must be accompanied by specification of coordinate type when used to describe a data item in an electronic data sheet.
Use Cases:
Specify the frame of the remote stars that form the basis for attitude measurement by a star tracker.
Specify the location of a vehicle in interplanetary flight.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}LVLH
	description:The acronym LVLH consists of the initials of local vertical, local horizontal.  This is the vehicle frame of an orbiter.  The LVLH frame typically uses a Cartesian coordinate type oriented so that the x axis points in the direction of flight, the z axis points toward nadir, and the y axis points to the right in the viewpoint of a person looking in the direction of flight, to make a right-handed rectangular coordinate system.
Use Cases:
Specify the frame from which a surveillance satellite observes the Earth.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}device
	description:Most measurements and actuations are made in the frame of the instrument.  This term identifies that frame to describe semantic types that represent measurements or actuations in the frame of a device.
Use Cases:
Specify the frame of torque of a reaction wheel.
Specify the frame of rotation in the transformation reported by a star tracker.
Specify the frame of measurement of a coarse sun sensor.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}externalObject
	description:The data managed by the command and data handling system of a vehicle often contains information about other objects, such as targets of surveillance or approaching vehicles.  An identifier of the external object should appear in the same aggregation relation with this reference frame, or in the electronic data sheet description of a data item.
Use Cases:
Exchange position and attitude information with an approaching vehicle during docking.
Distinguish the location of a ship at sea from the nadir point of an orbiter.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}mount
	description:When an instrument is attached to the structure of a spacecraft, there may be bracket that positions and orients the device relative to the vehicle.  The mount reference frame is the reference frame associated with the face of the bracket, or associated with the face of mounting point on the vehicle structure when no bracket is present.  In order to transform instrumentation measurements and actuations between device frame and vehicle frame, it is necessary to know the mounting frame as an intermediate step.
Use Cases:
Specify the frame in which a reaction wheel is mounted to the structure of a vehicle.
Specify the frame in which a star tracker is mounted to the structure of a vehicle.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transducer
	description:The transducer reference frame is a special variation on the device reference frame.  Some instruments contain multiple transducers.  For example, a three-axis magnetometer may consist of three one-axis magnetometers.  Usually, the one-axis transducers are arranged parallel to the coordinate axes of the device frame, so no transformation is needed to transform from measurement frame to mount frame.  However, some devices may have multiple transducers that are not so fortuitously positioned.  In that case, it is necessary to be able to refer to the reference frame of the transducers of a device.
Use Cases:
Specify the frame of a coarse sun sensor in a device that contains multiple coarse sun sensors arranged to face in non-orthogonal directions.
Specify the frame of each of the optical axes of a star tracker with multiple sights
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}vehicle
	description:The vehicle reference frame is the base from which a spacecraft conducts its mission.  Relations between sensors and actuators are computed through the vehicle frame.
Use Cases:
Control the direction in which an articulated antenna is pointing relative to the attitude of the vehicle.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}acquiring
	description:The "acquiring" relation to timestamp indicates that the timestamp is simultaneous with the acquisition of a datum.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}relationToTimestamp
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}generation
	description:The "generation" relation to timestamp indicates that the timestamp is simultaneous with the generation of a datum.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}relationToTimestamp
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}sending
	description:The "sending" relation to timestamp indicates that the timestamp is the time when the message that contains it was sent.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}relationToTimestamp
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}binaryStatus
	description:The binary status convention indicates whether a device is functioning correctly or erroneously.  The data item has the value 0 if no error is being detected, and it has the value 1 if an error is present.  Typically, the binary representation of such a variable would be bit or unsigned integer.
Use Cases:
The SOIS accelerometer interface uses this convention to report device status.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}statusConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}qualityFraction
	description:The quality fraction status convention indicates a fractional quality of service, with zero representing complete failure and 1 representing completely successful operation.  The method of computing this value is an algorithm that varies from device to device, and is explained in natural language in an unstructured text field in an electronic data sheet.
