Three-Dimensional Visualisation of Spatially Dispersed Phenomena on the Example of the Eduroam Wireless Network Signal Analysis in the University Building
This work is licensed under the Creative Commons Attribution 4.0 International License.
Batty M., 2013. The new science of cities. MIT Press, Cambridge, MA.BattyM.2013. The new science of cities. MIT Press, Cambridge, MA.Search in Google Scholar
Biljecki F., Ledoux H., Stoter J., 2016. Spatial data modelling for 3D GIS. ISPRS International Journal of Geo-Information 5(5): 92.BiljeckiF.LedouxH.StoterJ.2016. Spatial data modelling for 3D GIS. ISPRS International Journal of Geo-Information5(5): 92.Search in Google Scholar
Candido G.C., Silva C.R.N., 2023. Performance evaluation of the Eduroam Wi-Fi network using a low-cost prototype. XLI Brazilian Symposium on Telecommunications and Signal Processing: 8–11.CandidoG.C.SilvaC.R.N.2023. Performance evaluation of the Eduroam Wi-Fi network using a low-cost prototype. XLI Brazilian Symposium on Telecommunications and Signal Processing: 8–11.Search in Google Scholar
ESRI Inc., 2024. Collector for ArcGIS. Online: doc.arcgis. com/pl/collector-classic,/(accessed on January 3, 2024).ESRI Inc., 2024. Collector for ArcGIS. Online: doc.arcgis.com/pl/collector-classic/(accessed on January 3, 2024).Search in Google Scholar
ESRI, 2024a. ArcGIS Pro: Overview. Online: www.esri.com/en-us/arcgis/products/arcgis-pro/overview (accessed on January 8, 2024).ESRI, 2024a. ArcGIS Pro: Overview. Online: www.esri.com/en-us/arcgis/products/arcgis-pro/overview (accessed on January 8, 2024).Search in Google Scholar
ESRI, 2024b. 3D GIS | ArcGIS 3D mapping software. Online: www.esri.com/en-us/arcgis/products/arcgis-pro/overview (accessed on January 12, 2024).ESRI, 2024b. 3D GIS | ArcGIS 3D mapping software. Online: www.esri.com/en-us/arcgis/products/arcgis-pro/overview (accessed on January 12, 2024).Search in Google Scholar
Fischer M.M., Getis A. (eds), 2008. Handbook of applied spatial analysis: Software tools, methods and applications. Springer, Berlin.FischerM.M.GetisA. (eds), 2008. Handbook of applied spatial analysis: Software tools, methods and applications. Springer, Berlin.Search in Google Scholar
Florio L., Wierenga K., 2005. Eduroam: Past, present and future. Computational Methods in Science and Technology 11(2): 169–173. DOI 10.12921/cmst.2005.11.02.169-173.FlorioL.WierengaK.2005. Eduroam: Past, present and future. Computational Methods in Science and Technology11(2): 169–173. DOI 10.12921/cmst.2005.11.02.169-173.Open DOISearch in Google Scholar
Gao S., Hu Y., Li W., Zou L., 2023. Special issue on geospatial artificial intelligence. GeoInformatica 27: 133–136. DOI 10.1007/s10707-023-00493-6.GaoS.HuY.LiW.ZouL.2023. Special issue on geospatial artificial intelligence. GeoInformatica27: 133–136. DOI 10.1007/s10707-023-00493-6.Open DOISearch in Google Scholar
Górniak G., Kunz M., 2024. Technologia 3D GIS – w kierunku wykorzystania w analizach i wizualizacji zjawisk przyrodniczych. In: Środowisko przyrodnicze jako obszar badań, Vol. VI, Chapter 15, Bogucki wydawnictwo Naukowe, Poznań. DOI 10.12657/9788379865123-15.GórniakG.KunzM.2024. Technologia 3D GIS – w kierunku wykorzystania w analizach i wizualizacji zjawisk przyrodniczych. In: Środowisko przyrodnicze jako obszar badań, Vol. VI, Chapter 15, Bogucki wydawnictwo Naukowe, Poznań. DOI 10.12657/9788379865123-15.Open DOISearch in Google Scholar
