Sewer Network Ontology (SewerNet)

Classes

abstract^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#abstract

The main characteristic of abstract entities is that they do not have spatial nor temporal qualities, and they are not qualities themselves. The only class of abstract entities we consider in the present version of the upper ontology is that of quality regions (or simply regions). Quality spaces are special kinds of quality regions, being mereological sums of all the regions related to a certain quality type. The other examples of abstract entities (sets and facts) are only indicative.

has super-classes: particular^c; has quality^op only not (spatial location q^c); has quality^op only not (temporal location q^c)
has sub-classes: proposition^c, region^c, set^c
is disjoint with: endurant^c, perdurant^c, quality^c

abstract quality^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#abstract-quality

A quality inherent in a non-physical endurant.

has super-classes: quality^c; inherent in^op some non physical endurant^c; has quality^op only abstract quality^c; q location^op only abstract region^c
is disjoint with: physical quality^c, temporal quality^c

abstract region^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#abstract-region

A region at which only abstract qualities can be directly located. It assumes some metrics for abstract (neither physical nor temporal) properties.

has super-classes: region^c; part^op only abstract region^c; q location of^op only abstract quality^c
is in domain of: abstract location of^op
is in range of: abstract location^op
is disjoint with: physical region^c, temporal region^c

accomplishment^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#accomplishment

Eventive occurrences (events) are called achievements if they are atomic, otherwise they are accomplishments.Further developments: being 'achievement', 'accomplishment', 'state', 'event', etc. can be also considered 'aspects' of processes or of parts of them. For example, the same process 'rock erosion in the Sinni valley' can be seen as an accomplishment (what has brought the current state that e.g. we are trying to explain), as an achievement (the erosion process as the result of a previous accomplishment), as a state (collapsing the time interval of the erosion into a time point), as an event (what has changed our focus from a state to another).In the erosion case, we could have good motivations to shift from one aspect to another: a) causation focus, b) effectual focus, c) condensation d) transition (causality).

has super-classes: event^c
has sub-classes: Inspection^c, Maintenance^c

achievement^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#achievement

has super-classes: event^c
has sub-classes: Geolocalization^c, Incident^c, Réparation^c

Altitude^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Elevation

has super-classes: spatial location q^c; inherent in^op some Parts of Conduits and Nodes^c; inherent in^op some Nœud^c
has sub-classes: Altitude du radier^c, Altitude mesurée au tampon^c

Altitude du radier^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#InvertElevation

has super-classes: Altitude^c; inherent in^op some Regard^c

Altitude mesurée au tampon^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#RimElevation

has super-classes: Altitude^c; inherent in^op some Regard^c

amount of matter^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#amount-of-matter

The common trait of amounts of matter is that they are endurants with no unity (according to Gangemi et a. 2001 none of them is an essential whole). Amounts of matter - 'stuffs' referred to by mass nouns like 'gold', 'iron', 'wood', 'sand', 'meat', etc. - are mereologically invariant, in the sense that they change their identity when they change some parts.

has super-classes: physical endurant^c
has sub-classes: Matériau^c, Type d'eaux usées^c
is disjoint with: feature^c, physical object^c

arbitrary sum^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#arbitrary-sum

AKA arbitrary-collection.The mereological sum of any two or more endurants (physical or not). Arbitrary sums have no unity criterion (they are 'extensional').

has super-classes: endurant^c; part^op some endurant^c
is disjoint with: non physical endurant^c, physical endurant^c

Arrêt de service^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Disused

The facility is no longer used, but is not being or has not been decommissioned.

has super-classes: Etat de service du patrimoine^c

Arrêt définitif de service (abandon)^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Decommissioned

The facility is no longer used and is being or has been decommissioned.

has super-classes: Etat de service du patrimoine^c

attribute author^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#AttributeAuthor

Auteur de la saisie des données attributaires (lorsque différent de l'auteur de la géolocalisation)

has super-classes: social object^c; participant in^op some Geolocalization^c

Béton^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Concrete

It includes among others: reinforced concrete, composite concrete, prestressed reinforced concrete

has super-classes: Matériau^c
is disjoint with: Ciment^c, Verre^c, Maçonné^c, Métal^c, Pierre meulière^c, Plastique^c

Canal^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Channel

An open conduit that directs flow

has super-classes: Canalisation^c

Canalisation^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Conduit

Ensemble de tuyaux joints par leurs extrémités, de caractéristiques physiques (diamètre, matériau, etc.) identiques, représenté spatialement par une ligne.

has super-classes: Élément de réseau^c; specific constant constituent^op some Matériau^c; weak connection^op some Nœud^c; generic dependent^op some Fonction Canalisation Assainissement^c; has quality^op some Mode Circulation^c; has quality^op some Diametre Nominal^c; has quality^op some Dimension^c; has quality^op some Sens Ecoulement^c; has quality^op some Longueur^c; has quality^op some Forme^c; has quality^op some Pente^c
has sub-classes: Canal^c, Tuyau^c

Casse longitudinale^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#LongitudinalBreakage

Canalisation fendue sur sa longueur

has super-classes: Défaillance^c

Casse nette^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#NetBreakage

Canalisation cassée

has super-classes: Défaillance^c

Catégorie Canalisation Assainissement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ConduitCategory

Nature des eaux véhiculées par une canalisation d'assainissement collectif

has super-classes: non physical object^c; has bearer^op some Canalisation^c; generically dependent on^op some Type d'eaux usées^c
has sub-classes: Eaux pluviales^c, Eaux usées^c, Unitaire^c

Ciment^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Cement

has super-classes: Matériau^c
is disjoint with: Béton^c, Verre^c, Maçonné^c, Métal^c, Pierre meulière^c, Plastique^c

Collecte^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Collection

mainly used for collection of sewage water

has super-classes: Fonction Canalisation Assainissement^c
is disjoint with: Transport^c

coordinate^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Coordinate

Coordonnée

has super-classes: space region^c; q location of^op some Géométrie^c
has sub-classes: x coordinate^c, y coordinate^c

Date-time interval^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#DateTimeInterval

DateTimeInterval is a subclass of ProperInterval, defined using the multi-element DateTimeDescription.

has super-classes: Proper interval^c

dependent place^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#dependent-place

A feature that is not part of its host, like a hole in a piece of cheese, the underneath of a table, the front of a house, or the shadow of a tree.

has super-classes: feature^c

Detention Basin^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#RetentionBasin

Ouvrage de stockage d'eaux usées et/ou pluviales

has super-classes: Ouvrage^c
is disjoint with: Rejet^c, Drain, Gully^c, Regard^c, Station de pompage^c, Weir, Spillway^c, Station d'épuration^c

Diametre Nominal^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Diameter

has super-classes: physical quality^c; inherent in^op some Canalisation^c; inherent in^op some Tampon de regard^c

Dimension^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Dimension

has super-classes: physical quality^c; inherent in^op some Canalisation^c

Drain, Gully^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Inlet

has super-classes: Ouvrage^c
is disjoint with: Rejet^c, Regard^c, Station de pompage^c, Detention Basin^c, Weir, Spillway^c, Station d'épuration^c

Duration description^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#DurationDescription

Description of temporal extent structured with separate values for the various elements of a calendar-clock system. The temporal reference system is fixed to Gregorian Calendar, and the range of each of the numeric properties is restricted to xsd:decimal

has super-classes: Generalized duration description^c
has sub-classes: year^c

Débitmètre^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Flowmeter

Appareil de mesure des débits transités

has super-classes: Equipment, Fittings^c
is disjoint with: Ventouse^c, Point de branchement^c, Vanne^c

Déboîtement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Dislocation

Déboîtement de tuyau(x) de la canalisation

has super-classes: Défaillance^c

Défaillance^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#PipelineDefect

Type de la défaillance ayant rendu nécessaire une réparation

has super-classes: feature^c; part of^op some Élément de réseau^c; participant in^op some Réparation^c
has sub-classes: Casse longitudinale^c, Casse nette^c, Déboîtement^c, Fissure^c, Joint^c, Percement^c

Eau de récupération^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ReclaimedWater

Reclaimed water, sometimes called recycled water, is former wastewater (sewage) that has been treated to remove solids and certain impurities, and then used in sustainable landscaping irrigation or to recharge groundwater aquifers.

has super-classes: Type d'eaux usées^c

Eaux pluviales^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#StormwaterConduit

Canalisation véhiculant des eaux pluviales

has super-classes: Catégorie Canalisation Assainissement^c
is disjoint with: Unitaire^c, Eaux usées^c

Eaux usées^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#SanitaryWastewater

Sanitary sewers remove waste products from peoples' home and send them underground to a treatment plant.

has super-classes: Type d'eaux usées^c

Eaux usées^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#WastewaterConduit

Canalisation véhiculant des eaux usées

has super-classes: Catégorie Canalisation Assainissement^c
is disjoint with: Unitaire^c, Eaux pluviales^c

Eaux usées^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#WastewaterNetwork

Réseau de collecte de seules eaux usées

has super-classes: Type Réseau Assainissement^c
is disjoint with: Unitaire^c, Pluvial^c

