Modern standard linear basis of original design for metrological verification of geodetic instruments

Engineering Surveying & Deformation Monitoring

Authors

First and Last Name Academic degree E-mail Affiliation
Ihor Trevoho Sc.D. itrevoho [at] gmail.com Lviv Polytechnic National University
Lviv, Ukraine
Hetman Petro Sahaidachnyi National Ground Forces Academy
Lviv, Ukraine
Olena Vanchura No olenavanchura6 [at] gmail.com Lviv Polytechnic National University
Lviv, Ukraine
Alina Khoptar Ph.D. khoptara [at] natur.cuni.cz Charles University
Prague, Czech Republic
Pavlo Periy No periyps [at] ukr.net Hetman Petro Sahaidachnyi National Ground Forces Academy
Lviv, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 12.08.2022 - 10:27
Abstract 

Geodetic instruments must be examined and metrologically checked for compliance with technical regulations in order to ensure the unity of measurements. In modern geodesy, linear measurements mostly dominate, and metrological monitoring of means of measuring technology (MMT) to transfer them a unit of length from a working standard is carried out on a linear geodetic basis that performs the functions of a working standard. At the same time, the accuracy of the standard objects should be three times higher than the accuracy of the research instruments. A standard linear geodetic base of original design was created and has been operating for many years at the scientific geodetic polygon near Lviv, designed for long-term use, taking into account the accumulated world experience. Considered design features and ensuring measurement accuracy, methods, and results of many years of experimental calibration of the basis and the results of two international metrological reconciliations (carried out for the first time in Ukraine), which confirmed the high stability of the lines of the working standard. National Science Center (NSC) "Institute of Metrology" periodically carried out certification of this basis and it is widely used for scientific research and metrological verification of MMT of various companies and models, by various organizations and enterprises of the country's geodetic industry.

References 

Denysov О.М. [2002] Determining of azimuth when the exact coordinates of the observation point are unknown. Geomonitoring, Slavsko, P. 52-53. (in Ukrainian).

Kupko V., Neiezhmakov P., Oleinyk A., Zanimonskyi Ye., Trevoho I., Tsiupak I., Tsisak Ya. [2016] Geodesy and metrology of large lengths and short vectors. Experiments and standards. Modern achievements of geodetic science and production, II(32), P. 55-62. (in Ukrainian).

The Law of Ukraine No. 1314-VII from 5 June 2014 "On Metrology and Metrological Activity". [Electronic resource]. Access mode: https://zakon.rada.gov.ua/laws/show/1314-18#Text (in Ukrainian).

Pavlenko Yu.F. [2011] Training manual "Ensuring the unity of electroradio measurements" / Y.F. Pavlenko, І.P. Zakharov. Kondratov S.I., Guselnikov V.K. – Kharkiv, View, "Textbook of NTU", KhPI, 232 p. (in Ukrainian).

Periy S.S., Pokotylo І.Ya., Korliatovych T.Yu. [2013] Stand screw for fastening geodetic devices with centering plates of pipe marks. Patent 145153, Ukraine, UA, IPC (2013.01), 601С, art. №22.

Trevoho I.S., Savchuk S.G., Denysov О.М., Volchko P.І. [2004] New model of geodetic base. Herald of geodesy and cartography, 1(32), P. 12-16. (in Ukrainian).

Trevoho I.S., Kostecka Ya.М. [1997] Problems of metrological support of remote measurements in Ukraine. Herald of geodesy and cartography, 1, P. 61-66. (in Ukrainian).

Trevoho I.S. [2009] Geodetic training ground for metrological certification of devices and technology approval. Geoprofi, 1(19), P. 6-11. (in Ukrainian).

Trevoho I.S., Tsyupak I.M. [2013] Prospect of metrological provision linear geodetic of measurements on the geodetic test field. Reports on Geodesy, 94(1), P. 56-63. https: doi.org/10.2478/rgg-2013-0007.

Trevoho I.S., Tsyupak I.M. [2014] Metrological certification of reference bases by GNSS technology. Metrology and devices, Kharkov, No. 6, P. 52–55. (in Ukrainian).

Trevoho I.S., Lechner J., Tora B., Cernata P., Stankova H [2020] Geodetic activity for compatibility of the unit of length of geodetic bases Koštice (Czech Republic) and Yavoriv (Ukraine). Inzynieria Mineralna, Polsie towarzystwo przerobki kopalin, 1(1), P. 35-40. [Electronic resource]. Access mode: https://doi.org/10.29227/IM-2020-01-05.

Tsyupak I.M. [2012] Accuracy of point coordinates and line lengths for GPS sessions of varying lengths. Modern achievements of geodetic science and production, I(23), P. 57-59. (in Ukrainian).