WaterML
| Developed by | Open Geospatial Consortium |
|---|---|
| Latest release | 2.0.1 (2014-02-24) |
| Type of format | Time series |
| Extended from | XML |
WaterML is a technical standard and information model used to represent hydrological time series structures. The current version is WaterML 2.0, released an open standard[2] of the Open Geospatial Consortium (OGC).
History
WaterML 1.0
Version 1.0 of WaterML was published in 2009 by the Consortium of Universities for the Advancement of Hydrologic Science.[3] WaterML 1.0 (and 1.1) is an XML exchange format developed for use specifically in the United States.
WaterML 2.0
WaterML 2.0 is an open standard[2] of the OGC. Version 2.0 marks a harmonisation with different formats from various organisations and countries, including the Australian Water Data Transfer Format, WaterML 1.0 from the United States,[3] XHydro from Germany, and with existing OGC formats. WaterML 2.0 was adopted as an official standard by the OGC in September 2012,[4][5] endorsed by the US Federal Geographic Data Committee,[6] and has been proposed for adoption by the World Meteorological Organisation (WMO).[7]
Example uses include: exchange of data for operational hydrological monitoring programs; supporting operation of infrastructure (e.g. dams, supply systems); cross-border exchange of observational data; release of data for public dissemination; enhancing disaster management through data exchange; and exchange in support of national reporting. The standard was developed through a harmonisation process[8] by members of the joint OGC-WMO Hydrology Domain Working Group.[9]
Structure
WaterML 2.0 makes use of existing OGC standards, primarily Observations and Measurements (O&M) and the Geography Markup Language (GML). This enhances consistency and interoperability with other standards and web services. Through use of the O&M standard, WaterML 2.0 defines types allowing for standard definition of the core properties relating to hydrological time series, including:
- The observed phenomenon
- Spatial context
- Temporal bounds
- Procedure used in generating the time series (e.g. raw data from a sensor)
- Result-specific metadata, such as time series qualifiers, interpolation types, comments, quality codes etc.
- Monitoring points
- Collections of related objects
- Vocabularies for domain-specific terms
The core information model is defined using the Unified Modelling Language, allowing for flexibility in creating implementation-specific encodings. The standard defines a GML-conformant XML encoding allowing for use with OGC Web Services.
See also
References
- ↑ "OGC Document Notice". http://www.opengeospatial.org/ogc/document. Retrieved 2 February 2011.
- ↑ 2.0 2.1 OGC WaterML 2.0, Open Geospatial Consortium, 2014-02-24, http://www.opengeospatial.org/standards/waterml
- ↑ 3.0 3.1 Valentine, David; Zaslavsky, Ilya (June 11, 2009), CUAHSI WaterML 1.0, Consortium of Universities for the Advancement of Hydrologic Science, http://his.cuahsi.org/documents/WaterML_1_0_part1.pdf
- ↑ [1], OGC press release
- ↑ [2], CSIRO press release
- ↑ [3], FGDC press release
- ↑ [4], WMO, Resolution 3, Commission for Hydrology session November 2012 - Abridged final report with resolutions and recommendations
- ↑ [5], Taylor, P.; Cox, S.; Walker, G.; Valentine, D; Sheahan, P. WaterML 2.0: Development of an open standard for hydrological time series data exchange. Journal of Hydroinformatics. doi:10.2166/hydro.2013.174.
- ↑ [6] WMO/OGC Hydrology Domain Working Group wiki page
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