These are illustrated with examples involving non-Gregorian calendars, Unix-time, and geologic time using both chronometric and stratigraphic timescales.
Feb 12, 2016 · We have extended OWL-Time to support the encoding of temporal position in a range of reference systems, in addition to the Gregorian calendar and conventional ...
These are illustrated with examples involving non-Gregorian calendars, Unix-time, and geologic time using both chronometric and stratigraphic timescales.
Oct 22, 2024 · ... Instead of using Gregorian calendar for representing time instants, this ontology uses integers and literals to define relative time.
OWL-Time is extended to support the encoding of temporal position in a range of reference systems, in addition to the Gregorian calendar and conventional ...
These are illustrated with examples involving non-Gregorian calendars, Unix-time, and geologic time using both chronometric and stratigraphic timescales.
We extend OWL-Time to support the encoding of temporal position in a range of reference systems, in addition to the Gregorian calendar and conventional clock.
Aug 28, 2023 · Bibliographic details on Time ontology extended for non-Gregorian calendar applications.
People also ask
What is better than the Gregorian calendar system?
Is there a country that doesn t use the Gregorian calendar?
What is the difference between ISO and Gregorian calendar?
What are the 3 types of calendar systems?
Nov 15, 2022 · OWL-Time is an OWL-2 DL ontology of temporal concepts, for describing the temporal properties of resources in the world or described in Web pages.
Time ontology extended for non-Gregorian calendar applications. https://doi.org/10.3233/sw-150187 · Full text. Journal: Semantic Web, 2016, № 2, p. 201-209.