Share:


Transformation parameters between UCS-2000 and WGS-84

    Elena Novikova   Affiliation
    ; Alena Palamar   Affiliation
    ; Svetlana Makhonko Affiliation
    ; Alexander Barna Affiliation
    ; Olga Privalova Affiliation

Abstract

 According to the Order of the Ministry of Agrarian Policy of Ukraine, published in 2016, about the procedure for using the national coordinate system UCS-2000, this was the first time officially presented parameters of the Helmert transformation from the UCS-2000 system to the ITRF-2000 system. However, all software products are used for communication between various coordinate systems as the main coordinate system, WGS-84. The Helmert transformation parameters between the UCS-2000 and WGS-84 systems are found for the new realization of WGS-84 (G1762) based on GPS data and the old realization of the WGS-84, based on the US Satellite Navigation System, known as DOPPLER Transit. It is shown that the use of the transformation parameters of the old realization WGS-84 for the processing of present GPS measurements will result in a systematic error of the order of 0.6 m. Obtained transformation parameters can be used as the first approximation to obtain accurate Helmert transformations based on GPS measurements at points with known coordinates in the UCS-2000 system. The described procedure for determining the parameters will be especially useful in the case when a more accurate connection will be established between the systems ITRFyy and WGS-84, than the current one.

Keyword : Helmert transformation parameters, coordinate frame rotation, position vector rotation, UCS-2000, WGS-84

How to Cite
Novikova, E., Palamar, A., Makhonko, S., Barna, A., & Privalova, O. (2018). Transformation parameters between UCS-2000 and WGS-84. Geodesy and Cartography, 44(2), 50-54. https://doi.org/10.3846/gac.2018.1830
Published in Issue
Aug 8, 2018
Abstract Views
1285
PDF Downloads
1022
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Aleknavicius, A., & Sinkeviciute, V. (2008). Kartografija: Mokomoji knyga. Kaunas: Ardiva. Retrieved from http://vuzf.asu.lt/wp-content/uploads/sites/6/2015/01/kartografija_0.pdf

Derzhheokadastr. (n.d.). Pasporty Derzhavnoyi heodezychnoyi referentsnoyi systemy koordynat USK-2000 (in Ukrainian). Retrieved from http://dgm.gki.com.ua/ua/pasporti-derjavnoii-geodezichnoii-referencnoii-sistemi-coordinates-usk-2000

Lietuvos Respublikos valstybinės žemėtvarkos ir geodezijos tarnybos prie Žemės ūkio ministerijos Įsakymas dėl valstybinės koordinačių sistemos įvedimo tvarkos. 1996 m. sausio 5 d. Nr. 1. Vilnius (in Lithuanian). Retrieved from https://e-seimas.lrs.lt/portal/legalAct/lt/TAD/TAIS.24435?jfwid=zm7w3rdib

ITRF (n.d.). Transformation parameters. Retrieved from http://itrf.ensg.ign.fr/trans_para.php

Jekeli, C. (2012) Geometric reference systems in geodesy. Ohio State University. Retrieved from "https://kb.osu.edu/dspace/bitstream/handle/1811/51274/Geometric_Reference_Systems_2012.pdf

Kucher, O., Stopkhay, YU., Vysotenko, R., & Renkevych, O. (2008). Vprovadzhennya derzhavnoyi heodezychnoyi referentsnoyi systemy koordynat Ukrayiny – USK-2000. Novitni dosyahnennya heodeziyi, heoinformatyky ta zemlevporyadkuvannya – Yevropeysʹkyy dosvid, 4, 25-30 (in Ukrainian).

Minahropolityky. (2016). Poriadok vykorystannia Derzhavnoi heodezychnoi referentsnoi systemy koordynat USK-2000 pry zdiisnenni robit iz zemleustroiu (Zatverdzheno nakazom Ministerstva ahrarnoi polityky ta prodovolstva Ukrainy vid 02.12.2016 r. No. 509) (in Ukrainian).

Minekoresursiv. (2001). Svitova heodezychna systema koordynat WGS-84. Osnovni polozhennya. Zv’yazok z inshymy heodezychnymy systemamy (Zatverdzheno nakazom Ministerstva ekolohiyi ta pryrodnykh resursiv Ukrayiny vid 14.12.2001 r. No. 467) (in Ukrainian). Retrieved from http://gki.com.ua/files/uploads/documents/Norms/WGS-84.pdf

Lietuvos Respublikos Vyriausybės Nutarimas dėl Lietuvos geodezinių koordinačių sistemos įvedimo. 1994 m. rugsėjo 30 d. Nr. 936. Vilnius (in Lithuanian). Retrieved from https://e-seimas.lrs.lt/portal/legalAct/lt/TAD/TAIS.13644?jfwid=zm7w3rdib

Savchuk, S. (2012). Praktychni aspekty zastosuvannya novoyi referentsnoyi systemy USK2000. 17-ta Mizhnarodna naukovotekhnichna konferentsiya GEOFORUMʺ2012. Lʹviv-Yavoriv, Ukrayina, p. 22 (in Ukrainian).

Software, C. (2018). World Geodetic System 1984 (WGS84). Confluence.qps.nl. Retrieved from https://confluence.qps.nl/qinsy/en/world-geodetic-system-1984-wgs84-29855173.html

Soler, T., & Snay, R. (2004). Transforming positions and velocities between the International Terrestrial Reference Frame of 2000 and North American datum of 1983. Journal of Surveying Engineering, 130(2), 49-55. https://doi.org/10.1061/(ASCE)0733-9453(2004)130:2(49)

Timár, G., & Molnár, G. (2013). Map grids and datums. Eötvös Lóránd University. Retrieved from http://elte.prompt.hu/sites/default/files/tananyagok/MapGridsAndDatums/index.html

Závoti, J., & Kalmár, J. (2015). A comparison of different solutions of the Bursa–Wolf model and of the 3D, 7-parameter datum transformation. Acta Geodaetica Et Geophysica, 51(2), 245-256. https://doi.org/10.1007/s40328-015-0124-6