lemon

IRI:
http://lemon-model.net/lemon
Other visualisation:
Ontology source

Abstract

Lemon: The lexicon model for ontologies is designed to allow for descriptions of lexical information regarding ontological elements and other RDF resources. Lemon covers mapping of lexical decomposition, phrase structure, syntax, variation, morphology, and lexicon-ontology mapping.

Table of Content

  1. Classes
  2. Object Properties
  3. Data Properties
  4. Namespace Declarations

Classes

Argumentc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Argument

A slot representing a gap that must be filled in realising a lexical entry in a given projection
has super-classes
lemon elementc
Phrase elementc
is in domain of
Markerop, Optionaldp
is in range of
Instance ofop, Object of propertyop, Semantic argumentop, Subject of propertyop, Syntactic argumentop
is disjoint with
Componentc, Formc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

Componentc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Component

A constituent element of a lexical entry. This may be a word in a multi-word lexical element or a constituent of a compound word
has super-classes
lemon elementc
Phrase elementc
Elementop max 1
is in domain of
Elementop
is disjoint with
Argumentc, Formc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

component listc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#ComponentList

A node within a list of components. This should generally be a blank node,see rdf:List
has super-classes
error1917c
error1918c
listc
restop only component listc or ({ nil })
firstop only Componentc
is in range of
Decompositionop

Conditionc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#SenseCondition

Indicates a logical condition that is used indicate when a particular term has the given meaning
has super-classes
lemon elementc

Constituentc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#NodeConstituent

The class of constituents, that is types applied to nodes in a phrase structure graph
has super-classes
lemon elementc
is in range of
Constituentop

Contextc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#SenseContext

Indicates the context in which a term is to be used. The context refers not to the immediate syntactic context, but the document and register the document is used in
has super-classes
lemon elementc

Definitionc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#SenseDefinition

A definition of a sememe, that is the a text describing the exact meaning of the lexical entry when its sense is the given ontology reference
has super-classes
lemon elementc
Valuedp min 1
is in range of
Definitionop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Property Valuec, Syntactic role markerc, Usage Examplec

Formc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Form

A given written or spoken realisation of a lexical entry
has super-classes
lemon elementc
Representationdp min 1
is in domain of
Form variantop, Representationdp, Written representationdp
is in range of
Abstract formop, Canonical formop, Form variantop, Lexical formop, Other formop
is disjoint with
Argumentc, Componentc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

Framec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Frame

A stereotypical example of the usage of a given lexical entry. The most common example of projections are subcategorization frames which describe the slots taken by the arguments of a verb.
has super-classes
lemon elementc
is in domain of
Syntactic argumentop
is in range of
Syntactic behaviorop
is disjoint with
Argumentc, Componentc, Formc, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

Generatesc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#generates

has super-classes
Ruledp min 1
is also defined as
object property

has languagec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#HasLanguage

Structural element for all elements that can be tagged with a language
has super-classes
lemon elementc
has sub-classes
Lexical entryc, Lexiconc, Morphological patternc
is in domain of
Languagedp

has patternc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#HasPattern

has super-classes
lemon elementc
has sub-classes
Lexical entryc, Lexiconc
is in domain of
Patternop

Lexical Conditionc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#LexicalCondition

An evaluable condition on when a sense applies.
has super-classes
lemon elementc
is in range of
Conditionop

Lexical Contextc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#LexicalContext

Indicates the pragmatic or discourse context in which a sense applies
has super-classes
lemon elementc
is in range of
Contextop

Lexical entryc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#LexicalEntry

An entry in the lexicon. This may be any morpheme, word, compound, phrase or clause that is included in the lexicon
has super-classes
has languagec
has patternc
lemon elementc
Canonical formop max 1
Lexical formop min 1
has sub-classes
Part of wordc, Phrasec, Wordc
is in domain of
Abstract formop, Canonical formop, Decompositionop, Lexical formop, Lexical variantop, Other formop, Phrase rootop, Senseop, Syntactic behaviorop
is in range of
Elementop, Entryop, Lexical variantop, Sense ofop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical sensec, Lexiconc, Nodec, Property Valuec, Definitionc, Usage Examplec