Eaux usées combinée^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#CombinedWastewater

A combined wastewater sewer is a type of sewer system that collects sanitary sewage and stormwater runoff in a single pipe system.

has super-classes: Type d'eaux usées^c

En construction^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#UnderConstruction

The facility is under construction and not yet functional. This applies only to the initial construction of the facility and not to maintenance work

has super-classes: Etat de service du patrimoine^c

En projet^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Projected

The facility is being designed. Construction has not yet started.

has super-classes: Etat de service du patrimoine^c

En service^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Functional

The facility is functional.

has super-classes: Etat de service du patrimoine^c

endurant^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#endurant

The main characteristic of endurants is that all of them are independent essential wholes. This does not mean that the corresponding property (being an endurant) carries proper unity, since there is no common unity criterion for endurants. Endurants can 'genuinely' change in time, in the sense that the very same endurant as a whole can have incompatible properties at different times. To see this, suppose that an endurant - say 'this paper' - has a property at a time t 'it's white', and a different, incompatible property at time t' 'it's yellow': in both cases we refer to the whole object, without picking up any particular part of it. Within endurants, we distinguish between physical and non-physical endurants, according to whether they have direct spatial qualities. Within physical endurants, we distinguish between amounts of matter, objects, and features.

has super-classes: spatio temporal particular^c; participant in^op some perdurant^c; part^op only endurant^c; specific constant constituent^op only endurant^c
has sub-classes: arbitrary sum^c, non physical endurant^c, physical endurant^c
is in domain of: constant participant in^op, life^op, mereologically coincides^op, participant in^op, temporary atomic part^op, temporary atomic part of^op, temporary part^op, temporary part of^op, temporary participant in^op, temporary proper part^op, temporary proper part of^op, total constant participant in^op, total temporary participant in^op
is in range of: constant participant^op, life of^op, mereologically coincides^op, participant^op, temporary atomic part^op, temporary atomic part of^op, temporary part^op, temporary part of^op, temporary participant^op, temporary proper part^op, temporary proper part of^op, total constant participant^op, total temporary participant^op
is disjoint with: abstract^c, perdurant^c, quality^c

Equipment, Fittings^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Apparatus

Subclasses include the msot common apparatus.

has super-classes: Nœud^c
has sub-classes: Débitmètre^c, Point de branchement^c, Vanne^c, Ventouse^c

Etat de service du patrimoine^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#UtilityObjectStatus

The status of an object with regards to its completion and use

has super-classes: state^c; participant^op some Élément de réseau^c; participant^op some Parts of Conduits and Nodes^c
has sub-classes: Arrêt de service^c, Arrêt définitif de service (abandon)^c, En construction^c, En projet^c, En service^c

event^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#event

An occurrence-type is stative or eventive according to whether it holds of the mereological sum of two of its instances, i.e. if it is cumulative or not. A sitting occurrence is stative since the sum of two sittings is still a sitting occurrence.In general, events differ from situations because they are not assumed to have a description from which they depend. They can be sequenced by some course, but they do not require a description as a unifying criterion.On the other hand, at any time, one can conceive a description that asserts the constraints by which an event of a certian type is such, and in this case, it becomes a situation.Since the decision of designing an explicit description that unifies a perdurant depends on context, task, interest, application, etc., when aligning an ontology do DLP, there can be indecision on where to align an event-oriented class. For example, in the WordNet alignment, we have decided to put only some physical events under 'event', e.g. 'discharge', in order to stress the social orientedness of DLP. But whereas we need to talk explicitly of the criteria by which we conceive discharge events, these will be put under 'situation'.Similar considerations are made for the other types of perdurants in DOLCE.A different notion of event (dealing with change) is currently investigated for further developments: being 'achievement', 'accomplishment', 'state', 'event', etc. can be also considered 'aspects' of processes or of parts of them. For example, the same process 'rock erosion in the Sinni valley' can be conceptualized as an accomplishment (what has brought the current state that e.g. we are trying to explain), as an achievement (the erosion process as the result of a previous accomplishment), as a state (if we collapse the time interval of the erosion into a time point), or as an event (what has changed our focus from a state to another).In the erosion case, we could have good motivations to shift from one aspect to another: a) causation focus, b) effectual focus, c) condensation d) transition (causality).If we want to consider all the aspects of a process together, we need to postulate a unifying descriptive set of criteria (i.e. a 'description'), according to which that process is circumstantiated in a 'situation'. The different aspects will arise as a parts of a same situation.

has super-classes: perdurant^c
has sub-classes: accomplishment^c, achievement^c

Extrémité du conduit amont^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#UpstreamConduitExtremity

Starting point of a conduit (initial point)

has super-classes: Point de conduite^c

Extrémité du conduit aval^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#DownstreamConduitExtremity

Final point of a conduit (terminal point)

has super-classes: Point de conduite^c

feature^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#feature

Features are 'parasitic entities', that exist insofar their host exists. Typical examples of features are holes, bumps, boundaries, or spots of color. Features may be relevant parts of their host, like a bump or an edge, or dependent regions like a hole in a piece of cheese, the underneath of a table, the front of a house, or the shadow of a tree, which are not parts of their host. All features are essential wholes, but no common unity criterion may exist for all of them. However, typical features have a topological unity, as they are singular entities.Here only features of physical endurants are considered.

has super-classes: physical endurant^c; host^op some physical endurant^c
has sub-classes: Défaillance^c, dependent place^c, relevant part^c
is in domain of: host^op
is in range of: host of^op
is disjoint with: amount of matter^c, physical object^c

Fissure^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Crack

Canalisation fissurée

has super-classes: Défaillance^c

Fonction Canalisation Assainissement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ConduitFunction

Fonction dans le réseau d'une canalisation d'assainissement collectif

has super-classes: non physical object^c; generically dependent on^op some Canalisation^c
has sub-classes: Collecte^c, Transport^c

Forcé^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ForceMain

L'eau circule sous pression dans la canalisation grâce à un système de pompage

has super-classes: Mode Circulation^c
is disjoint with: Gravitaire^c, Sous-vide^c

Forme^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Shape

has super-classes: physical quality^c; inherent in^op some Canalisation^c

Generalized duration description^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#GeneralDurationDescription

Description of temporal extent structured with separate values for the various elements of a calendar-clock system.

has super-classes: Temporal duration^c
has sub-classes: Duration description^c
is in range of: has duration description^op

Geolocalization^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Geolocation

The act of locating objects.

has super-classes: achievement^c; has quality^op some Qualité Géolocalisation^c; participant^op some attribute author^c; participant^op some Élément de réseau^c; participant^op some Parts of Conduits and Nodes^c; has time^op some Temporal entity^c

geolocation quality x y^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#GeolocationQualityXY

Planimetric geolocation quality

has super-classes: Qualité Géolocalisation^c

geolocation quality z^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#GeolocationQualityZ

Altimetric geolocation quality

has super-classes: Qualité Géolocalisation^c

Gravitaire^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Gravity

L'eau s'écoule par l'effet de la pesanteur dans la canalisation en pente

has super-classes: Mode Circulation^c
is disjoint with: Forcé^c, Sous-vide^c

Géométrie^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Geometry

has super-classes: spatial location q^c; inherent in^op some Élément de réseau^c; inherent in^op some Parts of Conduits and Nodes^c; q location^op some coordinate^c

Incident^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Incident

Phénomènes affectant les canalisation ou les appareillages dont le déclenchement n'est pas soumis à la volonté humaine (fuite, pollution, débordement, panne)

has super-classes: achievement^c; participant^op some Élément de réseau^c; participant^op some Parts of Conduits and Nodes^c; has time^op some Temporal entity^c

Inspection^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Inspection

Actions d'examination et de contrôle des canalisation et des appareillages

has super-classes: accomplishment^c; participant^op some Élément de réseau^c; participant^op some Parts of Conduits and Nodes^c; has time^op some Temporal entity^c

Joint^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#DefectiveJoint

Joint défectueux

has super-classes: Défaillance^c

Longueur^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Length

has super-classes: physical quality^c; inherent in^op some Canalisation^c

Maintenance^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Maintenance

Ensemble des opérations permettant de maintenir ou de rétablir un élément du réseau (remplacement, réparation, réhabilitation

has super-classes: accomplishment^c; participant^op some Élément de réseau^c; participant^op some Parts of Conduits and Nodes^c; participant^op some operator^c or project owner^c; has time^op some Temporal entity^c

Matériau^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Material

is defined by: http://sewernet.hsm.umontpellier.fr/SewerNet.owl

has super-classes: amount of matter^c; specific constant constituent^op some Canalisation^c; specific constant constituent^op some Tampon de regard^c
has sub-classes: Béton^c, Ciment^c, Maçonné^c, Métal^c, Pierre meulière^c, Plastique^c, Verre^c

Maçonné^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Masonry

has super-classes: Matériau^c
is disjoint with: Ciment^c, Béton^c, Verre^c, Métal^c, Pierre meulière^c, Plastique^c

Mode Circulation^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ConduitCirculationMode

