Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Digital map data sets (or geo-databases) are an important part of the spatial data infrastructure (SDI) of the European Community. Different methods of producing large-scale map data are described in the paper, and the aim is to compare the accuracy of these methods. Our analysis is based on statistical tools belonging to the multiple comparisons theory. The first method is the well-known analysis of variance (ANOVA), and the second one is the rank-based method. The latter approach, which is rarely used in geodetic research, allows us to determine the order of the considered methods with respect to the positional accuracy of digital map data that they produce. Using this approach, one can identify the least accurate set of map data or a fragment of a map that should be updated by a new direct survey. The rank-based methods can also be rather easily applied to other technical (engineering) disciplines, e.g. geodesy and cartography.
Rocznik
Tom
Strony
799--805
Opis fizyczny
Bibliogr. 40 poz., rys., tab., wykr.
Twórcy
autor
- Faculty of Geodesy, Geospatial and Civil Engineering, University of Warmia and Mazury, 15 Prawochenskiego St., 10-720 Olsztyn, Poland
autor
- Faculty of Mathematics and Computer Science, Nicolaus Copernicus University, 12/18 Chopina St., 87-100 Torun, Poland
Bibliografia
- [1] “Directive 2007/2/EC of European Parliament and of the Council of 14 March 2007 establishing an Infrastructure for Spatial Information in the European Community (INSPIRE)”, Official Journal of the European Union L108 (50), (2007).
- [2] “Rozporządzenie Ministra Spraw Wewnętrznych i Administracji z dnia 9 listopada 2011 r. w sprawie standardów technicznych wykonywania geodezyjnych pomiarów sytuacyjnych i wysokościowych oraz opracowywania i przekazywania wyników tych pomiarów do państwowego zasobu geodezyjnego i kartograficznego”, Dz.U. 2011 nr 263 poz. 1572, (2011), [in Polish].
- [3] “Rozporządzenie Ministra Administracji i Cyfryzacji z dnia 21 października 2015 r. w sprawie powiatowej bazy GESUT i krajowej bazy GESUT”, Dz.U. poz. 1938, (2015), [in Polish].
- [4] „Rozporządzenie Ministra Administracji i Cyfryzacji z dnia 2 listopada 2015 r. w sprawie bazy danych obiektów topograficznych oraz mapy zasadniczej”, Dz.U. 2015 poz. 2028, (2015), [in Polish].
- [5] “Rozporządzenie Rady Ministrów z dnia 15 października 2012 r. w sprawie państwowego systemu odniesień przestrzennych”, Dz.U. poz. 1247, (2012), [in Polish].
- [6] C. Rönsdorf, “Positional integration of geodata. Positional accuracy improvement: Impacts of improving the positional accuracy of GI databases”, EuroSDR Publication 48 – Related Papers, 2004.
- [7] A. Doskocz, “Accuracy assessment of planimetric large-scale map data for decision-making”, Geodesy and Cartography 65 (1), doi: 10.1515/geocart-2016‒0006, (2016).
- [8] “Elements of spatial data quality”, International Cartographic Associations, Commission on Spatial Data Quality, eds. S.C. Guptill, and J.L. Morrison, Pergamon Press, Oxford, 1995.
- [9] “INSPIRE geoportal of infrastructure for spatial information in the European Community”, http://inspire-geoportal.ec.europa.eu, 2016.
- [10] “European Location Framework (ELF) service – a single point of access for harmonised reference data from national mapping, Cadastre and Land Registry Authorities”, http://www.locationframework.eu, (2016).
- [11] A. Hopfstock, D. Laurent, and T. Ellett von Brasch, “ELF BaseMap – Offering a european reference map service”, in Proceedings Paper of 1st ICA European Symposium on Cartography, eds. G. Gartner, and H. Huang, EuroCarto, Vienna, 2015.
- [12] Complex project of reference geo-information source for Europe, http://www.elfproject.eu, 2016.
- [13] A. Hopfstock and D. Laurent, “Using INSPIRE data for cartographic purpose: The BaseMap experience”, in Geospatial World Forum, Lisbon, 2015.
- [14] A. Jakobsson, “Using INSPIRE data for cartographic purpose: The BaseMap experience”, in Geospatial World Forum, Lisbon, 2015.
- [15] “Positional accuracy improvement programme companion”, Ordnance Survey, Southampton, http://www.ordnancesurvey.co.uk/pai, (2004).