Haeberling C., 2008. Cartographic design principles for 3D maps. Cartographica: The International Journal for Geograph-ic Information and Geovisualization 43(3): 175–188. DOI 10.3138/carto.43.3.175.HaeberlingC.2008. Cartographic design principles for 3D maps. Cartographica: The International Journal for Geograph-ic Information and Geovisualization43(3): 175–188. DOI 10.3138/carto.43.3.175.Open DOISearch in Google Scholar
Hamza M.H., Chmit M., 2022. GIS-based planning and Web/3D Web GIS applications for the analysis and management of MV/LV electrical networks (A Case Study in Tunisia). Applied Sciences 12: 2554. DOI 10.3390/app12052554.HamzaM.H.ChmitM.2022. GIS-based planning and Web/3D Web GIS applications for the analysis and management of MV/LV electrical networks (A Case Study in Tunisia). Applied Sciences12: 2554. DOI 10.3390/app12052554.Open DOISearch in Google Scholar
Karpińska D., Kunz M., 2021. The analysis of the visibility and signal strength of the LoRaWAN network in an urbanized area: A case study of the Bielany campus at the Nicolaus Copernicus University in Toruń. Bulletin of Ge-ography Socio-Economic Series 54: 137–149. DOI 10.2478/bog-2021-0039.KarpińskaD.KunzM.2021. The analysis of the visibility and signal strength of the LoRaWAN network in an urbanized area: A case study of the Bielany campus at the Nicolaus Copernicus University in Toruń. Bulletin of Ge-ography Socio-Economic Series54: 137–149. DOI 10.2478/bog-2021-0039.Open DOISearch in Google Scholar
Karpińska D., Kunz M., 2023. Vertical variability of night sky brightness in urbanised areas. Quaestiones Geographicae 42(1): 5–14. DOI 10.14746/quageo-2023-0001.KarpińskaD.KunzM.2023. Vertical variability of night sky brightness in urbanised areas. Quaestiones Geographicae42(1): 5–14. DOI 10.14746/quageo-2023-0001.Open DOISearch in Google Scholar
Kolbe T.H., Donaubauer A., Beil C., (eds), 2024. Recent advances in 3D geoinformation science. Proceedings of the 18th 3D Geoinfo Conference. Munich. Springer.KolbeT.H.DonaubauerA.BeilC., (eds), 2024. Recent advances in 3D geoinformation science. Proceedings of the 18th 3D Geoinfo Conference. Munich. Springer.Search in Google Scholar
Kraak M.J., Ormeling F., 2010. Cartography: Visualization of spatial data. Guilford Press, 2011-199KraakM.J.OrmelingF., 2010. Cartography: Visualization of spatial data. Guilford Press, 2011–199Search in Google Scholar
Li W., Wang M., Song X., 2015. Voxel-based modeling and analysis of 3D spatial data. International Journal of Geographical Information Science 29(8): 1370–1390.LiW.WangM.SongX.2015. Voxel-based modeling and analysis of 3D spatial data. International Journal of Geographical Information Science29(8): 1370–1390.Search in Google Scholar
Li Z., Zhu Q., Gold C., 2016. Digital terrain modeling: Principles and methodology. CRC Press.LiZ.ZhuQ.GoldC.2016. Digital terrain modeling: Principles and methodology. CRC Press.Search in Google Scholar
Mair D., Renzler M., Kovar S., Martinek T., Kadavy T., Bergmuller S., Horn A., Braun J., Kaserer L., 2023. Evolutionary optimized 3D Wi-Fi antennas manufactured via laser powder bed fusion. IEEE Access 11: 121914–121923. DOI 10.1109/ACCESS.2023.3328852.MairD.RenzlerM.KovarS.MartinekT.KadavyT.BergmullerS.HornA.BraunJ.KasererL.2023. Evolutionary optimized 3D Wi-Fi antennas manufactured via laser powder bed fusion. IEEE Access11: 121914–121923. DOI 10.1109/ACCESS.2023.3328852.Open DOISearch in Google Scholar
