Kapitola 10 Použitá literatura a zdroje

Knihy, kapitoly v knihách

ANSELIN, L. (1988): Spatial econometrics: Methods and models. Kluwer Academic Publishers, Dordrecht, 284 str.
AWANGE, J., KIEMA, J. (2019): Data Models and Structure. - In: Environmental Geoinformatics. Environmental Science and Engineering. Springer, Cham, pp. 213-217, ISBN 978-3-030-03016-2.
ANSELIN, L. (1990): What is special about spatial data? Alternative perspectives on spatial data analysis. In: Griffith, D. A. (ed): Spatial statistics, past, present and future. Institute of Mathematical Geography, Ann Arbor, MI, str. 63 – 77.
ARONOFF, S. (1989): Geographic Information Systems: A Management Perspective. Ottawa, WDL Publications,ISBN 0-9218404-00-8.
BERRY, B., MARBLE, D. (1968): Spatial analysis – a reader in statistical geography. Prentice-Hall, New Jersey, 512 str.
BONHAM-CARTER, G. F. (2013): Geographic Information Systems for Geoscientists: Modelling with GIS. Otawwa: Elsevier, 416 pp., ISBN 9780080571805.
BORRMANN, A., VAN TREECK, Ch., RANK, E. (2006): Towards a 3D Spatial Query Language for Building Information Models : -. In Proc. Joint Int. Conf. of Computing and Decision Making in Civil and Building Engineering. Dostupné z: http://www.inf.bv.tum.de/papers/uploads/paper_0522.pdf (cit. 17. 11. 2019).
BURDEA, G., COIFFET, P. (2003): Virtual Reality Technology (second edition). Hoboken: John Wiley & Sons Inc., 444 p., ISBN 0-471-36089-9.
BURROUGH, P. A. (1986): Principles of Geographic Information Systems for Land Resource Assessment. Monographs on Soil and Resources Survey No. 12, Oxford Science Publications, New York.
DALLEMOLE, W., REGO, R., ARAÚJO, A. F. R. (2010): The Self-Organizing Approach for Surface Reconstruction from Unstructured Point Clouds. - In: Matsopoulos, G. (ed.): Self-Organizing Maps, IntechOpen, pp. 167-188.
DEMERS, M. (1997): Fundamentals of Geographic Information System. USA, John Wiley & Sons Inc., 486 stran, ISBN 0-471-14284-0.
FISCHER, M. M., GETIS, A. (eds) (1997): Recent Developments in Spatial Analysis: Spatial Statistics, Behavioural Modelling, and Computational Intelligence. Springer, Berlin, 433 str.
FOTHERINGHAM, A. S., ROGERSON, P. A. (eds) (2009): The SAGE Handbook of Spatial Analysis. SAGE, London, 511 str.
FRANK, A. U., Raubal, M., van der Vlugt, M. (eds.)(2000): Panel - GI kompendium. Průvodce světem geoinformací a geografických informačních systémů. The European Commission, DG Information Society, INCO-COPERNICUS Programme, GeoInfor Series nr. 21, Vienna, ISBN 3-901716-22.
HAINING, R. (2009b): The Special Nature of Spatial Data. In: Fotheringham, A. S., Rogerson, P. A. (eds): The SAGE Handbook of Spatial Analysis. SAGE, London, str. 5 – 23.
Hlásny, T. (2007): Geografické informačné systémy: priestorové analýzy. Zephyros & Národné lesnícke muzeum - Lesnícky výskumný ústav Zvolen, 160 s., ISBN 978-80-8093-029-5.
HORÁK, J. (2002): Prostorové analýzy s aplikacemi na trhu práce. Habilitační práce. Institut geoinformatiky, Hornicko-geologická fakulta, Vysoká škola báňská – Technická univerzita Ostrava, Ostrava, 143 str.
IVANIČKA, K. (1980): Základy teórie a metodológie socioekomickej geografie. Bratislava, Slovenské pedagogické nakladaľstvo, 448 s.
KOLBE, T. H. (2009): Representing and Exchanging 3D City Models with CityGML. - In.Lee, J. and Zlatanova, S. (eds.): 3D Geo-Informations Sciences. Springer Berlin, Heidelberg, pp. 15-31.
KRAAK, M., ORMELLING, F. (1996): Cartography. Visualisation of spatial data. Londýn, Longman Scientific & Technical.222 s., ISBN 0-582-25953-3.
KRCHO, J. (1990): Morfometrická analýza a digitálne modely georeliéfu. Slovenská akadémia vied, Bratislava.
KRESE, W., DANKO, D. M. (eds.)(2012): Springer Handbook of Geographic Information. Berlin: Springer-Verlag, 1131 pp., ISBN 978-3-540-72678-4.
LAURINI, R., THOMPSON, D. (1994): Fundamentals of Spatial Information Systems. Londýn, The APIC series, number 37, Academic Press, 680 s, ISBN 0-12-438380-7.
MAGUIRE, D. J., GOODCHILD, M. F., RHINDT, D. W. (1991): Geographical Information Systems, Vol. I: Principles, Vol. II: Applications. London: Longman Scientific & Technology.
McDONNEL, R., KEMP, K. (1995): International GIS Dictionary. Cambridge: GeoInformation International, 111 pp.
REDDY, M. (2008): Three-dimensional Visualization. - In. Kemp, K. K.: Encyclopedia of Geographic Information Science. Los Angeles: Calif: SAGE Publications, s. 474-477, ISBN 978-14-12913-33.
THILL, J., HOROWITZ, J. (1997): Modelling non*work destination choices with choice sets defined by travel-time constraints. In. Fischer, M., Getis, A. (eds.): Recent Developments in Spatial Analysis. Berlin: Springer-Verlag, s. 186-208, ISBN 3-540-63180-1.
TIEFELSDORF, M. (2000): Modelling spatial processes: the identification and analysis of spatial relationships in regression residuals by means of Moran´s. Berlin: Springer-Verlag, Lecture notes in earth sciences, 87, 167 s., ISBN 3-540-66208-1.
TUČEK, J. (1998): Geografické informační systémy: principy a praxe. Praha: Computer Press, 424 s., ISBN 80-7226-091-X.
VOŽENÍLEK, V. (2005): Cartography for GIS: Geovisualization and Map Communication. Olomouc: Univerzita Palackého v Olomouci, 142 s., ISBN 80-244-10-478.
ŽÁRA, J., BENEŠ, B., SOCHOR, J., FELKEL, P. (2005): Moderní počítačová grafika. Praha: Computer Press, 608 s.