Modalité de circulation de l'eau dans une canalisation

has super-classes: quality^c; inherent in^op some Canalisation^c
has sub-classes: Forcé^c, Gravitaire^c, Sous-vide^c

Métal^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Metallic

It includes among others: steel, galvanized steel, copper, lead, cast iron , ductile iron

has super-classes: Matériau^c
is disjoint with: Ciment^c, Béton^c, Verre^c, Maçonné^c, Pierre meulière^c, Plastique^c

non physical endurant^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#non-physical-endurant

An endurant with no mass, generically constantly depending on some agent. Non-physical endurants can have physical constituents (e.g. in the case of members of a collection).

has super-classes: endurant^c; has quality^op only abstract quality^c; part^op only non physical endurant^c
has sub-classes: non physical object^c
is in domain of: abstract location^op
is in range of: abstract location of^op
is disjoint with: arbitrary sum^c, physical endurant^c

non physical object^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#non-physical-object

Formerly known as description. A unitary endurant with no mass (non-physical), generically constantly depending on some agent, on some communication act, and indirectly on some agent participating in that act. Both descriptions (in the now current sense) and concepts are non-physical objects.

has super-classes: non physical endurant^c; generically dependent on^op some physical endurant^c; part^op only non physical object^c
has sub-classes: Catégorie Canalisation Assainissement^c, Fonction Canalisation Assainissement^c, social object^c
is in domain of: has bearer^op
is in range of: assigned to^op

Nœud^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Node

A node can either represent an apparatus or a structure, where a structure may encompass one or more apparatuses

has super-classes: Élément de réseau^c; weak connection downstream^op some Canalisation^c; weak connection upstream^op some Canalisation^c; has quality^op some Altitude^c; weak connection^op some Canalisation^c
has sub-classes: Equipment, Fittings^c, Ouvrage^c

operator^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Operator

Gestionnaire exploitant du réseau

has super-classes: social object^c

Ouvrage^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Structure

Subclasses include the most common structures.

has super-classes: Nœud^c
has sub-classes: Detention Basin^c, Drain, Gully^c, Regard^c, Rejet^c, Station d'épuration^c, Station de pompage^c, Weir, Spillway^c

particular^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#particular

AKA 'entity'.Any individual in the DOLCE domain of discourse. The extensional coverage of DOLCE is as large as possible, since it ranges on 'possibilia', i.e all possible individuals that can be postulated by means of DOLCE axioms. Possibilia include physical objects, substances, processes, qualities, conceptual regions, non-physical objects, collections and even arbitrary sums of objects.The class 'particular' features a covering partition that includes: endurant, perdurant, quality, and abstract. There are also some subclasses defined as unions of subclasses of 'particular' for special purposes: spatio-temporal-particular (any particular except abstracts)- physical-realization (any realization of an information object, defined in the ExtendedDnS ontology).

has sub-classes: abstract^c
is in domain of: atomic part^op, atomic part of^op, boundary^op, boundary of^op, exact location^op, generic constituent^op, generic constituent of^op, generic dependent^op, generic location^op, generic location of^op, generically dependent on^op, has quality^op, has t quality^op, identity c^op, identity n^op, immediate relation^op, immediate relation i^op, mediated relation^op, mediated relation i^op, overlaps^op, part^op, part of^op, partly compresent^op, proper part^op, proper part of^op, sibling part^op, spatio temporally present at^op, specific constant constituent^op, specific constant constituent of^op, specific constant dependent^op, specifically constantly dependent on^op, strong connection^op, weak connection^op
is in range of: atomic part^op, atomic part of^op, boundary^op, boundary of^op, exact location of^op, generic constituent^op, generic constituent of^op, generic dependent^op, generic location^op, generic location of^op, generically dependent on^op, identity c^op, identity n^op, immediate relation^op, immediate relation i^op, inherent in^op, mediated relation^op, mediated relation i^op, overlaps^op, part^op, part of^op, partly compresent^op, proper part^op, proper part of^op, sibling part^op, spatio temporal presence of^op, specific constant constituent^op, specific constant constituent of^op, specific constant dependent^op, specifically constantly dependent on^op, strong connection^op, t inherent in^op, weak connection^op

Parts of Conduits and Nodes^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#NetworkElementPart

has super-classes: physical object^c; assigned to^op some attribute author^c; assigned to^op some operator^c; assigned to^op some project owner^c; has quality^op some Altitude^c; part of^op some Type Réseau Assainissement^c; part of^op some Élément de réseau^c; participant in^op some Geolocalization^c; participant in^op some Incident^c; participant in^op some Inspection^c; participant in^op some Maintenance^c; participant in^op some Réparation^c; participant in^op some Etat de service du patrimoine^c
has sub-classes: Point de conduite^c, Tampon de regard^c

Pente^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Slope

has super-classes: physical quality^c; inherent in^op some Canalisation^c

Percement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Hole

Canalisation percée

has super-classes: Défaillance^c

perdurant^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#perdurant

Perdurants (AKA occurrences) comprise what are variously called events, processes, phenomena, activities and states. They can have temporal parts or spatial parts. For instance, the first movement of (an execution of) a symphony is a temporal part of the symphony. On the other hand, the play performed by the left side of the orchestra is a spatial part. In both cases, these parts are occurrences themselves. We assume that objects cannot be parts of occurrences, but rather they participate in them. Perdurants extend in time by accumulating different temporal parts, so that, at any time they are present, they are only partially present, in the sense that some of their proper temporal parts (e.g., their previous or future phases) may be not present. E.g., the piece of paper you are reading now is wholly present, while some temporal parts of your reading are not present yet, or any more. Philosophers say that endurants are entities that are in time, while lacking temporal parts (so to speak, all their parts flow with them in time). Perdurants, on the contrary, are entities that happen in time, and can have temporal parts (all their parts are fixed in time).

has super-classes: spatio temporal particular^c; has quality^op some temporal location q^c; participant^op some endurant^c; has quality^op only temporal quality^c; part^op only perdurant^c; specific constant constituent^op only perdurant^c
has sub-classes: event^c, stative^c
is in domain of: constant participant^op, life of^op, participant^op, temporary participant^op, total constant participant^op, total temporary participant^op
is in range of: constant participant in^op, life^op, participant in^op, temporary participant in^op, total constant participant in^op, total temporary participant in^op
is disjoint with: abstract^c, endurant^c, quality^c

physical endurant^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#physical-endurant

An endurant having a direct physical (at least spatial) quality.

has super-classes: endurant^c; has quality^op some physical quality^c; has quality^op some spatial location q^c; has quality^op only physical quality^c; part^op only physical endurant^c; specific constant constituent^op only physical endurant^c
has sub-classes: amount of matter^c, feature^c, physical object^c
is in domain of: host of^op, physical location^op
is in range of: host^op, physical location of^op
is disjoint with: arbitrary sum^c, non physical endurant^c

physical object^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#physical-object

The main characteristic of physical objects is that they are endurants with unity. However, they have no common unity criterion, since different subtypes of objects may have different unity criteria. Differently from aggregates, (most) physical objects change some of their parts while keeping their identity, they can have therefore temporary parts. Often physical objects (indeed, all endurants) are ontologically independent from occurrences (discussed below). However, if we admit that every object has a life, it is hard to exclude a mutual specific constant dependence between the two. Nevertheless, we may still use the notion of dependence to (weakly) characterize objects as being not specifically constantly dependent on other objects.

has super-classes: physical endurant^c
has sub-classes: Parts of Conduits and Nodes^c, Type Réseau Assainissement^c, Élément de réseau^c
is in domain of: assigned to^op, weak connection downstream^op, weak connection upstream^op
is in range of: has bearer^op, weak connection downstream^op, weak connection upstream^op
is disjoint with: amount of matter^c, feature^c

physical quality^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#physical-quality

A quality inherent in a physical endurant.

has super-classes: quality^c; inherent in^op some physical endurant^c; has quality^op only physical quality^c; q location^op only physical region^c
has sub-classes: Diametre Nominal^c, Dimension^c, Forme^c, Longueur^c, Pente^c, Sens Ecoulement^c, Volume^c, spatial location q^c
is in domain of: q present at^op
is in range of: time of q presence of^op
is disjoint with: abstract quality^c, temporal quality^c

physical region^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#physical-region

A region at which only physical qualities can be directly located. It assumes some metrics for physical properties.

has super-classes: region^c; part^op only physical region^c; q location of^op only physical quality^c
has sub-classes: space region^c
is in domain of: physical location of^op
is in range of: physical location^op
is disjoint with: abstract region^c, temporal region^c

Pierre meulière^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#NaturalStone

has super-classes: Matériau^c
is disjoint with: Ciment^c, Béton^c, Verre^c, Maçonné^c, Métal^c, Plastique^c

Plastique^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Plastic

It includes among others: PVC, CPVC, PB, PE, PEX, PP, FRP

has super-classes: Matériau^c
is disjoint with: Ciment^c, Béton^c, Verre^c, Maçonné^c, Métal^c, Pierre meulière^c