Lexical sensec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#LexicalSense

Represents the intersection in meaning between the lexical entry and the ontology entity. This is used as the ontology entity and lexical entry may not be in one-to-one correspondence as such the existence of a sense between them states meerly that there are some cases when this lexical entry refer to the ontology entity and vica versa. Mapping elements can be used to further specify this relation
has super-classes
lemon elementc
(Subsenseop min 1) or (Referenceop exactly 1)
is in domain of
Broaderop, Conditionop, Contextop, Definitionop, Equivalentop, Exampleop, Incompatibleop, Instance ofop, Narrowerop, Object of propertyop, Property domainop, Property rangeop, Referenceop, Semantic argumentop, Sense ofop, Sense relationop, Subject of propertyop, Subsenseop
is in range of
Alternative reference ofop, Broaderop, Equivalentop, Hidden reference ofop, Incompatibleop, Narrowerop, Preferred reference ofop, Reference ofop, Senseop, Sense relationop, Subsenseop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical entryc, Lexiconc, Nodec, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

Lexical Topicc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#LexicalTopic

Indicates the topic of a lexicon or a lexical entry
has super-classes
lemon elementc
is in range of
Topicop

Lexiconc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Lexicon

The lexicon object. This object is specific to the given language and/or domain it describes
has super-classes
has languagec
has patternc
lemon elementc
Entryop min 1
Languagedp exactly 1
is in domain of
Entryop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical entryc, Lexical sensec, Nodec, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

Morphological patternc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#MorphPattern

has super-classes
has languagec
lemon elementc
is in domain of
Transformop
is in range of
Patternop

Morphological Transformc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#MorphTransform

has super-classes
lemon elementc
is in domain of
Generatesop, Next transformop, Ruledp
is in range of
Next transformop, Transformop

Nodec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Node

A node in a phrase structure or dependency parse graph
has super-classes
lemon elementc
(Edgeop min 1) or (Leafop min 1)
is in domain of
Constituentop, Edgeop, Leafop, Separatordp
is in range of
Edgeop, Phrase rootop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Property Valuec, Definitionc, Syntactic role markerc, Usage Examplec

Part of wordc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Part

An affix is a morpheme that is attached to a word stem to form a new word. Use this for lexical entries with only abstract forms
has super-classes
Lexical entryc

Phrasec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Phrase

A phrase in lemon is defined in the looser sense of a sequence of words, it does not have to a fully grammatical phrase
has super-classes
Lexical entryc
Decompositionop min 1

Phrase elementc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#PhraseElement

A terminal node in a phrase structure graph, i.e., a realisable, lexical element.
has super-classes
lemon elementc
has sub-classes
Argumentc, Componentc
is in range of
Leafop

Property Valuec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#PropertyValue

A value that can be used in the range of linguistic property
has super-classes
lemon elementc
is in range of
Lexical propertyop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Definitionc, Usage Examplec

Prototypec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Prototype

has super-classes
lemon elementc
is in range of
Generatesop

Syntactic role markerc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#SynRoleMarker

The indicator of a given syntactic argument, normally a preposition or other particle marker or a linguistic property such as case
has super-classes
lemon elementc
Lexical entryc or Property Valuec
is in range of
Markerop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical sensec, Lexiconc, Nodec, Definitionc, Usage Examplec

Usage Examplec back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#UsageExample

An example of the usage of a lexical entry when refering to the ontology entity given by the sememe's reference. This should in effect be an example of the form used in context. E.g., "this is a *usage example*"
has super-classes
lemon elementc
Valuedp min 1
is in range of
Exampleop
is disjoint with
Argumentc, Componentc, Formc, Framec, Lexical entryc, Lexical sensec, Lexiconc, Nodec, Property Valuec, Definitionc, Syntactic role markerc

