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International Terrestrial Reference Frame (ITRF)

The International Terrestrial Reference Frame (ITRF) is a global reference system that enables accurate and consistent positioning for a wide range of applications. It serves as a foundation for geodetic observations and scientific research, playing a crucial role in a wide range of fields.

The International Terrestrial Reference Frame (ITRF) is a series of globally defined datums developed by the International Earth Rotation and Reference Systems Service (IERS). The ITRF serves as the standard framework for a wide range of applications and is crucial for various positioning-based activities such as mapping, 3D modelling, and GIS. ITRF allows us to determine a consistent coordinate in the format latitude (Φ), longitude (λ), ellipsoidal height (H), and time (t).

A geodetic datum is a reference system that defines how positions are represented. This includes:

The ITRF is a globally recognised reference system that provides precise and consistent coordinates for points on Earth's surface. The ITRF  aims  to achieve accuracy, reliability, and internal consistency over time with a clear and defined datum specification for origin, scale, and orientation.

To achieve these goals, the ITRF incorporates a time series of station positions and earth orientation parameters from various space geodesy techniques. These include global navigation satellite systems (GNSS), satellite laser ranging (SLR), very long baseline interferometry (VLBI), and doppler orbitography and radio-positioning integrated by satellite (DORIS).

The ITRF is linked with the International Terrestrial Reference System (ITRS), a theoretical framework that defines regulations and conventions for creating reference frames suitable for  measuring Earth. The ITRS is realised through different ITRF solutions,  each new solution adds new data and  the latest advancements in mathematical and surveying methods. These realisations support satellite navigation systems like GPS, GLONASS, Galileo, and BeiDou.

The ITRF is essential for understanding long-term Earth system processes such as tectonic deformation and climate change indicators. It is not a useable geodetic system by itself but is an accurate realisation of the Earth’s terrestrial reference frame for a specified reference period. The ITRF is then used to establish a national, regional or global datum.

Key parameters for the International Terrestrial Reference Frame.
NameInternational Terrestrial Reference Frame yy (or yyyy)* 
*where yy denotes the year up to which datasets were used in the realisation of the datum
AbbreviationITRF(yy) or (yyyy)*
Coverage areaWorldwide, between 180°W –180°E and 90°N – 90°S
EPSG codeVaries for each realisation
Coordinate systemGeographic
Reference frameEarth-centred, Earth-fixed
Reference ellipsoidTypically GRS80 but may vary between realisations
Prime meridianGreenwich
Deformation modelPost-Seismic Deformation included from ITRF2014 onward for GNSS reference sites with major earthquakes
Reference dateThere are multiple realisations of ITRF, with each of these a separate datum. High accuracy coordinates must state the realisation the coordinates are referenced to.

 

Datum realisationImplementation dateReference epochNetwork (absolute) accuracy (m) (1-sigma)
relative to ITRF2008
ITRF9419971993.0 
ITRF9620001997.0 
ITRF971 July 20021997.0 
ITRF20005 January 20011997.0 
ITRF200528 January 20062000.0 
ITRF200828 April 20092005.0When compared to ITRF2005, better than 0.01
ITRF201429 January 20162010.0When compared to ITRF2008 and ITRF2005, better than 0.01
ITRF20202 October 20222015.0When compared to ITRF2014, ITRF2008 and ITRF2005, better than 0.005

Read more information about transforming ITRF coordinates to NZGD2000