Pluvial^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#StormwaterNetwork

Réseau de collecte de seules eaux pluviales

has super-classes: Type Réseau Assainissement^c
is disjoint with: Unitaire^c, Eaux usées^c

Point de branchement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ConnectionPoint

Piquage de branchement individuel

has super-classes: Equipment, Fittings^c
is disjoint with: Ventouse^c, Débitmètre^c, Vanne^c

Point de conduite^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ConduitPoint

A point on a conduit

has super-classes: Parts of Conduits and Nodes^c; weak connection^op only Nœud^c
has sub-classes: Extrémité du conduit amont^c, Extrémité du conduit aval^c

process^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#process

Within stative occurrences, we distinguish between states and processes according to homeomericity: sitting is classified as a state but running is classified as a process, since there are (very short) temporal parts of a running that are not themselves runnings. In general, processes differ from situations because they are not assumed to have a description from which they depend. They can be sequenced by some course, but they do not require a description as a unifying criterion. On the other hand, at any time, one can conceive a description that asserts the constraints by which a process of a certian type is such, and in this case, it becomes a situation. Since the decision of designing an explicit description that unifies a perdurant depends on context, task, interest, application, etc., when aligning an ontology do DLP, there can be indecision on where to align a process-oriented class. For example, in the WordNet alignment, we have decided to put only some physical processes under 'process', e.g. 'organic process', in order to stress the social orientedness of DLP. But whereas we need to talk explicitly of the criteria by which we conceive organic processes, these will be put under 'situation'. Similar considerations are made for the other types of perdurants in DOLCE. A different notion of event (dealing with change) is currently investigated for further developments: being 'achievement', 'accomplishment', 'state', 'event', etc. can be also considered 'aspects' of processes or of parts of them. For example, the same process 'rock erosion in the Sinni valley' can be conceptualized as an accomplishment (what has brought the current state that e.g. we are trying to explain), as an achievement (the erosion process as the result of a previous accomplishment), as a state (if we collapse the time interval of the erosion into a time point), or as an event (what has changed our focus from a state to another). In the erosion case, we could have good motivations to shift from one aspect to another: a) causation focus, b) effectual focus, c) condensation d) transition (causality). If we want to consider all the aspects of a process together, we need to postulate a unifying descriptive set of criteria (i.e. a 'description'), according to which that process is circumstantiated in a 'situation'. The different aspects will arise as a parts of a same situation.

has super-classes: stative^c

project owner^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ProjectOwner

Maître d'ouvrage du réseau

has super-classes: social object^c

Proper interval^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#ProperInterval

A temporal entity with non-zero extent or duration, i.e. for which the value of the beginning and end are different

has super-classes: Time interval^c
has sub-classes: Date-time interval^c
is disjoint with: Time instant^c

proposition^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#proposition

The abstract content of a proposition. Abstract content is purely combinatorial: from this viewpoint, any content that can be generated by means of combinatorial rules is assumed to exist in the domain of quantification (reified abstracts).

has super-classes: abstract^c

quale^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#quale

An atomic region.

is equivalent to: region^c and (atomic part of^op some region^c)
is in domain of: quale of^op
is in range of: has quale^op

quality^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#quality

Qualities can be seen as the basic entities we can perceive or measure: shapes, colors, sizes, sounds, smells, as well as weights, lengths, electrical charges... 'Quality' is often used as a synonymous of 'property', but this is not the case in this upper ontology: qualities are particulars, properties are universals. Qualities inhere to entities: every entity (including qualities themselves) comes with certain qualities, which exist as long as the entity exists.

has super-classes: spatio temporal particular^c; inherent in^op some particular^c
has sub-classes: Mode Circulation^c, abstract quality^c, physical quality^c, temporal quality^c
is in domain of: has quale^op, inherent in^op, q location^op, t inherent in^op
is in range of: has quality^op, has t quality^op, q location of^op, quale of^op
is disjoint with: abstract^c, endurant^c, perdurant^c

quality space^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#quality-space

A quality space is a topologically maximal region. The constraint of maximality cannot be given completely in OWL, but a constraint is given that creates a partition out of all quality spaces (e.g. no two quality spaces can overlap mereologically).

is equivalent to: region^c and (overlaps^op only not (quality space^c))

Qualité Géolocalisation^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#GeolocationQuality

Gelocation Quality

has super-classes: temporal quality^c; inherent in^op some Geolocalization^c
has sub-classes: geolocation quality x y^c, geolocation quality z^c

Regard^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Manhole

has super-classes: Ouvrage^c; has quality^op some Altitude du radier^c; has quality^op some Altitude mesurée au tampon^c
is disjoint with: Rejet^c, Drain, Gully^c, Station de pompage^c, Detention Basin^c, Weir, Spillway^c, Station d'épuration^c

region^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#region

We distinguish between a quality (e.g., the color of a specific rose), and its value (e.g., a particular shade of red). The latter is called quale, and describes the position of an individual quality within a certain conceptual space (called here quality space) Gardenfors (2000). So when we say that two roses have (exactly) the same color, we mean that their color qualities, which are distinct, have the same position in the color space, that is they have the same color quale.

has super-classes: abstract^c; part^op only region^c
has sub-classes: abstract region^c, physical region^c, temporal region^c
is in domain of: exact location of^op, q location of^op, r location^op, r location of^op
is in range of: exact location^op, q location^op, r location^op, r location of^op

Rejet^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#DischargeStructure

Rejet (exutoire) dans le milieu naturel d'eaux usées ou pluviales

has super-classes: Ouvrage^c
is disjoint with: Drain, Gully^c, Regard^c, Station de pompage^c, Detention Basin^c, Weir, Spillway^c, Station d'épuration^c

relevant part^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#relevant-part

Features that are relevant parts of their host, like a bump or an edge.

has super-classes: feature^c

Ruissellement pluvial^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#StormwaterRunoff

Storm wastewater drains gather rain and storm runoff and direct them to wetlands and lakes. Ditches and curb line grates are storm drains.

has super-classes: Type d'eaux usées^c

Réparation^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Repair

Lieu d'une intervention sur le réseau effectuée suite à une défaillance dudit réseau

has super-classes: achievement^c; has time^op some Temporal entity^c; participant^op some Élément de réseau^c; participant^op some Parts of Conduits and Nodes^c; participant^op some Défaillance^c; participant^op some operator^c or project owner^c

Sens Ecoulement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#FlowDirection

has super-classes: physical quality^c; inherent in^op some Canalisation^c

set^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#set

A mathematical set.

has super-classes: abstract^c

social object^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#SocialObject

has super-classes: non physical object^c
has sub-classes: attribute author^c, operator^c, project owner^c

Sous-vide^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Vaccum

L'eau circule par l'effet de la mise sous vide de la canalisation par une centrale d'aspiration

has super-classes: Mode Circulation^c
is disjoint with: Forcé^c, Gravitaire^c

space region^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#space-region

An ordinary space: geographical, cosmological, anatomical, topographic, etc.

has super-classes: physical region^c; part^op only space region^c; q location of^op only spatial location q^c
has sub-classes: coordinate^c, spatio temporal region^c

spatial location q^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#spatial-location_q

A physical quality, q-located in (whose value is given within) ordinary spaces (geographical coordinates, cosmological positions, anatomical axes, etc.).

has super-classes: physical quality^c
has sub-classes: Altitude^c, Géométrie^c

spatio temporal particular^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#spatio-temporal-particular

Dummy class for optimizing some property universes. It includes all entities that are not reifications of universals ('abstracts'), i.e. those entities that are in space-time.

is equivalent to: particular^c and (endurant^c or perdurant^c or quality^c)
has sub-classes: endurant^c, perdurant^c, quality^c

spatio temporal region^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#spatio-temporal-region

Any region resulting from the composition of a space region with a temporal region, i.e. being present in region r at time t.

has super-classes: space region^c
is in domain of: spatio temporal presence of^op
is in range of: spatio temporally present at^op

state^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#state

Within stative occurrences, we distinguish between states and processes according to homeomericity: sitting is classified as a state but running is classified as a process, since there are (very short) temporal parts of a running that are not themselves runnings.In general, states differ from situations because they are not assumed to have a description from which they depend. They can be sequenced by some course, but they do not require a description as a unifying criterion.On the other hand, at any time, one can conceive a description that asserts the constraints by which a state of a certian type is such, and in this case, it becomes a situation.Since the decision of designing an explicit description that unifies a perdurant depends on context, task, interest, application, etc., when aligning an ontology do DLP, there can be indecision on where to align a state-oriented class. For example, in the WordNet alignment, we have decided to put only some physical states under 'state', e.g. 'turgor', in order to stress the social orientedness of DLP. But whereas we need to talk explicitly of the criteria by which we conceive turgor states, these will be put under 'situation'.Similar considerations are made for the other types of perdurants in DOLCE.A different notion of event (dealing with change) is currently investigated for further developments: being 'achievement', 'accomplishment', 'state', 'event', etc. can be also considered 'aspects' of processes or of parts of them. For example, the same process 'rock erosion in the Sinni valley' can be conceptualized as an accomplishment (what has brought the current state that e.g. we are trying to explain), as an achievement (the erosion process as the result of a previous accomplishment), as a state (if we collapse the time interval of the erosion into a time point), or as an event (what has changed our focus from a state to another).In the erosion case, we could have good motivations to shift from one aspect to another: a) causation focus, b) effectual focus, c) condensation d) transition (causality).If we want to consider all the aspects of a process together, we need to postulate a unifying descriptive set of criteria (i.e. a 'description'), according to which that process is circumstantiated in a 'situation'. The different aspects will arise as a parts of a same situation.