Wordc back to ToC or Class ToC

IRI: http://lemon-model.net/lemon#Word

A word is a single unit of writing or speech. In languages written in Latin, Cyrillic, Greek, Arabic scripts etc. these are assumed to be separated by white-space characters. For Chinese, Japanese, Korean this should correspond to some agreed segmentation scheme.
has super-classes
Lexical entryc

Object Properties

Abstract formop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#abstractForm

A representation of a lexical entry that should not be considered canonical. This is primarily from a linguistic view for non-realisable forms such as stems but may also include misspellings and other unusual forms
has super-properties
Lexical formop
has domain
Lexical entryc
has range
Formc

Alternative reference ofop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#altRef

The sense of a non-preferred but admissible lexicalization of a given ontology entity
has super-properties
Reference ofop
has range
Lexical sensec

Broaderop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#broader

Denotes that one sense is broader than another. From a lexical point of view this means replacing one lexical entry with another generalizes the meaning of the phrase. From an ontological point of view this property makes not strong assertions. From a mapping point of view if the broader sense applies the narrower sense must also
has super-properties
Sense relationop
has domain
Lexical sensec
has range
Lexical sensec
is inverse of
Narrowerop

Canonical formop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#canonicalForm

The canonical ("dictionary") form of the lexical entry. This can be used to indicate the "lemma" form of a lexical entry

has characteristics: functional

has super-properties
Lexical formop
has domain
Lexical entryc
has range
Formc

Conditionop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#condition

Indicates an evaluable test, the is necessary for this sense to apply
has sub-properties
Property domainop, Property rangeop
has domain
Lexical sensec
has range
Lexical Conditionc

Constituentop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#constituent

has super-properties
top object property
has domain
Nodec
has range
Constituentc

Contextop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#context

Denotes the pragmatic or discursive context of a sense mapping or a constraint on the mapping by syntactic or semantic properites
has domain
Lexical sensec
has range
Lexical Contextc

Decompositionop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#decomposition

Denotes a component of a lexical entry
has domain
Lexical entryc
has range
component listc

Definitionop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#definition

Indicates a natural language definition. Note there is a pseudo-node to allow for further description of the definition (e.g., source, creation date etc.). The value property should be used to indicate the string value of the definition.
has domain
Lexical sensec
has range
Definitionc

Edgeop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#edge

Denotes the relation between a node in a multi-word expression structure and an edge
has domain
Nodec
has range
Nodec

Elementop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#element

Denotes the lexical entry represented by the component

has characteristics: functional

has domain
Componentc
has range
Lexical entryc

Entryop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#entry

Indicates an entry in a lexicon
has domain
Lexiconc
has range
Lexical entryc

Equivalentop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#equivalent

Indicates that two senses are equivalent. From a lexical point of view , this indicates that the lexical entries can be substituted for each other with no change in meaning. From an ontological point of view it means that the two references are not disjoint. From a mapping point of view it means if one mapping apply the other must necessarily apply

has characteristics: symmetric, transitive

has super-properties
Sense relationop
has domain
Lexical sensec
has range
Lexical sensec

Exampleop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#example

has domain
Lexical sensec
has range
Usage Examplec

Extrinsic argumentop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#extrinsicArg

A raisable semantic argument is not in fact the semantic argument of the current frame-sense but instead is "raised" into a frame-sense used for an argument. For example the phrase "John seemed to be happy", is interpreted as "it seemed that X" where X is "John is happy", hence the subject of "seem" is a raisable argument.
has super-properties
Semantic argumentop

Form variantop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#formVariant

has domain
Formc
has range
Formc

Generatesop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#generates

has domain
Morphological Transformc
has range
Prototypec
is also defined as
class