Nourian P., Gonçalves R., Zlatanova S., Ohori K.A., Vu Vo a., 2016. Voxelization algorithms for geospatial applications: Computational methods for voxelating spatial datasets of 3D city models containing 3D surface, curve and point data models. MethodsX 3: 69–86. DOI 10.1016/j. mex.2016.01.001.NourianP.GonçalvesR.ZlatanovaS.OhoriK.A.Vu Voa.2016. Voxelization algorithms for geospatial applications: Computational methods for voxelating spatial datasets of 3D city models containing 3D surface, curve and point data models. MethodsX3: 69–86. DOI 10.1016/j. mex.2016.01.001.Open DOISearch in Google Scholar
Nowacki Ł, Rychel J., kamiński M., 2022. Wizualizacja Przestrzeni. Academia 4(72): 34–38.NowackiŁRychelJ.kamińskiM.2022. Wizualizacja Przestrzeni. Academia4(72): 34–38.Search in Google Scholar
Rahman A., Pilouk M., 2008. Spatial data modelling for 3D GIS. Springer.RahmanA.PiloukM., 2008. Spatial data modelling for 3D GIS. Springer.Search in Google Scholar
Smith T.F., Jones C., 2004. Spline interpolation in spatial data analysis. Journal of Computational and Graphical Statistics 13(3): 579–593.SmithT.F.JonesC.2004. Spline interpolation in spatial data analysis. Journal of Computational and Graphical Statistics13(3): 579–593.Search in Google Scholar
Turner A.K., Karp T., Shumaker G.B., 2016. 3D model integration for analysis and visualization in the earth sciences. Geological Society of America, Boulder, CO.TurnerA.K.KarpT.ShumakerG.B., 2016. 3D model integration for analysis and visualization in the earth sciences. Geological Society of America, Boulder, CO.Search in Google Scholar
Wegmann M., Schwalb-Willmann J., Dech S., 2020. Introduction to spatial data analysis: Remote sensing and GIS with open source software. Pelagic Publishing Ltd.WegmannM.Schwalb-WillmannJ.DechS.2020. Introduction to spatial data analysis: Remote sensing and GIS with open source software. Pelagic Publishing Ltd.Search in Google Scholar
Wolniewicz T., Górecka-Wolniewicz M., Ołtuszyk Z., 2012. Koncepcja wdrożenia usługi Eduroam w sieci PIONIER. Projekt PLATON. Poznań: Instytut Chemii Bioorganicznej PAN, maszynopis, 7 stron.WolniewiczT.Górecka-WolniewiczM.OłtuszykZ.2012. Koncepcja wdrożenia usługi Eduroam w sieci PIONIER. Projekt PLATON. Poznań: Instytut Chemii Bioorganicznej PAN, maszynopis, 7 stron.Search in Google Scholar
Zboralski D., Kunz M., 2024. Mobile systems for assessing air quality: Available solutions and application examples. Bulletin of Geography Physical Geography Series 27: 5–26. DOI 10.12775/bgeo-2024-0007.ZboralskiD.KunzM.2024. Mobile systems for assessing air quality: Available solutions and application examples. Bulletin of Geography Physical Geography Series27: 5–26. DOI 10.12775/bgeo-2024-0007.Open DOISearch in Google Scholar
Zhang L., Wang H., Wang H., 2019. 3D-Wi-Fi: 3D localization with commodity Wi-Fi. IEEE Sensors Journal 19–13. DOI 10.1109/JSEN.2019.2900511.ZhangL.WangH.WangH.2019. 3D-Wi-Fi: 3D localization with commodity Wi-Fi. IEEE Sensors Journal19–13. DOI 10.1109/JSEN.2019.2900511.Open DOISearch in Google Scholar
Zlatanova S., Ghadikolaee N., 2015. Voxel GIS: Challenges and opportunities. Delft University of Technology, Delft.ZlatanovaS.GhadikolaeeN.2015. Voxel GIS: Challenges and opportunities. Delft University of Technology, Delft.Search in Google Scholar
Profilo Orcid