has super-classes: stative^c
has sub-classes: Etat de service du patrimoine^c

Station d'épuration^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#TreatmentPlant

Station de traitement d'eaux usées

has super-classes: Ouvrage^c; has quality^op some Volume^c
is disjoint with: Rejet^c, Drain, Gully^c, Regard^c, Station de pompage^c, Detention Basin^c, Weir, Spillway^c

Station de pompage^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#PumpingStation

Station de pompage d'eaux usées et/ou pluviales

has super-classes: Ouvrage^c; has quality^op some Volume^c
is disjoint with: Rejet^c, Drain, Gully^c, Regard^c, Detention Basin^c, Weir, Spillway^c, Station d'épuration^c

stative^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#stative

has super-classes: perdurant^c
has sub-classes: process^c, state^c

Tampon de regard^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#ManholeCover

A cover placed on a manhole at ground level providing access to underground

has super-classes: Parts of Conduits and Nodes^c; has quality^op some Diametre Nominal^c; specific constant constituent^op some Matériau^c

Temporal duration^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#TemporalDuration

Time extent; duration of a time interval separate from its particular start position

has sub-classes: Generalized duration description^c, Temporal unit^c, Time duration^c
is in range of: has temporal duration^op

Temporal entity^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#TemporalEntity

A temporal interval or instant.

is equivalent to: Time instant^c or Time interval^c
has super-classes: thing^c; has temporal duration^op some Temporal duration^c
has sub-classes: Time instant^c, Time interval^c
is in domain of: has beginning^op, has end^op, has temporal duration^op
is in range of: has time^op

temporal location q^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporal-location_q

A temporal location quality.

has super-classes: temporal quality^c

temporal quality^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporal-quality

A quality inherent in a perdurant.

has super-classes: quality^c; inherent in^op some perdurant^c; has quality^op only temporal quality^c; q location^op only temporal region^c
has sub-classes: Qualité Géolocalisation^c, temporal location q^c
is disjoint with: abstract quality^c, physical quality^c

temporal region^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporal-region

A region at which only temporal qualities can be directly located. It assumes a metrics for time.

has super-classes: region^c; part^op only temporal region^c; q location of^op only temporal quality^c
has sub-classes: time interval^c
is disjoint with: abstract region^c, physical region^c

Temporal unit^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#TemporalUnit

A standard duration, which provides a scale factor for a time extent, or the granularity or precision for a time position.

has super-classes: Temporal duration^c
has members: unit dayⁿⁱ, unit hourⁿⁱ, unit minuteⁿⁱ, unit monthⁿⁱ, unit secondⁿⁱ, unit weekⁿⁱ, unit yearⁿⁱ

Time duration^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#Duration

Duration of a temporal extent expressed as a number scaled by a temporal unit

has super-classes: Temporal duration^c
is in range of: has duration^op

Time instant^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#Instant

A temporal entity with zero extent or duration

has super-classes: Temporal entity^c
is in range of: has beginning^op, has end^op
is disjoint with: Proper interval^c

time interval^c back to ToC or Class ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#time-interval

A temporal region, measured according to a calendar.

has super-classes: temporal region^c
is in domain of: time of q presence of^op
is in range of: q present at^op

Time interval^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#Interval

A temporal entity with an extent or duration

has super-classes: Temporal entity^c
has sub-classes: Proper interval^c

Transport^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Transport

mainly used for transportation of water/electr/etc over long distances to distribution points

has super-classes: Fonction Canalisation Assainissement^c
is disjoint with: Collecte^c

Tuyau^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Pipe

A closed conduit that transports flow

has super-classes: Canalisation^c

Type d'eaux usées^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#SewerWater

Classification of sewer water types.

has super-classes: amount of matter^c; generic dependent^op some Catégorie Canalisation Assainissement^c
has sub-classes: Eau de récupération^c, Eaux usées^c, Eaux usées combinée^c, Ruissellement pluvial^c

Type Réseau Assainissement^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Network

Type de réseau d'assainissement collectif

has super-classes: physical object^c; assigned to^op some attribute author^c; assigned to^op some operator^c; assigned to^op some project owner^c; part^op some Élément de réseau^c; part^op some Parts of Conduits and Nodes^c; part of^op some Type Réseau Assainissement^c; participant in^op some Incident^c; participant in^op some Inspection^c; participant in^op some Maintenance^c; participant in^op some Réparation^c
has sub-classes: Eaux usées^c, Pluvial^c, Unitaire^c

Unitaire^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#CombinedConduit

Canalisation véhiculant des eaux usées et pluviales en fonctionnement normal

has super-classes: Catégorie Canalisation Assainissement^c
is disjoint with: Eaux pluviales^c, Eaux usées^c

Unitaire^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#CombinedNetwork

Réseau de collecte des eaux usées et des eaux pluviales

has super-classes: Type Réseau Assainissement^c
is disjoint with: Pluvial^c, Eaux usées^c

Vanne^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Valve

Vanne d'assainissement

has super-classes: Equipment, Fittings^c
is disjoint with: Ventouse^c, Point de branchement^c, Débitmètre^c

Ventouse^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#AirValve

Ventouse d'assainissement

has super-classes: Equipment, Fittings^c
is disjoint with: Point de branchement^c, Débitmètre^c, Vanne^c

Verre^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Glass

has super-classes: Matériau^c
is disjoint with: Ciment^c, Béton^c, Maçonné^c, Métal^c, Pierre meulière^c, Plastique^c

Volume^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#Volume

has super-classes: physical quality^c; inherent in^op some Station de pompage^c; inherent in^op some Station d'épuration^c

Weir, Spillway^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#StormOverflow

Ouvrage de décharge du trop-plein d'effluents d'une canalisation d'assainissement collectif vers un milieu naturel récepteur

has super-classes: Ouvrage^c
is disjoint with: Rejet^c, Drain, Gully^c, Regard^c, Station de pompage^c, Detention Basin^c, Station d'épuration^c

x coordinate^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#XCoordinate

Coordonnée X Lambert 93 (en mètres)

has super-classes: coordinate^c

y coordinate^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#YCoordinate

Coordonnée Y Lambert 93 (en mètres)

has super-classes: coordinate^c

year^c back to ToC or Class ToC

IRI: http://www.w3.org/2006/time#Year

has super-classes: Duration description^c

Élément de réseau^c back to ToC or Class ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#NetworkElement

Abstract base type representing an element in a network. Every element in a network provides some function that is of interest in the network.

has super-classes: physical object^c; assigned to^op some attribute author^c; assigned to^op some operator^c; assigned to^op some project owner^c; has quality^op some Géométrie^c; part^op some Parts of Conduits and Nodes^c; part of^op some Type Réseau Assainissement^c; participant in^op some Geolocalization^c; participant in^op some Incident^c; participant in^op some Inspection^c; participant in^op some Maintenance^c; participant in^op some Réparation^c; participant in^op some Etat de service du patrimoine^c
has sub-classes: Canalisation^c, Nœud^c

Object Properties

abstract location^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#abstract-location

Analytical location holding between non-physical endurants and abstract regions.

has super-properties: exact location^op
has domain: non physical endurant^c
has range: abstract region^c
is inverse of: abstract location of^op

abstract location of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#abstract-location-of

has super-properties: exact location of^op
has domain: abstract region^c
has range: non physical endurant^c
is inverse of: abstract location^op

assigned to^op back to ToC or Object Property ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#assignedTo

Assigns network and network elements with roles

has domain: physical object^c
has range: non physical object^c

atomic part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#atomic-part

The part relation between a particular and an atom.

has super-properties: part^op
has domain: particular^c
has range: particular^c
is inverse of: atomic part of^op

atomic part of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#atomic-part-of

has super-properties: part of^op
has domain: particular^c
has range: particular^c
is inverse of: atomic part^op

boundary^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#boundary

has super-properties: proper part^op
has domain: particular^c
has range: particular^c
is inverse of: boundary of^op

boundary of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#boundary-of

A boundary here is taken to be a part (mereological treatment). Consequently, in the case of endurants, (reified) boundaries are features.

has super-properties: proper part of^op
has domain: particular^c
has range: particular^c
is inverse of: boundary^op

constant participant^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#constant-participant

Anytime x is present, x has participant y. In other words, all parts of x have a same participant.Participation can be constant (in all parts of the perdurant, e.g. in 'the car is running'), or temporary (in only some parts, e.g. in 'I'm electing the president').

