Ocenjivanje položajne tačnosti digitalne topografske karte u razmeri 1:25 000 (DTK25) na osnovu standarda STANAG 2215

  • Siniša M. Drobnjak Vojnogeografski institut
  • Branko S. Božić Građevinski fakultet, Univerzitet u Beogradu
Ključne reči: Positional accuracy||, ||Položajna tačnost, STANAG 2215 standard||, ||Standard STANAG 2215, Digital topographic maps||, ||Digitalne topografske karte, Military Geographical Institute||, ||Vojnogeografski institut,

Sažetak


U radu se opisuju rezultati ocenjivanja položajne tačnosti digitalnih topografskih karata u razmeri 1:25 000, proizvedenih u Vojnogeografskom institutu (VGI) Republike Srbije. Testiranje horizontalne i vertikalne položajne tačnosti pojedinačnih listova karata urađeno je poređenjem planimetrijskih i visinskih koordinata test-tačaka sa korespondentnim tačkama veće tačnosti određenih terenskim premerom. U istaživanju je korišćen standard STANG 2215 i detaljno je opisana njegova metodologija. Rezultati ovog ocenjivanja potvrdili su najviši nivo tačnosti definisan standardom STANAG 2215.

 

Biografije autora

Siniša M. Drobnjak, Vojnogeografski institut
Viši istraživač u odeljenju za premer
Branko S. Božić, Građevinski fakultet, Univerzitet u Beogradu
redovni profesor, dekan fakulteta

Reference

Afonso, A., Dias, R. & Teodoro, R. 2006. IGeoE: Positional quality control in the 1/25000 cartography. In: 7th International Symposium on Spatial Accuracy Assessment in Natural Resources and Environmental Sciences, Lisbon. 5 ato 7 de July 2006.

Ariza López, F.J. & Atkinson Gordo, A.D. 2008. Analysis of some positional accuracy assessment methodologies. Journal of Surveying Engineering, 134(2), pp.45-54. Available at: https://doi.org/10.1061/(ASCE)0733-9453(2008)134:2(45)

Ariza-López, F.J., Mozas-Calvache, A.T., Ureña-Cámara, M.A., Alba-Fernández, V., García-Balboa, J.L., Rodríguez-Avi, J. & Ruiz-Lendínez, J.J. 2011. Sample size influence on line-based positional assessment methods for road data. ISPRS Journal of Photogrammetry and Remote Sensing, 66(5), pp.708-719. Available at: https://doi.org/10.1016/j.isprsjprs.2011.06.003.

Bozic, B. & Radojcic, S., 2011. Horizontal Accuracy of 1:50 000 Digital Topographic Maps. Survey Review, 43(319), pp.94–104. Available at: http://dx.doi.org/10.1179/003962611x12894696204740.

Congalton, R.G. & Plourde, L. 2002. Manual of geospatial science and technology. Chapter 21 - Quality assurance and accuracy assessment of information derived from remotely sensed data, pp.349-363. [e-book]. London and New York: CRC Press. Available at: https://doi.org/10.1201/9780203305928.ch21. Accessed: 20 June 2017.

Devillers, R. & Jeansoulin, R. 2010. Fundamentals of spatial data quality. Chapter 2 - Spatial Data Quality: Concepts. [e-book]. London: ISTE. Available at: http://dx.doi.org/10.1002/9780470612156.ch2. Accessed: 20 June 2017.

Drobnjak, S., Radojčić, S. & Božić, B. 2014. Primena ISO 19157 standarda u tehnološkom procesu izrade digitalnih topografskih karata. Tehnika, 69(6), pp. 931-937 (in Serbian). Available at: http://dx.doi.org/10.5937/tehnika1406931D.

Drobnjak, S., Sekulović, D., Amović, M., Gigović, Lj. & Regodić, M., 2016. Central geospatial database analysis of the quality of road infrastructure data. Geodetski vestnik, 60(2), pp.269-284. Available at: http://dx.doi.org/ 10.15292/geodetski-vestnik.2016.02.269-284.

Drummond, J., 1995. Elements of Spatial Data Quality. Chapter 3 - Positional accuracy, pp.31-58. [e-book]. Elsevier. Available at: http://dx.doi.org/10.1016/b978-0-08-042432-3.50010-0.

-Esri ArcGIS, Positional Accuracy Assessment Tool Help. Redlands, CA, USA. [Internet]. Available at: http://desktop.arcgis.com/en/arcmap/latest/extensions/data-reviewer/what-is-positional-accuracy-assessment.htm. Accessed: 24 March 2017.

Goodchild, M.F. & Hunter, G.J. 1997. A simple positional accuracy measure for linear features. International Journal of Geographical Information Science, 11(3), pp.299–306. Available at: http://dx.doi.org/10.1080/136588197242419.

-NATO, 2002. Standardization Agreement (STANAG) 2215: Evaluation of Land Maps, Aeronautical Charts and Digital Topographic Data, 6th ed. Brussels: NATO Standardization Agency.

Petrovič, D. 2006. Ocena kakovosti državne topografske karte v merilu 1: 50 000. Geodetski vestnik, 50(2), pp.187-200 (in Slovenian). Available at: http://www.geodetski-vestnik.com/50/2/gv50-2_187-200.pdf.

Skidmore, A.K. and Turner, B.J., 1992. Map accuracy assessment using line intersect sampling. Photogrammetric Engineering and Remote Sensing, 58(10), pp.1453-1457. Available at: https://www.asprs.org/wp-content/uploads/pers/1992journal/oct/1992_oct_1453-1457.pdf

Stanislawski, L.V., Dewitt, B.A. and Shrestha, R.L., 1996. Estimating positional accuracy of data layers within a GIS through error propagation. Photogrammetric Engineering and Remote Sensing, 62(4), pp.429-433. Available at: https://pdfs.semanticscholar.org/9097/a7d91741c65d3a18d6e1c38dccc13bf0cf9a.pdf.

Tveite, H. 1999. An accuracy assessment method for geographical line data sets based on buffering. International Journal of Geographical Information Science, 13(1), pp.27–47. Available at: http://dx.doi.org/10.1080/136588199241445.

Zandbergen, P.A., 2008. Positional Accuracy of Spatial Data: Non-Normal Distributions and a Critique of the National Standard for Spatial Data Accuracy. Transactions in GIS, 12(1), pp.103–130. Available at: http://dx.doi.org/10.1111/j.1467-9671.2008.01088.x.

Objavljeno
2017/12/21
Rubrika
Pregledni radovi