Ontologie d'unités de Mesures Ontologie der Maßeinheiten Ontologie van Maateenheden 測定単位のオントロジ
The Ontology of units of Measure (OM) 2.0 models concepts and relations that underlie the formulation of quantitative knowledge in scientific research. It has a strong focus on units, quantities, measures, and dimensions. OM is modelled in OWL 2 (Web Ontology Language). The ontology can be found in om-2.0.rdf (view code above); links to UCUM (the Unified Code for Units of Measure) are in om-2-ucum.ttl (also above).
Base URI: http://www.ontology-of-units-of-measure.org/resource/om-2/
Namespace prefix: om
Present version: 2.0 (2017-present)
Precursors: UnitDim (2004), OM 1.0-1.8 (2009-2017)
OM is based on several official paper standards, such as the Guide for the Use of the International System of Units, by the NIST – a document that represents the SI as established by the General Conference on Weights and Measures (CGPM) adapted to the United States, adapted back by us to the global standard (metre, litre, deca, tonne).
The OM ontology provides classes, instances, and properties that represent the different concepts used for defining and using units, quantities and related concepts. It includes, for instance, common units such as the SI units metre (om:metre
) and kilogram (om:kilogram
), as well as units from other systems of units, such as the mile (om:mile
) and the nautical mile (om:nauticalMile-International
). For a range of application areas it includes specific units and quantities, such as the unit of the Hubble constant – a compound unit –, km/s/Mpc (om:kilometrePerSecond-TimePerMegaparsec
), and the quantity 'viable count' (om:ViableCount
).
Figure 1. UML diagram showing the class structure of the OM ontology. The range of hasNumericalValue is left open to accommodate any datatype required in one's application of OM.
The following triples express, for example, the diameter of an apple:
ex:_10Centimetres rdf:type om:Measure ;
om:hasNumericalValue "10"^^xsd:double ;
om:hasUnit om:centimeter .
ex:diameterOfApple1 om:hasValue ex:_10Centimetres ;
a om:Diameter ;
om:hasPhenomenon ex:apple1 .
ex:apple1 rdf:type ex:Apple .
where ex
is a prefix to another namespace.
The RDF structure for this example shows as follows:
Figure 2. An RDF diagram representing the size of an apple as 10 cm. (The arrow for property om:hasNumericalValue should be reversed.)
Please note that in OM, scales, such as the temperature scale are handled differently than their corresponding units. For instance a temperature difference will be expressed as a measure with a unit such as °C or K, where 28°C = 28 K. On the other hand an absolute temperature of 28°C is being referred to the Celsius scale and is equal to 301 K. Usually, the scale is used. Here is an example of using a temperature scale.
The following application areas are supported by OM:
- Geometry
- Mechanics
- Thermodynamics
- Electromagnetism
- Fluid mechanics
- Chemical physics
- Photometry
- Radiometry and Radiobiology
- Nuclear physics
- Astronomy and Astrophysics
- Cosmology
- Earth science
- Meteorology
- Material science
- Microbiology
- Economics
- Information technology
- Typography
- Shipping
- Food engineering
- Post-harvest technology
- Dynamics of texture and taste
- Packaging
Included in the OM repository is the RecordTable vocabulary for semantically modelling tabular data, as a supplement to the existing RDF Data Cube standard. RDF Record Table has a nested structure of records that contain self-describing observations, and is able to cope with irregular, missing and unexpected data. This allows it to escape the constraints of RDF Data Cube and to model complex data, such as that occurring in science and engineering.
As an example, consider the following Table 1. and Figure 3.
Table 1. An example table, parts of which are depicted as a RecordTable graph in Figure 3. The highlighted cells are depicted in the graph.
Figure 3. An RDF diagram representing an example using RecordTable.
Several libraries support the use of OM:
om-java-libs
: A software library written in Java that uses OM to convert between units.om-python-libs
: Same in Python.
OM was developed during the Virtual Laboratory for e-Science and COMMIT projects. We would like to thank Jan Martin Keil and Sirko Schindler of the University of Jena for reviewing OM (see Unit Ontology Review and publication).
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