Use Cases:
Specify the quality of data produced by a star tracker.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}statusConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ternaryStatus
	description:The ternary status convention adds a warning state to the binary status.  The three states follow:
•	OK – no error detected
•	Warning – action (such as restart) is not needed
•	Severe – action (such as restart) is needed
Use Cases:	
Distinguish minor errors from major errors.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}statusConvention
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DCM
	description:The “DCM” value of the “transformation type” term specifies the following information for a semantic type:
•	coordinate system = rectangular
•	array size = (n, n), row-major order
•	unit of measure is not applicable
•	the transformation is computed by matrix multiplication
The elements of the matrix are interpreted as direction cosines.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}quaternion
	description:The “Quaternion” value of the “transformation type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian.
•	array size = 4.
•	unit of measure is not applicable
•	the transformation is computed by conjugation
The four coordinates are a scalar first, followed by three vector coordinates, corresponding to the orthogonal Cartesian coordinate axes x, y, and z, with the same chirality as the coordinate system.  Chirality of the coordinate system must be specified in an electronic data sheet when using this term.

	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rollPitchYaw
	description:The “roll-pitch-yaw” value of the “transformation type” term specifies the following information for a semantic type:
•	coordinate system is Cartesian, right-handed
•	array size = 3
•	unit of measure = degree
•	the transformation is computed by constructing a rotation based on the description below
The three coordinates are a variant of Euler angles, based on the convention that the Cartesian coordinates of the vehicle frame are aligned with LVLH.  The three coordinates are not distances in this coordinate system; rather they are rotation angles around the axes of the coordinate system.  Roll is rotation around the direction of flight (x).  Pitch is rotation around the y axis.  Yaw is rotation around the z axis.  All these rotations use the right-handed convention for sign.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}rotationRate
	description:The “rotation rate” value of the “transformation type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian
•	array size = n
•	unit of measure = angle / time
•	the transformation is generally not computed, because this vector is often used directly as a measurement and as a set point for an attitude control system
The vector represents the rate of rotation of the “to frame” relative to the “reference frame”.  The elements of the vector are the angular rates around each axis of the reference frame.  Chirality of the coordinate system must be specified in an electronic data sheet when using this term.  Unit of measure for the rate must also be specified in an electronic data sheet when using this term.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}translation
	description:The “translation” value of the “transformation type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian
•	array size = n
•	unit of measure = length
•	the transformation is computed by adding this vector to the vector in the reference frame
The elements of the vector are interpreted as changes in Cartesian coordinates.  The vector is not a position, but is a translation transformation that can be applied to position vectors by adding the translation coordinates to the position coordinates.  Chirality of the coordinate system must be specified in an electronic data sheet when using this term.  The unit of measure must also be specified in an electronic data sheet when using this term.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}velocity
	description:The “velocity” value of the “transformation type” term specifies the following information for a semantic type:
•	coordinate system = Cartesian
•	array size = n
•	unit of measure = length / time
•	the transformation is generally not computed, because this vector is often used directly as a measurement and as a set point for a navigation system
The vector represents the rate of translation of the “to frame” relative to the “reference frame”.  The elements of the vector are the linear speeds along each axis of the reference frame.  Chirality of the coordinate system must be specified in an electronic data sheet when using this term.  Unit of measure for the speed must also be specified in an electronic data sheet when using this term.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}transformationType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}CRC32
	description:x^{{32}}+x^{{26}}+x^{{23}}+x^{{22}}+x^{{16}}+x^{{12}}+x^{{11}}+x^{{10}}+x^{8}+x^{7}+x^{5}+x^{4}+x^{2}+x+1
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DoTErrorControlType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}DIP
	description:The design parameters are delivered to the component through dual in-line packaged switches.
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ICRF
	description:The International Celestial Reference Frame is heliocentric, with the origin at the barycenter of the solar system.  The ICRF is the frame for the International Celestial Reference System.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}referenceFrame
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toFrame
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}ICRS
	description:The International Celestial Reference System has its origin at the barycenter of the solar system.  The pole is defined by the International Astronomical Union models for precession and nutation.  The origin of right ascensions is the same as J2000.
•	coordinate system = azimuth, right ascension
•	array size = 2
•	unit of measure quantity kind = angle
•	reference frame = ICRF
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}coordinateType
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}toCoordinateType
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpWLogicalAddressRange
	description:A SpWLogicalAddressRange defines a range of logical addresses that can be used to address an endpoint on a SpaceWire link.
