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Determination of horizontal geodetic control networks for engineering objects using optoelectronic techniques

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Języki publikacji
EN
Abstrakty
EN
The correctness of the geodetic service of an engineering object not seldom requires designing, alignment or renewing of geodetic situational control points. Building robots often cause that fixed situational control points are partly or completely inaccessible. For setting the position of these control points, there is worked out the methodology using the optoelectronic method. The prepared set of tools realizes the method’s assumptions and enables to determine the sides and control points based on the set of laser planes. In this article there is presented the innovative set of geodetic equipment for fixing horizontal control points. The presented set has been experimentally tested under laboratory conditions taking its functionality, operation range and applied accuracy into account. The measurement accuracy of the set of tools, resulting from identification of the energetic centres of laser planes’ edges, visualizing the sides of geodetic control networks, is within the range of ±0.02mm - ±0.05mm. There were also discussed exemplary versions of shapes and structures of horizontal geodetic control networks (regular and irregular), which are possible to be fixed with the use of the constructed set of tools.
Rocznik
Tom
Strony
39--51
Opis fizyczny
Bibliogr. 12 poz., rys., tab.
Twórcy
  • Institute of Geodesy and Geoinformatics, Wroclaw University of Environmental and Life Sciences, Grunwaldzka 53, 50-357 Wroclaw, Poland
  • Institute of Geodesy and Geoinformatics, Wroclaw University of Environmental and Life Sciences, Grunwaldzka 53, 50-357 Wroclaw, Poland
autor
  • nstitute of Geodesy and Geoinformatics, Wroclaw University of Environmental and Life Sciences, Grunwaldzka 53, 50-357 Wroclaw, Poland
  • Institute of Geodesy and Geoinformatics, Wroclaw University of Environmental and Life Sciences, Grunwaldzka 53, 50-357 Wroclaw, Poland
autor
  • Regional Water Management Board in Wroclaw, Norwida 34, 50-950 Wrocław, Poland
Bibliografia
  • [1] Ágfalvi, M., Bokor, Zs., Farkas, R., Gyenes, R., Tarsoly, P., (2006). Geodetic Control and Setting Measurements in Mechanical Metrology XXIII FIG Congress (Munich: Germany) pp 1/11-10/11.
  • [2] Batusov, V., Budagov, J., Khubua, J., Lasseur, C., Lyablin, M., Russakovich, N., Sissakian, A. and Topilin, N., (2009). Laser Beam Fiducial Line Application for Metrological Purposes Physics of Particles and Nuclei, Vol. 40, No. 1, pp 115–129.
  • [3] Ćmielewski, K., (2007). Fibre optics and laser technology in high precision measurements of shapes and deformations of engineering objects ZN UP we Wrocławiu Nr 551 Rozprawy CCXLVI Wrocław p 242 (in Polish).
  • [4] Herty, A. and Albert, J., (2002). High Precision Survey and Alignment of Large Linear Colliders - Horizontal Alignment Proceedings of the 7th International Workshop on Accelerator Alignment, SPring-8 (Japan) pp 413-424.
  • [5] Kavanagh, B. F., (2010). Surveying with construction applications — 7th ed. (New Jersey: Prentice Hall) p 685.
  • [6] Kuchmister, J., Ćmielewski, K., Gołuch, P., Kowalski, K., (2012). Application of the laser plummet to measure the linearity of elongated objects Acta Sci. Pol. Geod. Descr. Terr. 11 (1) 5–16 (in Polish).
  • [7] Leica T-Probe, T-Scan (2012). Datasheets Hexagon AB (Unterentfelden: Switzerland).
  • [8] Matsui, S. and Zhang, C., (2002). Alignment method for 50m distance using laser and CCD camera Proceedings of the 7th International Workshop on Accelerator Alignment, SPring-8 (Japan) pp 127-139.
  • [9] Mora, A. S., (1998). Aplicaciones industriales de la topografía. (Madrid-Castilla La Mancha: Colegio Oficial de Ingenieros Técnicos en Topografía) p 367 (in Spain).
  • [10]- Pelzer, H., (1988). Ingenieurvermessung – Deformations-messungen – Massenberechnung. Ergebnisse des Arbeitskreises 6 des Deutschen Vereins für Vermessungswesen (DVW) e.V. (Stuttgart: Verlag Konrad Witwer) (in German).
  • [11] Schofield, W. and Breach, M., (2007). Engineering surveying – 6th ed. (Oxford, UK: Elsevier Ltd.) p 622.
  • [12] Schweitzer, J., Kochkine, V., Schwieger, V. and Berner, F., (2012). Quality assurance in building construction, based on engineering geodesy processes FIG Working Week (Rome: Italy).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b08ae314-2da6-4228-b28f-959db17548c0
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