has super-properties: participant^op
has sub-properties: life of^op, total constant participant^op
has domain: perdurant^c
has range: endurant^c
is inverse of: constant participant in^op

constant participant in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#constant-participant-in

has super-properties: participant in^op
has sub-properties: life^op, total constant participant in^op
has domain: endurant^c
has range: perdurant^c
is inverse of: constant participant^op

exact location^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#exact-location

A location relation bounded to regions and defined analytically through the composition of inherence and q-location. This is the analytical version of 'generic location'.

has super-properties: generic location^op
has sub-properties: abstract location^op, physical location^op, spatio temporally present at^op
has domain: particular^c
has range: region^c
is inverse of: exact location of^op

exact location of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#exact-location-of

has super-properties: generic location of^op
has sub-properties: abstract location of^op, physical location of^op, spatio temporal presence of^op
has domain: region^c
has range: particular^c
is inverse of: exact location^op

generic constituent^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#generic-constituent

'Constituent' should depend on some layering of the ontology. For example, scientific granularities or ontological 'strata' are typical layerings. A constituent is a part belonging to a lower layer. Since layering is actually a partition of the ontology, constituents are not properly classified as parts, although this kinship can be intuitive for common sense. Example of specific constant constituents are the entities constituting a setting (a situation), whilethe entities constituting a collection are examples of generic constant constituents.

has super-properties: immediate relation^op
has domain: particular^c
has range: particular^c
is inverse of: generic constituent of^op

generic constituent of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#generic-constituent-of

has super-properties: immediate relation i^op
has domain: particular^c
has range: particular^c
is inverse of: generic constituent^op

generic dependent^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#generic-dependent

The dependence on an individual of a given type at some time. This is traditionally a relation between particulars and universals, but this one states that x generically depends on y if a z different from y, but with the same properties, can be equivalently its depend-on.This is a temporally-indexed relation (embedded in this syntax).

has super-properties: immediate relation^op
has domain: particular^c
has range: particular^c
is inverse of: generically dependent on^op

generic location^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#generic-location

The most generic location relation, probably equivalent to more than one image schema in a cognitive system (e.g. containment for exact location, proximity for approximate location).This is meant to reason on generalized, common sense as well as formal locations, including naive localization, between any kinds of entities. Generic location is branched into 'exact' location, ranging on regions, and 'approximate' (naive) location, ranging on non-regions.

has super-properties: mediated relation^op
has sub-properties: exact location^op
has domain: particular^c
has range: particular^c
is inverse of: generic location of^op

generic location of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#generic-location-of

has super-properties: mediated relation i^op
has sub-properties: exact location of^op
has domain: particular^c
has range: particular^c
is inverse of: generic location^op

generically dependent on^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#generically-dependent-on

has super-properties: immediate relation i^op
has domain: particular^c
has range: particular^c
is inverse of: generic dependent^op

has bearer^op back to ToC or Object Property ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#hasBearer

Associates conduit categories with individual conduits.

has domain: non physical object^c
has range: physical object^c

has beginning^op back to ToC or Object Property ToC

IRI: http://www.w3.org/2006/time#hasBeginning

Beginning of a temporal entity

has super-properties: has time^op
has domain: Temporal entity^c
has range: Time instant^c

has duration^op back to ToC or Object Property ToC

IRI: http://www.w3.org/2006/time#hasDuration

Duration of a temporal entity, expressed as a scaled value or nominal value

has super-properties: has temporal duration^op
has range: Time duration^c

has duration description^op back to ToC or Object Property ToC

IRI: http://www.w3.org/2006/time#hasDurationDescription

Duration of a temporal entity, expressed using a structured description

has super-properties: has temporal duration^op
has range: Generalized duration description^c

has end^op back to ToC or Object Property ToC

IRI: http://www.w3.org/2006/time#hasEnd

End of a temporal entity.

has super-properties: has time^op
has domain: Temporal entity^c
has range: Time instant^c

has quale^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#has-quale

A quality having a q-location at an atomic region.

has super-properties: q location^op
has domain: quality^c
has range: quale^c
is inverse of: quale of^op

has quality^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#has-quality

has super-properties: immediate relation i^op
has sub-properties: has t quality^op
has domain: particular^c
has range: quality^c
is inverse of: inherent in^op

has t quality^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#has-t-quality

has super-properties: has quality^op
has domain: particular^c
has range: quality^c
is inverse of: t inherent in^op

has temporal duration^op back to ToC or Object Property ToC

IRI: http://www.w3.org/2006/time#hasTemporalDuration

Duration of a temporal entity.

has sub-properties: has duration^op, has duration description^op
has domain: Temporal entity^c
has range: Temporal duration^c

has time^op back to ToC or Object Property ToC

IRI: http://www.w3.org/2006/time#hasTime

Supports the association of a temporal entity (instant or interval) to any thing

has sub-properties: has beginning^op, has end^op
has range: Temporal entity^c

host^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#host

The immediate relation holding for features and entities.

has super-properties: specifically constantly dependent on^op
has domain: feature^c
has range: physical endurant^c
is inverse of: host of^op

host of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#host-of

has super-properties: specific constant dependent^op
has domain: physical endurant^c
has range: feature^c
is inverse of: host^op

identity c^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#identity-c

Any pair of individuals are ontologically identical if they are identical to themselves. Reflexive, symmetric, and transitive.

has characteristics : symmetric, transitive

has super-properties: immediate relation^op
has domain: particular^c
has range: particular^c
is inverse of: identity c^op, identity c^op

identity n^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#identity-n

Any pair of individuals are notionally identical iff they instantiate all and only the same concepts.

has characteristics : symmetric, transitive

has super-properties: immediate relation^op
has domain: particular^c
has range: particular^c
is inverse of: identity n^op, identity n^op

immediate relation^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#immediate-relation

A relation that holds without additional mediating individuals. In logical terms, a non-composed relation.

has sub-properties: generic constituent^op, generic dependent^op, identity c^op, identity n^op, inherent in^op, part^op, participant^op, q location^op, r location^op, specific constant constituent^op, specific constant dependent^op, weak connection^op
has domain: particular^c
has range: particular^c
is inverse of: immediate relation i^op

immediate relation i^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#immediate-relation-i

A relation that holds without additional mediating individuals. In logical terms, a non-composed relation.

has sub-properties: generic constituent of^op, generically dependent on^op, has quality^op, part of^op, participant in^op, q location of^op, r location of^op, specific constant constituent of^op, specifically constantly dependent on^op
has domain: particular^c
has range: particular^c
is inverse of: immediate relation^op

inherent in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#inherent-in

The immediate relation holding for qualities and entities.

has super-properties: immediate relation^op
has sub-properties: t inherent in^op
has domain: quality^c
has range: particular^c
is inverse of: has quality^op

life^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#life

Total constant participation applied to the mereological sum of the perdurants in which an endurant participates.

has super-properties: constant participant in^op
has domain: endurant^c
has range: perdurant^c
is inverse of: life of^op

life of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#life-of

has super-properties: constant participant^op
has domain: perdurant^c
has range: endurant^c
is inverse of: life^op

mediated relation^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#mediated-relation

A relation that composes other relations. For example, a participation relation composed with a representation relation.Composed relation cannot be directly expressed in OWL-DL, then (at least some) compositions are expressed as class or restriction axioms.

has sub-properties: generic location^op, overlaps^op, partly compresent^op, q present at^op, sibling part^op, strong connection^op
has domain: particular^c
has range: particular^c
is inverse of: mediated relation i^op

mediated relation i^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#mediated-relation-i

A relation that composes other relations. For example, a participation relation composed with a representation relation. Composed relation cannot be directly expressed in OWL-DL, then (at least some) compositions are expressed as class or restriction axioms.

has sub-properties: generic location of^op, time of q presence of^op
has domain: particular^c
has range: particular^c
is inverse of: mediated relation^op

mereologically coincides^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#mereologically-coincides

Having the same parts at time t.

has characteristics : symmetric

has super-properties: temporary part^op
has domain: endurant^c
has range: endurant^c
is inverse of: mereologically coincides^op, mereologically coincides^op

overlaps^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#overlaps

Mereological overlap: having a common part.

has characteristics : symmetric

has super-properties: mediated relation^op
has domain: particular^c
has range: particular^c
is inverse of: overlaps^op, overlaps^op

part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#part

The most generic part relation, reflexive, asymmetric, and transitive.

has characteristics : transitive

has super-properties: immediate relation^op
has sub-properties: atomic part^op, proper part^op, temporary part^op
has domain: particular^c
has range: particular^c
is inverse of: part of^op

part of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#part-of

has characteristics : transitive

has super-properties: immediate relation i^op
has sub-properties: atomic part of^op, proper part of^op, temporary part of^op
has domain: particular^c
has range: particular^c
is inverse of: part^op

participant^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#participant

The immediate relation holding between endurants and perdurants (e.g. in 'the car is running').Participation can be constant (in all parts of the perdurant, e.g. in 'the car is running'), or temporary (in only some parts, e.g. in 'I'm electing the president').A 'functional' participant is specialized for those forms of participation that depend on the nature of participants, processes, or on the intentionality of agentive participants. Traditional 'thematic role' should be mapped to functional participation.For relations holding between participants in a same perdurant, see the co-participates relation.

