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.
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?
Aug 28, 2023 · Bibliographic details on Time ontology extended for non-Gregorian calendar applications.
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.
Adaptation of standard Time ontology to accommodate other calendars and temporal reference systems.