Hidden reference ofop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#hiddenRef

The sense of a non-admissible lexicalization for a ontology entity. This is used to denote incorrect or deprecated language that may be useful for information extraction but not generation
has super-properties
Reference ofop
has range
Lexical sensec

Incompatibleop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#incompatible

Says that the two senses are disjoint. From a lexical point of view, this means substituting the lexical entries must change the meaning of the phrase. From an ontological point of view, this property is implied if both references are also disjoint, but does not imply disjointness, but non-equivalence of the references. For the mapping point of view there is not instance when both mappings are valid.

has characteristics: symmetric

has super-properties
Sense relationop
has domain
Lexical sensec
has range
Lexical sensec

Instance ofop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#isA

Denotes that the single argument of a class predicate is represented in the lexicon by the given semantic argument. That is Class(?x) or ?x rdf:type Class
has super-properties
Semantic argumentop
has domain
Lexical sensec
has range
Argumentc

Leafop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#leaf

Denotes the component referred to by the lex (pre-terminal) of the phrase structure
has domain
Nodec
has range
Phrase elementc

Lexical formop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#lexicalForm

Denotes a written representation of a lexical entry

has characteristics: inverse functional

has sub-properties
Abstract formop, Canonical formop, Other formop
has domain
Lexical entryc
has range
Formc

Lexical propertyop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#property

Denotes a lexical property of a lexical entry, form, component or MWE node. For the lexical entry this is assumed to be static properties e.g., part of speech and gender and for the others this is assumed to be specific properties e.g., case, number
has domain
lemon elementc
has range
Property Valuec

Lexical variantop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#lexicalVariant

Indicates a non-semantic relationship between two lexical entries. E.g., a term is derived from another term, such as "lexical" and "lexicalize"
has domain
Lexical entryc
has range
Lexical entryc

Markerop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#marker

Denotes the marker of a semantic argument. This should generally either be a semantic property i.e., case or another lexical entry e.g., a preposition or particle
has domain
Argumentc
has range
Syntactic role markerc

Narrowerop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#narrower

Denotes that one sense is narrower than another. From a lexical point of view this means replacing one lexical entry with another specializes the meaning of the phrase. From an ontological point of view this property makes not strong assertions. From a mapping point of view if the broader sense applies the narrower sense must also
has super-properties
Sense relationop
has domain
Lexical sensec
has range
Lexical sensec
is inverse of
Broaderop

Next transformop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#nextTransform

has domain
Morphological Transformc
has range
Morphological Transformc

Object of propertyop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#objOfProp

Indicates the semantic argument which represents the objects (ranges) of the property referred to by this sense
has super-properties
Semantic argumentop
has domain
Lexical sensec
has range
Argumentc

Other formop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#otherForm

A non-preferred ("non-dictionary") representation of a lexical entry. This should be variant that is either a morphological variant, an abbreviation, short form or acronym
has super-properties
Lexical formop
has domain
Lexical entryc
has range
Formc

Patternop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#pattern

has domain
has patternc
has range
Morphological patternc

Phrase rootop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#phraseRoot

Indicates the head node of a phrase structure or dependency parse graph
has domain
Lexical entryc
has range
Nodec

Preferred reference ofop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#prefRef

The sense of the preferred lexicalization of a given ontology entity
has super-properties
Reference ofop
has range
Lexical sensec

Property domainop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#propertyDomain

Indicates a restrictions on the domain of the property. That is, this sense only applies if the property the sense refers to has a subject in the class referred to by this property
has super-properties
Conditionop
has domain
Lexical sensec

Property rangeop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#propertyRange

Indicates a restrictions on the range of the property. That is, this sense only applies if the property the sense refers to has a object in the class referred to by this property
has super-properties
Conditionop
has domain
Lexical sensec

Referenceop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#reference

A reference to an external resource

has characteristics: functional

has domain
Lexical sensec
is inverse of
Reference ofop

Reference ofop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#isReferenceOf