The syntax is low value followed by high value, separated by a colon.
The values are unsigned integers that can fit in an octet.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireParameter
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpWProtocolId
	description:A SpWProtocolId constrains the content and sequencing of data sent and received through a SpaceWire link.
One protocol id should be specified per interface, and the the interface describes the content of data sent and received on a SpaceWire link.  The state machine of the component that interacts across the interface describes the sequencing of data sent and received.
The format of a protocol id is an unisgned integer that fits in an octet, or one of the standard protocol names in {RMAP, CPTP}.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireParameter
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpWRMAPAddressRange
	description:A SpWRMAPAddressRange identifies a range of memory addresses in an endpoint that are accessible through the RMAP protocol.
The format of this specification is a list of memory ranges separated by commas.  Each memory range consists of a low value followed by a high value followed by a memory identifier followed by a spacewire RMAP write support code, with colons between.  The values and the memory identifier are unsigned integers.  The SpaceWire RMAP write support code is a string in {"ack", "ver"}.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireParameter
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpWReceiveRate
	description:A SpWReceiveRate defines a range of transfer rates at which an endpoint can receive data through a link.
The syntax is low value followed by high value, separated by a colon.
The values are integers, in units of Mbit/sec.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireParameter
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpWTransmitRate
	description:A SpWTransmitRate defines a range of transfer rates at which an endpoint can send data through a link.
The syntax is low value followed by high value, separated by a colon.
The values are integers, in units of Mbit/sec.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireParameter
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireAlwaysEnabled
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLinkEnablement
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireAutoStart
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLinkEnablement
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireOutOfBandEnable
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireLinkEnablement
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWriteAcknowledged
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWriteSupport
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWriteVerified
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}SpaceWireRMAPWriteSupport
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}config
	description:The design parameters are delivered to the component through a configuration file.
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}controlling
	description:The controller is activiely attempting to achieve it set point.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}tecOperatingMode
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}define
	description:The design parameters are delivered to the component when its software is compiled, using constants, such as #define statements in c.
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}fractionOfMaximum
	description:A fraction of maximum is a number in which the value 0 represents the minimum value of a scale, and the value 1 represents the maximum value of the scale.  The minimum and maximum values of the scale must be explained separately.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}UnitsNotYetIntegratedIntoQUDV
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}groundStation
	description:This kind of reference names a ground station.
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthGood
	description:A device in good health is operating correctly, without no errors detected.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthStatus
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthSevereWarning
	description:A severe health warning indicates that errors have been detected and reset is recommended.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthStatus
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthWarning
	description:A health warning indicates that some errors have been detected by reset is not required.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}healthStatus
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}inBand
	description:The controller is within the specified tolerance of its set point.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}tecOperatingMode
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}jumper
	description:The design parameters are delivered to the component through jumpers.
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}notOperational
	description:The device is not operating.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerOperatingMode
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}tecOperatingMode
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerAcquiring
	description:The star tracker is comparing the image in its focal plane to know configurations of stars, but has not yet recognized the image.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerOperatingMode
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerReportingRates
	description:The star tracker is reporting the angular rate vector.  This condition implies that the star tracker is tracking or acquiring.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerOperatingMode
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerTracking
	description:The star tracker has recognized the configuration of stars in its image, and is reporting its attitude.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}starTrackerOperatingMode
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}validityPeriod
	description:This interpretation can be assigned to a time duration argument in a command, in order to define the period of time allowed for execution of the command.  Better never than late.
	type:
	{http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}interpretation
Individual {http://www.ccsds.org/ontologies/2013/1/eds.semantics.owl#}vehicleReferenceNumber
	description:This kind of reference identifies a vehicle in a fleet of vehicles.  For example, a GPS receiver carries a table of the satellites in the global positioning system with the orbital parameters for each satellite.  An index into that table is a vehicle reference number.
Individual 4
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
	type:
	{http://www.w3.org/2002/07/owl#}AllDisjointClasses
Individual 5
	type:
	{http://www.w3.org/1999/02/22-rdf-syntax-ns#}Description
	type:
	{http://www.w3.org/2002/07/owl#}AllDifferent
