Search Results

You are looking at 1 - 10 of 57 items for :

Clear All
Open access

Pavol Zahorec, Roman Pašteka and Juraj Papčo

References ACE2, 2010: Altimeter Corrected Elevations 2 http://tethys.eaprs.cse.dmu.ac.uk/ACE2/shared/overview ASTER, 2010: ASTER Digital Elevation Model http://asterweb.jpl.nasa.gov/content/03_data/01_Data_Products/release_DEM_relative.htm ASTER GDEM, 2010: ASTER Global Digital Elevation Model http://www.ersdac.or.jp/GDEM/E/4.html Blížkovský M., Bednář J., Klečka K., Odstrčil J., 1976: Instruction for gravimetrical mapping in the scale 1:25 000. MS

Open access

Dominika Godová, Miroslav Bielik and Barbora Šimonová

, Bratislava, 155 (in Slovak). Csontos L., Nagymarosy A., Horváth F., Kováč M., 1992: Tertiary evolution of the Intra-Carpathian area: a model. Tectonophysics, 208 , 221–241. Dérerová J., Zeyen H., Bielik M., Salman K., 2006. Application of integrated geophysical modeling for determination of the continental lithospheric thermal structure in the eastern Carpathians. Tectonics, 25 , 3, 1–12. TC3009, doi: 10.1029/2005TC001883. Gemmer L., Houseman G. A., 2007: Convergence and extension driven by lithospheric gravitational instability: evolution of the Alpine

Open access

Mohsen Lutephy

References Abarca del Rio R., Gambis D., Salstein D. A., 2000: Interannual signals in length of day and atmospheric angular momentum. Ann. Geophys., 18, 347-364, doi: 10.1007/ s00585-000-0347-9. Abarca del Rio R., Gambis D., Salstein D., Nelson P., Dai A., 2003: Solar activity and earth rotation variability. Journal of Geodynamics, 36, 423-443, doi: 10.1016/S02 64-3707(03)00060-7. Alexandrescu M., Gibert D., Hulot G., Le Mou¨el J.-L., Saracco G., 1995: Detection of geomagnetic jerks using wavelet analysis. J

Open access

Barbora Šimonová and Miroslav Bielik

integrated geophysical modeling for determination of the continental lithospheric thermal structure in the eastern Carpathians. Tectonics, 25, 3, TC3009. Eliáš M., Uhmann J., 1968: Densities of the rocks in Czechoslovakia. Geological Survey, Prague, 84. Gardner G. H. F., Gardner L. W., Gregory A. R., 1974: Formation velocity and density - the diagnostic basics for stratigraphic traps. Geophysics, 39, 770-780, doi: 10.119 0/1.1440465. Grabowska T., G. Bojdys, 2005: Preliminary 2D density and magnetic models of the lithosphere

Open access

Wojciech Jarmołowski

). Regularization of gravity field estimation from satellite gravity gradients. J Geod., 76, 359-368. Marchenko, A., Tartachynska Z., Yakimovich A., & Zablotskyj F. (2003). Gravity anomalies and geoid heights derived from ERS-1,ERS-2, and Topex/Poseidon altimetry in the Antarctic peninsula area, Proceedings of the 5th International Antarctic Geodesy Symposium AGS’03, September 15-17, Lviv, Ukraine, SCAR Report No. 23, http://www.scar.org/publications/reports/23/ Moreaux, G. (2008). Compactly supported radial covariance functions, J Geod., 82, 431

Open access

Jarosław Janus, Magdalena Łopacka and Ewa John

Estate Research, 1(1), 25-44. Yin, S., Wei, C. F., Yang, X. Y. and Luo, Y. J. (2011). The ecological compensation of land consolidation and its evaluation in hilly area of southwest China. In Energy Procedia (Vol. 5, pp. 1192-1199). https://doi.org/10.1016/j.egypro.2011.03.209 Zhang, Q., Luo, H. and Yan, J. (2012). Integrating biodiversity conservation into land consolidation in hilly areas - A case study in southwest China. Acta Ecologica Sinica, 32(6), 274-278. https://doi.org/10.1016/j.chnaes.2012.06.002 Zhang, Z. and

Open access

Adam Bolesław Łyszkowicz and Anna Bernatowicz

References Albertella, A., Savcenko R., Janjic T., Rummel R., Bosch, W. and Schröter, J. (2012). High resolution dynamic ocean topography in the Southern Ocean from GOCE. Geophysical Journal International, 190(2), 22-930. DOI: 10.1007/978-3-642-37222-3_10 Andersen, O.B. and Knudsen, P. (2000). The role of satellite altimetry in gravity field modelling in coastal areas. Physics and chemistry of the earth. Part A-solid earth and geodesy, 25(1), 17-24. DOI: 10.1016/S1464-1895(00)00004-1 Andersen, O.B., Knudsen, P

Open access

Michał Mateusz Buczek

, October). Closest-point problems. In Foundations of Computer Science, 1975., 16th Annual Symposium on (pp. 151–162). Szombara, S. (2013). Transformation of areal objects into linear objects, regarding the map scale. Geoinformatica Polonica , 12, 25–34, DOI: 10.2478/v10300-012-0010-5 Voronoï, G. (1908). Nouvelles applications des paramètres continus à la théorie des forms quadratiques. Deuxième mémoire. Recherches sur les parallélloèdres primitifs. Journal für die reine und angewandte Mathematik, 134, 198–287. Willcocks, C., Jackson, P., Nelson, C

Open access

Walyeldeen Godah, Małgorzata Szelachowska and Jan Krynski

, E. and Sideris, M.G. (2008). Contributions of terrestrial and GRACE data to the study of the secular geoid changes in North America. J. Geodyn., 46(3): 131-143. https://doi.org/10.1016/j. jog.2008.03.006 Rangelova, E., Fotopoulos, G. and Sideris, M.G. (2010). Implementing a dynamic geoid as a vertical datum for orthometric heights in Canada. In: S.P.P. Mertikas (ed), Gravity, Geoid and Earth Observation, IAG Commission 2 Gravity Field, Chania, Greece, IAG Symposia, 135: 295-302, June 23-27, 2008, Springer. https://doi.org/10

Open access

Piotr Benduch and Agnieszka Pęska-Siwik

References 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