Assessing the usefulness of the photogrammetric method in the process of capturing data on parcel boundaries

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A parcel is the most important object of real estate cadastre. Its primary spatial attribute are boundaries, determining the extent of property rights. Capturing the data on boundaries should be performed in the way ensuring sufficiently high accuracy and reliability. In recent years, as part of the project “ZSIN – Construction of Integrated Real Estate Information System – Stage I”, in the territories of the participating districts, actions were taken aimed at the modernization of the register of land and buildings. In many cases, this process was carried out basing on photogrammetric materials. Applicable regulations allow such a possibility. This paper, basing on the documentation from the National Geodetic and Cartographic Documentation Center and on the authors’ own surveys attempts to assess the applicability of the photogrammetric method to capture data on the boundaries of cadastral parcels. The scope of the research, most importantly, included the problem of accuracy with which it was possible to determine the position of a boundary point using photogrammetric surveys carried out on the terrain model created from processed aerial photographs. The article demonstrates the manner of recording this information in the cadastral database, as well as the resulting legal consequences. Moreover, the level of reliability of the entered values of the selected attributes of boundary points was assessed.

Ali, Z., Tuladhar, A. and Zevenbergen, J. (2012). An integrated approach for updating cadastral maps in Pakistan using satellite remote sensing data. International Journal of Applied Earth Observation and Geoinformation, 18, 386–398. DOI: 10.1016/j.jag.2012.03.008

Alkan, M. and Solak, Y. (2010). An investigation of 1: 5000 scale photogrammetric data for cadastral mapping uses: A case study of Kastamonu-Taskopru. African Journal of Agricultural Research, 5(18), 2576–2588.

Aringer, K. and Roschlaub, R. (2014). Bavarian 3D building model and update concept based on LiDAR, image matching and cadastre information. Innovations in 3D Geo-Information Sciences. Springer International Publishing, pp. 143–157.

Benduch, P. and Pęska, A. (2016). Comparison of the methods of capturing data concerning parcel boundaries in aspects of their accuracy and reliability. In International Geographic Information Systems Conference and Exhibition “GIS ODYSSEY 2016”, 5th to 9th September 2016 (pp. 25–34). Perugia, Italy: Croatian Information Technology Society – GIS Forum.

Bieda, A., Hanus, P., Jasińska, E. and Preweda, E. (2014). Accuracy of determination of real estate area. In the 9th International Conference “Environmental engineering”, 22–23 May 2014 (pp. 1–7). Vilnius, Lithuania: Vilnius Gediminas Technical University Press Technika. DOI: 10.3846/enviro.2014.191

Cunningham, K., Walker, G., Stahlke, E. and Wilson, R. (2011). Cadastral audit and assessments using unmanned aerial systems. In the International Conference on Unmanned Aerial Vehicle in Geomatics (UAV-g), 14-16 September 2011 (pp. 213–216). Zurich, Switzerland: International Society for Photogrammetry and Remote Sensing.

Demir, O., Uzun, B. and Çete, M. (2008). Turkish cadastral system. Survey Review, 40(307), 54–66. DOI: 10.1179/003962608X253484

Doskocz, A. (2013). Methodology for assessing the accuracy of digital large-scale maps. Dissertations and Monographs, 193, University of Warmia and Mazury in Olsztyn, Poland.

Doskocz, A. (2016). Accuracy assessment of planimetric large-scale map data for decision-making. Geodesy and Cartography, 65(1), 3–12. DOI: 10.1515/geocart-2016-0006

Felcenloben, D. (2015). Ocena jakości danych ewidencyjnych oraz efektywności funkcjonowania katastru nieruchomości. ISBN: 978-83-7717-219-3. Wrocław, Poland: Wydawnictwo UWP.

Hanus, P. (2006). Ocena przydatności dokumentacji byłego katastru austriackiego dla potrzeb prac geodezyjnych. Unpublished PhD thesis, AGH University of Science and Technology, Cracow, Poland.

Jazayeri, I., Rajabifard, A. and Kalantari, M. (2014). A geometric and semantic evaluation of 3D data sourcing methods for land and property information. Land Use Policy, 36, 219–230. DOI: 10.1016/j.landusepol.2013.08.004

Kadaj, R. (2016). Empirical methods of reducing the observations in geodetic networks. Geodesy and Cartography, 65(1), 13–40. DOI: 10.1515/geocart-2016-0001

Kuklicz, P. and Kuźnicki, W. (2015). Zdjęcia lotnicze – skuteczna metoda na EGiB. Magazyn geoinformacyjny Geodeta, 6, 18–20.