Skripta a studijní materiály

BöHM, J. (2002): Fotogrammetrie. Ostrava: VŠB - TU Ostrava, Hornicko-geologická fakulta, Institut geodézie a důlního měřictví. Studijní text. 16 s.
DOBROVOLNÝ, P.(2010): Geostatistika (pracovní texty). Brno: Masarykova univerzita, Přírodovědecká fakulta, Geografický ústav, 104 s.
DUDORKIN, J. (1997): Operační výzkum. Praha: ČVUT, Fakulta elektrotechnická, 296 s., ISBN 80-01-01571-8.
HORÁK, J. (2002): Zpracování dat v GIS. Skripta PGS. VŠB-TU Ostrava, 24 s.
HORÁK, J. (2011): Prostorové analýzy dat. VŠB-TU Ostrava, HGF, Institut geoinformatiky, 3. vydání, 127 s.
JANÁČEK, J. (2006): Optimalizace na dopravních sítích. Žilina: Žilinská univerzita, 248 s., ISBN 978-80-01-03791-1.
KOLÁŘ, J. (1997): Geografické informační systémy 10. Praha: Vydavatelství ČVUT, 150 s.
NOVOTNÁ, M. (2014): Geogrfické informační systémy v humánní geografii. Plzeň: Západočeská univerzita, Fakulta ekonomická, 101 s., ISBN 978-80-261-0466-7.
PAVLÍK, Z., KÜHNL, K. (1981): Úvod do kvantitativních metod pro geografy. Praha, SPN, 267 s.
PACINA, J., BREJCHA, M. (2014): Digitální modely terénu. Studijní opora, Ústí n. L.: Univerzita J. E. Purkyně, Fakulta životního prostředí, 73 s., ISBN 978-80-7414-848-4.
RAPANT, P. (2014): Základy geoinformatiky. Ostrava: VŠB-TU Ostrava, Hornicko-geologická fakulta, 146 s.
SMUTNÝ, J. (2007): Geografické informační systémy: modul CN02. Brno: VUT, Fakulta stavební, 123 s.
SCHEJBAL, C. (1996): Úvod do geostatistiky. Ostrava: VŠB - TU Ostrava, HGF, ISBN 80-7078-325-7.
VEVERKA, B. (1997): Topograická a tematická kartografie. Praha: ČVUT, Fakulta stavební, 203 s., ISBN 80-01-0124-X.