Indicate that a reference has a given sense
has sub-properties
Alternative reference ofop, Hidden reference ofop, Preferred reference ofop
has range
Lexical sensec
is inverse of
Referenceop

Semantic argumentop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#semArg

Denotes a semantic argument slot of a semantic unit
has sub-properties
Extrinsic argumentop, Instance ofop, Object of propertyop, Subject of propertyop
has domain
Lexical sensec
has range
Argumentc

Senseop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#sense

Indicates the sense of a lexical entry
has domain
Lexical entryc
has range
Lexical sensec
is inverse of
Sense ofop

Sense ofop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#isSenseOf

Indicate that a sense is realised by the given lexical entry
has domain
Lexical sensec
has range
Lexical entryc
is inverse of
Senseop

Sense relationop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#senseRelation

Denotes a relationship between senses
has sub-properties
Broaderop, Equivalentop, Incompatibleop, Narrowerop
has domain
Lexical sensec
has range
Lexical sensec

Subject of propertyop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#subjOfProp

Indicates the semantic argument which represents the subjects (domain) of the property referred to by this sense
has super-properties
Semantic argumentop
has domain
Lexical sensec
has range
Argumentc

Subsenseop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#subsense

Indicates that the relation between a compound sense and its atomic subsenses
has domain
Lexical sensec
has range
Lexical sensec

Syntactic argumentop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#synArg

Indicates a slot in a syntactic frame
has domain
Framec
has range
Argumentc

Syntactic behaviorop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#synBehavior

Indicates a syntactic behavior of a lexical entry
has domain
Lexical entryc
has range
Framec

Topicop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#topic

Indicates the topic of the overrall lexicon, this is property is sometimes called "subject field". Note that in addition to the topic of a lexicon each lexical entry may belong to a given domain, this can be modelled as equal or not equal to the topic of the associated lexicon
has domain
Lexical entryc or Lexiconc
has range
Lexical Topicc

Transformop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#transform

has domain
Morphological patternc
has range
Morphological Transformc

Treeop back to ToC or Object Property ToC

IRI: http://lemon-model.net/lemon#tree

Data Properties

Languagedp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#language

The language of a given lexicon. This should be some ISO-639 string
has domain
has languagec
has range
string

Optionaldp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#optional

Denotes that the syntactic argument is optional (may be omitted)
has domain
Argumentc
has range
boolean

Representationdp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#representation

A realisation of a given form
has sub-properties
Written representationdp
has domain
Formc
has range
string

Ruledp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#rule

has domain
Morphological Transformc
has range
string

Separatordp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#separator

Indicates the graphical element used to seperate the subnodes of this phrase structure. It is generally recommended that you use a string value with the language tag used to indicate script, (i.e., using ISO-15924 codes, such as "Latn"), as orthographic features may change with script.
has domain
Nodec
has range
string

Valuedp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#value

This indicates the value of a pseudo-data node. An example of this is definition where the value would generally be a string but it would not be possible to add further annotations, such as source or creation date.

Written representationdp back to ToC or Data Property ToC

IRI: http://lemon-model.net/lemon#writtenRep

Gives the written representation of a given form
has super-properties
Representationdp
has domain
Formc
has range
string

Namespace Declarations back to ToC

default namespace
http://lemon-model.net/lemon#
error
http://org.semanticweb.owlapi/error#
lemon-model-net
http://lemon-model.net/
owl
http://www.w3.org/2002/07/owl#
rdf
http://www.w3.org/1999/02/22-rdf-syntax-ns#
rdfs
http://www.w3.org/2000/01/rdf-schema#
www-monnet-project-eu
http://www.monnet-project.eu/
xsd
http://www.w3.org/2001/XMLSchema#

This HTML document was obtained by processing the OWL ontology source code through LODE, Live OWL Documentation Environment, developed by Silvio Peroni.