Kartografia UAM - artykuły


Medyńska-Gulij, B., Żuchowski T.J., 2018, An Analysis of Drawing Techniques used on European Topographic Maps in the Eighteenth Century, The Cartographic Journal; DOI:10.1080/00087041.2018.1558021 (w druku)
Lorek D., Medyńska-Gulij B., 2018, Scope of information in the legends of topographical maps in the nineteenth century - Urmesstischblätter, The Cartographic Journal; DOI:10.1080/00087041.2018.1541204 (w druku)
Halik Ł., 2018, Challenges in converting Polish topographic database of built-up areas into 3D virtual reality geovisualization, The Cartographic Journal; DOI: 10.1080/00087041.2018.1541204 (w druku)
Cybulski P., Wielebski Ł., 2018, Effectiveness of dynamic point symbols in quantitative mapping, The Cartographic Journal; DOI: 10.1080/00087041.2018.1507183
Wielebski Ł., Medyńska-Gulij B., 2018, Graphically supported evaluation of mapping techniques used in presenting spatial accessibility, Cartography and Geographic Information Science; doi:10.1080/15230406.2018.147931 (zapytaj autorów o PDF)
Cybulski P., Medyńska-Gulij B., 2018, Cartographic redundancy in detecting extreme values in spatio-temporal maps, ISPRS International Journal of Geo-Information 2018, 7(1), 8; doi:10.3390/ijgi7010008 http://www.mdpi.com/2220-9964/7/1/8/htm
Medyńska-Gulij B., 2018, Educating tomorrow's cartographers, in: The Routledge Handbook of Mapping and Cartography, Ed. Alexander J. Kent and Peter Vujakovic, Routledge, 561-568. ISBN-13: 978-1138831025
Halik Ł., Smaczyński M., 2017, Geovisualisation of relief in a virtual reality system on the basis of low aerial images Pure and Applied Geophysics, doi.org/10.1007/s00024-017-1755-z
Halik Ł., Medynska-Gulij B., 2017, The differentiation of point symbols using selected visual variables in the mobile augmented reality system, The Cartographic Journal, 54(2), 147-156. doi.org/10.1080/00087041.2016.1253144
Horbiński T., Medyńska-Gulij B., 2017, Geovisualisation as a process of creating complementary visualisations: static two-dimensional, surface three-dimensional, and interactive, Geodesy & Cartography, 66, 1, 2017, 45-58, DOI: 10.1515/geocart-2017-0009
Smaczyński M., Medyńska-Gulij B., 2017, Low aerial imagery - an assessment of georeferencing errors and the potential for use in environmental inventory, Geodesy & Cartography; 66, 1, 2017, 89-104, DOI: 10.1515/geocart-2017-0005
Cybulski P., 2016, Desing Rules and Practices for Animated Maps Online, Journal Journal of Spatial Science 61/2: 461-471, DOI: 10.1080/14498596.2016.1147394
Kubiak J., Ławniczak R., 2016, The propagation of noise in a built-up area (on the example of a housing estate in Poznan), Journal of Maps, 12/2: 231-236, DOI: 10.1080/17445647.2014.1001801
Kubiak J., Ławniczak R., 2016, Geometric accuracy of topographical objects at Polish topographic maps, Geodesy and Cartography, 65/1: 55-66, DOI: 10.1515/geocart-2016-0003
Lorek D., 2016, Multimedia integration of cartographic source materials for researching and presenting phenomena from economic history Geodesy and Cartography; 65/2:271-281, DOI: 10.1515/geocart-2016-0015
Medynska-Gulij B., Cybulski P., 2016, Spatio-temporal dependencies between hospital beds, physicians and health expenditure using visual variables and data classification in statistical table, Geodesy and Cartography, 65(1), 67-80. http://www.degruyter.com/view/j/geocart.2016.65.issue-1/geocart-2016-0002/geocart-2016-0002.xml.
Bielecka E., Medyńska-Gulij B., 2015, Zur Geodateninfrastruktur in Polen. Geodata Infrastructure in Poland, Kartographische Nachrichten, 65/4:201-208.
Medyńska-Gulij B., Dickmann F., Halik Ł., Wielebski Ł., 2015, Mehrperspektivische Visualisierung von Informationen zum räumlichen Freizeitverhalten. Ein Smartphone-gestützter Ansatz zur Kartographie von Tourismusrouten. Multiperspective visualisation of spatial spare time activities. A smartphone-based approach to mapping tourist routes, Kartographische Nachrichten, 67/6:323-329. https://www.geographie.ruhr-uni-bochum.de
Cybulski P., 2014, Presentation of spatio-temporal data in the context of information capacity and visual suggestiveness, Geodesy and Cartography; 63 (2), pp. 147-159
Ławniczak R., Kubiak J., 2013, Implementation of the 1: 10 000 Scale for Visualisation of Environmental Changes, The Cartographic Journal,50/1: 82-90, DOI: 10.1179/1743277412Y.0000000009
Medyńska-Gulij B., 2013, How the Black Line, Dash and Dot Created the Rules of Cartographic Design 400 Years Ago, The Cartographic Journal, 50/4:356-368, DOI: 10.1179/1743277413Y.0000000035
Halik Ł., 2012, The analysis of selected point-symbol visual variables of the Augmented Reality system for smartphone-type mobile devices, Geodesy and Cartography, 61:19-30,
Medyńska-Gulij B., 2012, Pragmatische Kartographie in Google Maps API, Pragmatical Cartography in Google Maps API, Kartographische Nachrichten, 5:250-255, DOI: 10.19212/kn-2012-05-01
Medyńska-Gulij B., 2010, Map compiling, map reading and cartographic design in "Pragmatic pyramid of thematic mapping", Quaestiones Geographicae, 29/1:57-63, DOI: 10.2478/v10117-010-0006-5
Ławniczak R., Kubiak J., 2009, Cartographic Presentation of Forms of Protection and Degradation of the Natural Environment: Sozological Map on a Scale of 1: 50 000, Cartographic Journal, The, 46/3: 228-232, DOI: 10.1179/000870409X12472347560669
Ławniczak R., 2008, Use of Cartographic Analysis for Determining the Morphometric Features of Selected Groups of Glacial Configuration Forms The Cartographic Journal, 45/4: 286-295, DOI: 10.1179/174327708X347782
Medynska-Gulij B., 2008, Point Symbols: Investigating Principles and Originality in Cartographic Design, The Cartographic Journal, 45/1:62-67, DOI: 10.1179/000870408X276602
Medyńska-Gulij B., 2003, The effect of cartographic content on tourist map users, Cartography, 32:47-52, DOI:10.1080/00690805.2003.9714252.
Zakład Kartografii i Geomatyki 2018 .