- [16] W. Dąbrowski and A. Doskocz, “Estimation of accuracy of the large-scale digital topographic map data”, in Proceedings Paper of 7th International Conference on Environmental Engineering 1–3, ed. D. Cygas, VGTU Press Technika, Vilnius, 1293–1299 (2008).
- [17] K. Husar, “The accuracy of digital spatial data”, Kartografickie Listy 4, 69–78 (1996), [in Slovak].
- [18] F.J.A. Lopez and A.D.A. Gordo, “Analysis of some positional accuracy assessment methodologies”, Journal of Surveying Engineering 134, 45–54 (2008).
- [19] P.V. Bolstad, P. Gessler, and T.M. Lillesand, “Positional uncertainty in manually digitized map data”, Int. J. Geogr. Inf. Systems 4, 399–412 (1990).
- [20] A. Zakarevicius and I. Jonauskiene, “Opportunity to use statistical control for quality assessment of land parcels cadastral data”, Geodesy and Cartography 33, 115–119 (2007), [in Lithuanian].
- [21] P.A. Zandbergen, “Positional accuracy of spatial data: Non-normal distributions and a critique of the national standard for spatial data accuracy”, Transactions in GIS 12, 103–130 (2008).
- [22] A. Doskocz, “The statistical approach for estimation of horizontal uncertainty of the points of digital large-scale maps”, Geodetski List 67 (90) No. 3, 201–212 (2013).
- [23] P. Bogaert, J. Delince and S. Kay, “Assessing the error of polygonal area measurements: A general formulation with applications to agriculture”, Measurement Science and Technology 16, 1170–1178 (2005).
- [24] A. Croitoru and Y. Doytsher, “Accounting for discontinuities in cadastral data accuracy: Toward a patch-based approach”, in Papers of FIG Working Week, Paris, 2003.
- [25] S. de Bruin, “Modelling positional uncertainty of line features by accounting for stochastic deviations from straight line segments”, Transactions in GIS 12, 165–177 (2008).
- [26] T. Podobnikar, “Modelling and visualisation of spatial data error. Monte Carlo simulations in Slovenia”, GIM International 13, 47–49 (1999).
- [27] A. Doskocz, “Methodology for assessing the accuracy of digital large-scale maps”, Dissertations and Monographs 193, Publishing House of University of Warmia and Mazury in Olsztyn, 2013, [in Polish].
- [28] A. Doskocz, “The use of statistical analysis for estimation of positional accuracy of large-scale digital maps”, Geodesy and Cartography 54, 131–150 (2005).
- [29] M. Hollander and D.A. Wolfe, “Nonparametric statistical methods”, Wiley, New York, 1999.
- [30] R. Duchnowski, “Robustness of strategy for testing leveling mark stability based on rank tests”, Survey Review 43, 687–699 (2011).
- [31] A. Doskocz and W. Rejchel, “Proposition of automatization of analysis of accuracy of large-scale digital maps databases”, Journal of Civil Engineering, Environment and Architecture 59, 85–93, (2012), [in Polish].
- [32] J.W. Tukey, “The philosophy of multiple comparisons”, Statistical Science 6, 100–116 (1991).
- [33] Y. Benjamini and H. Braun, “John W. Tukey’s contributions to multiple comparisons”, The Annals of Statistics 30, 1576–1594 (2002).
- [34] R Development Core Team, “R: A language and environment for statistical computing”, R Foundation for Statistical Computing, Vienna, Austria, 2015. http://www.R-project.org.
- [35] J.W. Tukey, “The problem of multiple comparisons”, The Collected Works of John W. Tukey, vol. VIII, ed. H.I. Braun, Chapman and Hall, New York, 1994.
- [36] H. Scheffé, “A method for judging all contrasts in the analysis of variance”, Biometrika 40, 87–104 (1953).
- [37] S. Holm, “A simple sequentially rejective multiple test procedure”, Scandinavian Journal of Statistics 6, 65–70 (1979).
- [38] O.J. Dunn, “Multiple comparisons using rank sums”, Technometrics 6, 241–252 (1964).
- [39] A. Doskocz, “About accuracy of analytical determination of areas for cadastre and other purposes”, in Proceedings Paper of 9th International Conference on Environmental Engineering, doi: 10.3846/enviro.2014.203, eds. D. Cygas and T. Tollazzi, VGTU Press Technika, Vilnius, 2014.
- [40] “Ustawa z dnia 17 maja 1989 r. Prawo geodezyjne i kartograficzne”, Dz.U. poz. 1433 (2015), [in Polish].
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-480fa252-d459-4370-a5f6-6dcdbcf4fbd2