Články

ANSELIN, L. (1995): Local Indicators of Spatial Association – LISA. Geographical Analysis, 27, č. 2, str. 93 – 115.
ANSELIN, L. (1999): The Future of Spatial Analysis in the Social Sciences. Geographic Information Sciences, 5, č. 2, str. 67 – 76.
ARENS, C., STOTER, J., VAN OOSTEROM, P. (2005): Modelling 3D spatial objects in a geo-DBMS using a 3D primitive. Computers. 2005, 31 (2), pp. 165-177. Dostupné z: http://linkinghub.elsevier.com/retrieve/pii/S009830040400192X (cit. 17. 11. 2019).
BERRY, B. J. L., GRIFFITH, D. A., TIEFELSDORF, M. R. (2008): From Spatial Analysis to Geospatial Science. Geographical Analysis, 40, č. 3, str. 229 – 238.
BRUHA, L. (2017): Modely prostorových dat v GIS: od 2D k 3D. Geografické rozhledy, 26 (4), s. 18-19.
CLEMENTINI, E., SHARMA, J., EGENHOFER, M. J. (1998). Modelling topological spatial relations: Strategies for query processing. Computers. 1994, 18 (6) pp. 815-822.ISSN 00978493. DOI: 10.1016/0097-8493(94)90007-8. Dostupné z: http://linkinghub.elsevier.com/retrieve/pii/0097849394900078
COORS, V. (2003): 3D*GIS in networking environments. Computers, Environment and Urban Systems, 27 (4), pp. 345-357.
DASHORA, A., LOHANI, B., DEB, K. (2013): Two-step procedure of optimisation for flight planning problem for airborne LIDAR data acquisition. Mathematics, Computer Science, IJMNO, 4, pp. 323-350.
DEREN, L., JIANYA, G. (1992): An unified data structure based on linear quadtrees. EARSeL Advances in Remote Sensing, 1 (3), pp. 33-38.
EGENHOFER, M., J., FRANZOSA, R. D. (1991). Point-set topological spatial relations.International journal of geographical information systems. 1991, 5 (2), pp. 161-174.
GAZMEH, H., ALESHEIKH, A. A., KARIMI, M., CHEHREGHAN, A. (2013): Spatio Temporal Forest Fire Spread Modeling Using Cellular Automata HOney Bee Foraging and GIS. Bulletin of Environment, Pharmacology and Life Sciences, 3 (1), pp. 201-214.
GOODCHILD, M. F. (2000): The current status of GIS and spatial analysis. Geographical & Environmental Modelling, 5, č. 2, str. 5 – 10.
JOHNSTON, R. J. (2000): On Disciplinary History and Textbooks: or Where Has Spatial Analysis Gone? Australian Geographical Studies, 38, č. 2, str. 125 – 137.
GOODCHILD, M. F. (2004b): The Validity and Usefulness of Laws in Geographic Information Science and Geography. Annals of the Association of American Geographers, 94, č. 2, str. 300 – 303.
HAINING, R. P. (2009a): Spatial Autocorrelation and the Quantitative Revolution. Geographical Analysis, 41, č. 4, str. 364 – 374.
KÖNINGER, A., BARTEL, S. (1998): 3D-GIS for Urban Purposes. Geoinformatika, 2 (1), pp. 79-103.
LEDOUX, H., MEIJERS, M. (2011): Tpologically consistent 3D city models obtained by extrusion. International Journal of Geographical Information Science, 25 (4), pp. 557-574.
LONGLEY, P. (2000): Spatial Analysis in the New Millennium. Annals of the Association of American Geographers, 90, č. 1, str. 157 – 165.
ONU, F. U., UCHE-NWACHI, E. O., CHIGBUNDU, K. E. (2016): The Role of Object-Oriented Programming (OOP) in Modelling Geographic Information Systems (GIS). IOSR Journal of Mobile Computing&Application (IOSR-JMCA), 3 (4), pp. 40-46.
RAUTENBACH, V., BEVIS, I., COETZE, S., COMBRICK, C. (2015): Evaluating procedural modelling for 3D models of informal settlements in urban design activities. South African Journal of Science, 111 (11/12), 10 pp.
SHIODE, N.(2001): 3D urban models: Recent developments in the digital modelling of urban environments in three-dimensions. GeoJournal, 52 (3), pp. 263-269.
SIEBERT, S., TEIZER, J.(2014): Mobile 3D mapping for surveying earthwork projects using an Unmanned Aerial Vehicle (UAV) system. Automation in Construction. Vol. 41.
SLÁDEK J., RUSNÁK M.(2013): Nízkonákladové mikro-uav technológie v geografii (nová metóda zberu priestorových dát) [Low cost micro-UAV technologies in geografy (new methods of spatial data collection). Geographical Journal, 65 (3), pp. 269-285.
YOUNG, P. C., RATTO, M. (2009): A unified approach to environmental systems modeling. Stochastic Environmental Research and Risk Assessment, 23 (7), pp. 1037-1057.
YUAN, M. (2001): Representing Complex Geographic Phenomena in GIS. Cartography and Geographic Science, 28 (2), pp. 83-96.
YUN, G. et al. (2018): Individual and Interactive Influences of Antropogenic and Ecological Factors on Forest PM2.5 Concentrations at an Urban Scale. Remote Sensing, 10 (4), 521.
ZLATANOVA, S., ABDUL RAHMAN, A., SHI, W. (2004): Topological model and frameworks for 3D spatial objects. Computer & Geosciences, 30 (4), pp. 419-428.