Kurczyński, Z. and Bakuła, K. (2016). Ocena możliwości współczesnej fotogrametrii w pracach z zakresu ewidencji gruntów i budynków. Przegląd Geodezyjny, 88(7), 2–10. DOI: 10.15199/50.2016.7.1

Kurczyński, Z. (2002). Modernizacja ewidencji gruntów i budynków na terenach gdzie funkcjonują mapy ewidencyjne w skali 1: 2880 z wykorzystaniem metod fotogrametrii cyfrowej. Archiwum Fotogrametrii, Kartografii i Teledetekcji, 12, 203–215.

Łuczyński, R. (2011). Historyczne i współczesne technologie pomiarowe w aspekcie potrzeb katastru nieruchomości. Science session on occasion of 90th anniversary of Faculty of Geodesy and Cartography existing, 27-28 May 2011. Warszawa, Poland: Politechnika Warszawska.

Manyoky, M., Theiler, P., Steudler, D. and Eisenbeiss, H. (2011). Unmanned aerial vehicle in cadastral applications. ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 3822, 57–62. DOI: 10.5194/isprsarchives-XXXVIII-1-C22-57-2011

Paszotta, Z. and Szumiło, M. (2006). Źródła błędów numerycznego modelu terenu pozyskanego metodami fotogrametrycznymi. Геодезія, картографія і аерофотознімання: український між-відомчий науково-технічний збірник / Міністерство освіти і науки України, Національний університет „Львівська політехніка” ; відповідальний редактор П. М. Зазуляк. – Львів : Ви-давництво Національного університету «Львівська політехніка», Випуск 67, 44–51.

Siriba, D. (2009). Positional Accuracy Assessment of a Cadastral Dataset based on the Knowledge of the Process Steps used. In the 12th AGILE Conference on GIScience, June 2-5 2009. Hannover, Germany: Association of Geographic Information Laboratories in Europe.

Sung, S. M. and Lee, J. O. (2016). Accuracy of Parcel Boundary Demarcation in Agricultural Area Using UAV-Photogrammetry. Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography, 34(1), 53–62. DOI: 10.7848/ksgpc.2016.34.1.53

Regulation of the Minister of Administration and Digitalization of 29 November 2013 amending the regulation on the register of land and buildings (Official Journal 2013, No. 0, item 1551).

Regulation of the Minister of Administration and Digitalization of 6 November 2015 amending the regulation on the register of land and buildings (Official Journal 2015, No. 0, item 2109).

Regulation of the Minister of Internal Affairs and Administration of 9 November 2011 on the technical standards for the performance of horizontal and height measurements and processing as well as transferring results of these measurements to the National Geodetic and Cartographic Resource (Official Journal 2011, No. 263, item 1572).

Regulation of the Minister of Regional Development and Construction of 29 March 2001 on the register of land and buildings (Official Journal 2016, No. 0, item 1034 – consolidated text, as amended).

The Act of 17 May 1989 Geodetic and Cartographic Law (Official Journal 2015, No. 0, item 520 – consolidated text, as amended).

Technical Guidelines. The rules of preparing orthophotomaps in scale 1:10000. Central Office of Geodesy and Cartography, Warszawa, 2000.

Weissmann, K. (1971). Photogrammetry applied to cadastral survey in Switzerland. The Photogrammetric Record, 7(37), 5–15.

Williamson, I. P. (1983). Cadastral survey techniques in developing countries – with particular reference to Thailand. Australian surveyor, 31(7), 496–512.

Wróbel, A. (2015). Possibilities to verify spatial data of real estate using archival aerial photogrammetric images. In International Geographic Information Systems Conference and Exhibition “GIS ODYSSEY 2015”, 7th to 11th September 2015 – Modern Geodetic Techniques in Spatial Measurement (pp. 26–40). Perugia, Italy: Croatian Information Technology Society – GIS Forum.

Zwirowicz-Rutkowska, A. (2016). On the use of IT investment assessment methods in the area of spatial data infrastructure. Geodesy and Cartography, 65(1), 111-122. DOI: 10.1515/geocart-2016-0005

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