has super-properties: immediate relation^op
has sub-properties: constant participant^op, temporary participant^op
has domain: perdurant^c
has range: endurant^c
is inverse of: participant in^op

participant in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#participant-in

has super-properties: immediate relation i^op
has sub-properties: constant participant in^op, temporary participant in^op
has domain: endurant^c
has range: perdurant^c
is inverse of: participant^op

partly compresent^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#partly-compresent

A composed (mediated) relation used here to make relations 'temporary': by adding it as a superrelation, the effect is that the two related endurants cannot be present at all the same time intervals, but are compresent at least at some time interval (see related axiom).In FOL, the same constraint can be stated directly by coreference.This workaround can be used to index time of relations that involve reciprocal dependency, but it cannot be used in general with relations involving multiple strata of reality. For example, _about_ relation can be temporally indexed, without involving that the time of the information object overlaps with the time of the entity the information is about (but this works for e.g. the _realizes_ relation between information objects and entities whatsoever). The different temporal constraints of about vs. expresses probably derive from the dependency of aboutness from conception (to be about x, an information object should also express a description d that is satisfied by a situation including x, then temporal overlapping of _about_ is true in virtue of d). On the other hand, even conceives cannot be indexed in this way, because overlapping does not hold between the time og the conceiving agent, and the conceived description (or situation).

has characteristics : symmetric

has super-properties: mediated relation^op
has sub-properties: temporary part^op, temporary part of^op
has domain: particular^c
has range: particular^c
is inverse of: partly compresent^op, partly compresent^op

physical location^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#physical-location

Analytical location holding between physical endurants and physical regions.

has super-properties: exact location^op
has domain: physical endurant^c
has range: physical region^c
is inverse of: physical location of^op

physical location of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#physical-location-of

has super-properties: exact location of^op
has domain: physical region^c
has range: physical endurant^c
is inverse of: physical location^op

proper part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#proper-part

The proper part relation: irreflexive, antisymmetric, and transitive.

has characteristics : transitive

has super-properties: part^op
has sub-properties: boundary^op, temporary proper part^op
has domain: particular^c
has range: particular^c
is inverse of: proper part of^op

proper part of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#proper-part-of

has characteristics : transitive

has super-properties: part of^op
has sub-properties: boundary of^op, temporary proper part of^op
has domain: particular^c
has range: particular^c
is inverse of: proper part^op

q location^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#q-location

The immediate relation holding for qualities and regions. See 'generic location' branching for the various mediated relations that embed q-location.

has super-properties: immediate relation^op
has sub-properties: has quale^op
has domain: quality^c
has range: region^c
is inverse of: q location of^op

q location of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#q-location-of

has super-properties: immediate relation i^op
has sub-properties: quale of^op
has domain: region^c
has range: quality^c
is inverse of: q location^op

q present at^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#q-present-at

Presence of a physical quality when inheres in an endurant.

has super-properties: mediated relation^op
has domain: physical quality^c
has range: time interval^c
is inverse of: time of q presence of^op

quale of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#quale-of

has super-properties: q location of^op
has domain: quale^c
has range: quality^c
is inverse of: has quale^op

r location^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#r-location

A relation for representing regions within other regions, e.g. in measurement spaces (space composition).The result of r-location composition is a new 'composed region', which can either preserve the same region type (e.g. physical+physical->physical, or physical+abstract->physical), or not (e.g. physical+abstract->abstract). See 'composition description' for more details.In some cases, space composition is conventional, i.e. a space is just 'located' at another space, as in the case of measurement spaces:(direct composition): r r-location r1In other cases, r-location implies a complex path, e.g. :(homogeneous composition): r q-location-of q inherent-in x has-quality q1 q-location r1(heterogeneous composition across endurants and perdurants): r q-location-of q inherent-in e participant-in p has-quality q1 q-location r1(heterogeneous composition across physical and non-physical endurants): r q-location-of q inherent-in pe specific-constant-dependent npe has-quality q1 q-location r1

has super-properties: immediate relation^op
has domain: region^c
has range: region^c
is inverse of: r location of^op

r location of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#r-location-of

has super-properties: immediate relation i^op
has domain: region^c
has range: region^c
is inverse of: r location^op

sibling part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#sibling-part

Mereological sibling: having a common whole

has characteristics : symmetric

has super-properties: mediated relation^op
has domain: particular^c
has range: particular^c
is inverse of: sibling part^op, sibling part^op

spatio temporal presence of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#spatio-temporal-presence-of

has super-properties: exact location of^op
has domain: spatio temporal region^c
has range: particular^c
is inverse of: spatio temporally present at^op

spatio temporally present at^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#spatio-temporally-present-at

has super-properties: exact location^op
has domain: particular^c
has range: spatio temporal region^c
is inverse of: spatio temporal presence of^op

specific constant constituent^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#specific-constant-constituent

has super-properties: immediate relation^op
has domain: particular^c
has range: particular^c
is inverse of: specific constant constituent of^op

specific constant constituent of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#specific-constant-constituent-of

has super-properties: immediate relation i^op
has domain: particular^c
has range: particular^c
is inverse of: specific constant constituent^op

specific constant dependent^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#specific-constant-dependent

The constant dependence between two individuals. Taken here as primitive.

has super-properties: immediate relation^op
has sub-properties: host of^op
has domain: particular^c
has range: particular^c
is inverse of: specifically constantly dependent on^op

specifically constantly dependent on^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#specifically-constantly-dependent-on

has super-properties: immediate relation i^op
has sub-properties: host^op
has domain: particular^c
has range: particular^c
is inverse of: specific constant dependent^op

strong connection^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#strong-connection

By strong connection here we mean a connection between two entities that share a boundary.

has characteristics : symmetric

has super-properties: mediated relation^op
has domain: particular^c
has range: particular^c
is inverse of: strong connection^op, strong connection^op

t inherent in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#t-inherent-in

The immediate relation holding for qualities and entities at time t.

has super-properties: inherent in^op
has domain: quality^c
has range: particular^c
is inverse of: has t quality^op

temporary atomic part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-atomic-part

Having an atom as part at a time t.

has super-properties: temporary proper part^op
has domain: endurant^c
has range: endurant^c
is inverse of: temporary atomic part of^op

temporary atomic part of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-atomic-part-of

has super-properties: temporary proper part of^op
has domain: endurant^c
has range: endurant^c
is inverse of: temporary atomic part^op

temporary part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-part

Being part at time t. It holds for endurants only. This is important to model parts that can change or be lost over time without affecting the identity of the whole. In FOL, this is expressed as a ternary relation, but in DLs we only can reason with binary relations, then only the necessary axiom of compresence is represented here.

has super-properties: part^op; partly compresent^op
has sub-properties: mereologically coincides^op, temporary proper part^op
has domain: endurant^c
has range: endurant^c
is inverse of: temporary part of^op

temporary part of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-part-of

has super-properties: part of^op; partly compresent^op
has sub-properties: temporary proper part of^op
has domain: endurant^c
has range: endurant^c
is inverse of: temporary part^op

temporary participant^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-participant

Only some parts of the perdurant p have a participant e.In fact, participation can be constant (in all parts of the perdurant, e.g. in 'the car is running'), or temporary (in only some parts, e.g. in 'I'm electing the president').Implicitly, this relation has a temporal indexing.If needed, in OWL one can derive such indexing by expliciting what parts of p have e as _constant_ participant.An appropriate OWL axiom is created to bind this relation to a proper part of it, which has the temporary-participant as a constant one.

has super-properties: participant^op
has sub-properties: total temporary participant^op
has domain: perdurant^c
has range: endurant^c
is inverse of: temporary participant in^op

temporary participant in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-participant-in

x participates in some of y's parts.

has super-properties: participant in^op
has sub-properties: total temporary participant in^op
has domain: endurant^c
has range: perdurant^c
is inverse of: temporary participant^op

temporary proper part^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-proper-part

Being proper part at time t. It holds for endurants only. This is important to model proper parts that can change or be lost over time without affecting the identity of the whole.

has super-properties: proper part^op; temporary part^op
has sub-properties: temporary atomic part^op
has domain: endurant^c
has range: endurant^c
is inverse of: temporary proper part of^op

temporary proper part of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#temporary-proper-part-of

has super-properties: proper part of^op; temporary part of^op
has sub-properties: temporary atomic part of^op
has domain: endurant^c
has range: endurant^c
is inverse of: temporary proper part^op

time of q presence of^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#time-of-q-presence-of

has super-properties: mediated relation i^op
has domain: time interval^c
has range: physical quality^c
is inverse of: q present at^op

total constant participant^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#total-constant-participant

The perdurant p has a participant e that constantly participates in p with all its parts, e.g. in 'I played the concert' (where the concert is a solo concert).

has super-properties: constant participant^op
has domain: perdurant^c
has range: endurant^c
is inverse of: total constant participant in^op

total constant participant in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#total-constant-participant-in

has super-properties: constant participant in^op
has domain: endurant^c
has range: perdurant^c
is inverse of: total constant participant^op

total temporary participant^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#total-temporary-participant

The perdurant p has a participant e that temporarily participates in p with all its parts, e.g. in 'I played the concert' (where I actually played just an ouverture).See also 'temporary-participant'.

has super-properties: temporary participant^op
has domain: perdurant^c
has range: endurant^c
is inverse of: total temporary participant in^op

total temporary participant in^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#total-temporary-participant-in

has super-properties: temporary participant in^op
has domain: endurant^c
has range: perdurant^c
is inverse of: total temporary participant^op

weak connection^op back to ToC or Object Property ToC

IRI: http://www.loa-cnr.it/ontologies/DOLCE-Lite.owl#weak-connection

The basic connection, not requiring a common boundary.

has characteristics : symmetric

has super-properties: immediate relation^op
has sub-properties: weak connection downstream^op, weak connection upstream^op
has domain: particular^c
has range: particular^c
is inverse of: weak connection^op, weak connection^op

weak connection downstream^op back to ToC or Object Property ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#weakConnectionDownstream

Connects nodes with downstream conduits

has super-properties: weak connection^op
has domain: physical object^c
has range: physical object^c

weak connection upstream^op back to ToC or Object Property ToC

IRI: http://sewernet.hsm.umontpellier.fr/SewerNet#weakConnectionUpstream

Connects nodes with upstream conduits

has super-properties: weak connection^op
has domain: physical object^c
has range: physical object^c

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

Sewer Network Ontology (SewerNet)

Abstract

Table of Content

Classes

abstractc back to ToC or Class ToC

abstract qualityc back to ToC or Class ToC

abstract regionc back to ToC or Class ToC

accomplishmentc back to ToC or Class ToC

achievementc back to ToC or Class ToC

Altitudec back to ToC or Class ToC

Altitude du radierc back to ToC or Class ToC

Altitude mesurée au tamponc back to ToC or Class ToC

amount of matterc back to ToC or Class ToC

arbitrary sumc back to ToC or Class ToC

Arrêt de servicec back to ToC or Class ToC

Arrêt définitif de service (abandon)c back to ToC or Class ToC

attribute authorc back to ToC or Class ToC

Bétonc back to ToC or Class ToC

Canalc back to ToC or Class ToC

Canalisationc back to ToC or Class ToC

Casse longitudinalec back to ToC or Class ToC

Casse nettec back to ToC or Class ToC

Catégorie Canalisation Assainissementc back to ToC or Class ToC

Cimentc back to ToC or Class ToC

Collectec back to ToC or Class ToC

coordinatec back to ToC or Class ToC

Date-time intervalc back to ToC or Class ToC

dependent placec back to ToC or Class ToC

Detention Basinc back to ToC or Class ToC

Diametre Nominalc back to ToC or Class ToC

Dimensionc back to ToC or Class ToC

Drain, Gullyc back to ToC or Class ToC

Duration descriptionc back to ToC or Class ToC

Débitmètrec back to ToC or Class ToC

Déboîtementc back to ToC or Class ToC

Défaillancec back to ToC or Class ToC

Eau de récupérationc back to ToC or Class ToC

Eaux pluvialesc back to ToC or Class ToC

Eaux uséesc back to ToC or Class ToC

Eaux uséesc back to ToC or Class ToC

Eaux uséesc back to ToC or Class ToC

Eaux usées combinéec back to ToC or Class ToC

En constructionc back to ToC or Class ToC

En projetc back to ToC or Class ToC

En servicec back to ToC or Class ToC

endurantc back to ToC or Class ToC

Equipment, Fittingsc back to ToC or Class ToC

Etat de service du patrimoinec back to ToC or Class ToC

eventc back to ToC or Class ToC

Extrémité du conduit amontc back to ToC or Class ToC

Extrémité du conduit avalc back to ToC or Class ToC

featurec back to ToC or Class ToC

Fissurec back to ToC or Class ToC

Fonction Canalisation Assainissementc back to ToC or Class ToC

Forcéc back to ToC or Class ToC

Formec back to ToC or Class ToC

Generalized duration descriptionc back to ToC or Class ToC

Geolocalizationc back to ToC or Class ToC

geolocation quality x yc back to ToC or Class ToC

geolocation quality zc back to ToC or Class ToC

Gravitairec back to ToC or Class ToC

Géométriec back to ToC or Class ToC

Incidentc back to ToC or Class ToC

Inspectionc back to ToC or Class ToC

Jointc back to ToC or Class ToC

Longueurc back to ToC or Class ToC

Maintenancec back to ToC or Class ToC

Matériauc back to ToC or Class ToC

Maçonnéc back to ToC or Class ToC

Mode Circulationc back to ToC or Class ToC

Métalc back to ToC or Class ToC

non physical endurantc back to ToC or Class ToC

non physical objectc back to ToC or Class ToC

Nœudc back to ToC or Class ToC

operatorc back to ToC or Class ToC

Ouvragec back to ToC or Class ToC

particularc back to ToC or Class ToC

Parts of Conduits and Nodesc back to ToC or Class ToC

Pentec back to ToC or Class ToC

Percementc back to ToC or Class ToC

abstract^c back to ToC or Class ToC

abstract quality^c back to ToC or Class ToC

abstract region^c back to ToC or Class ToC

accomplishment^c back to ToC or Class ToC

achievement^c back to ToC or Class ToC

Altitude^c back to ToC or Class ToC

Altitude du radier^c back to ToC or Class ToC

Altitude mesurée au tampon^c back to ToC or Class ToC

amount of matter^c back to ToC or Class ToC

arbitrary sum^c back to ToC or Class ToC

Arrêt de service^c back to ToC or Class ToC

Arrêt définitif de service (abandon)^c back to ToC or Class ToC

attribute author^c back to ToC or Class ToC

Béton^c back to ToC or Class ToC

Canal^c back to ToC or Class ToC

Canalisation^c back to ToC or Class ToC

Casse longitudinale^c back to ToC or Class ToC

Casse nette^c back to ToC or Class ToC

Catégorie Canalisation Assainissement^c back to ToC or Class ToC

Ciment^c back to ToC or Class ToC

Collecte^c back to ToC or Class ToC

coordinate^c back to ToC or Class ToC

Date-time interval^c back to ToC or Class ToC

dependent place^c back to ToC or Class ToC

Detention Basin^c back to ToC or Class ToC

Diametre Nominal^c back to ToC or Class ToC

Dimension^c back to ToC or Class ToC

Drain, Gully^c back to ToC or Class ToC

Duration description^c back to ToC or Class ToC

Débitmètre^c back to ToC or Class ToC

Déboîtement^c back to ToC or Class ToC

Défaillance^c back to ToC or Class ToC

Eau de récupération^c back to ToC or Class ToC

Eaux pluviales^c back to ToC or Class ToC

Eaux usées^c back to ToC or Class ToC

Eaux usées^c back to ToC or Class ToC

Eaux usées^c back to ToC or Class ToC

Eaux usées combinée^c back to ToC or Class ToC

En construction^c back to ToC or Class ToC

En projet^c back to ToC or Class ToC

En service^c back to ToC or Class ToC

endurant^c back to ToC or Class ToC

Equipment, Fittings^c back to ToC or Class ToC

Etat de service du patrimoine^c back to ToC or Class ToC

event^c back to ToC or Class ToC

Extrémité du conduit amont^c back to ToC or Class ToC

Extrémité du conduit aval^c back to ToC or Class ToC

feature^c back to ToC or Class ToC

Fissure^c back to ToC or Class ToC

Fonction Canalisation Assainissement^c back to ToC or Class ToC

Forcé^c back to ToC or Class ToC

Forme^c back to ToC or Class ToC

Generalized duration description^c back to ToC or Class ToC

Geolocalization^c back to ToC or Class ToC

geolocation quality x y^c back to ToC or Class ToC

geolocation quality z^c back to ToC or Class ToC

Gravitaire^c back to ToC or Class ToC

Géométrie^c back to ToC or Class ToC

Incident^c back to ToC or Class ToC

Inspection^c back to ToC or Class ToC

Joint^c back to ToC or Class ToC

Longueur^c back to ToC or Class ToC

Maintenance^c back to ToC or Class ToC

Matériau^c back to ToC or Class ToC

Maçonné^c back to ToC or Class ToC

Mode Circulation^c back to ToC or Class ToC

Métal^c back to ToC or Class ToC

non physical endurant^c back to ToC or Class ToC

non physical object^c back to ToC or Class ToC

Nœud^c back to ToC or Class ToC

operator^c back to ToC or Class ToC

Ouvrage^c back to ToC or Class ToC

particular^c back to ToC or Class ToC

Parts of Conduits and Nodes^c back to ToC or Class ToC

Pente^c back to ToC or Class ToC

Percement^c back to ToC or Class ToC

perdurant^c back to ToC or Class ToC

physical endurant^c back to ToC or Class ToC

physical object^c back to ToC or Class ToC

physical quality^c back to ToC or Class ToC