Internetové zdroje

BAYER, T. (2016): Digitální modely terénu. Dostupné z: https://web.natur.cuni.cz/~bayertom/images/courses/Adk/adk5.pdf (cit. 4. 11. 2019)
Berry, J. K.: Beyond Mapping III
ČÚZK: Digital Terrain Model of the Czech Republic of the 4th generation (DMR 4G). [online]. [cit. 2013-05-12]. URL: http://geoportal.cuzk.cz/
CAPSTICK, D.(2008): CityGML and 3D modelling. Dostupné z: http://www.idee.es/resources/presentaciones/canarias_GTIDEE/citygml_IGN.pdf (cit. 16. 11. 2019).
GREGORY, I. (2002): A place in history: a guide to using GIS in historical research. Chapter 5: Time in historical GIS. 5.1 Introduciton. History Data Service. Dostupné z: http://hds.essex.ac.uk/g2gp/gis/sect51.asp. (cit. 24. 11. 2019).
GRŐGER, G.: Was ist neu in CityGML 1.1? Dostupné z: http://www.3d-stadtmodelle.org/3dstadtmodelle_2010/15_Groeger_Neu_in_CityGML11.pdf (cit. 16. 11. 2019).
KOLBE, T. (2007): CityGML Tutorial. Dostupné z: http://gisak.vsb.cz/ruzicka/citygml/data/CityGML_Tutorial_Kolbe_Internet.pdf (cit. 16. 11. 2019).
STADLER, A., KOLBE, T. H. (2007): Spatio-Semantic Coherence in the Integration of 3D City Models. Dostupné z: http://www.igg.tuberlin. de/uploads/tx_ikgpublication/SDQ2007_Stadler_Kolbe.pdf (cit. 16. 11. 2019).
STREIT, U. (2000). Introduction to Geoinformatics. Institute for Geoinformatics of the University of Muenster, Germany. Version 2.0.

Další zdroje

BOGUSLAWSKI, P. (2011): Modellng and analysing D building interiors with the Dual half-edge data structure. A submission presented in partial fulfilment of the requirements of the University of Glamorgan/Prifysgol Morgannwg for the degree of Doctor of Philosophy, 141 pp., Dostupné z: https://www.researchgate.net/publication/265219734_Modelling_and_analysing_3D_building_interiors_with_the_dual_half-edge_data_structure (cit. 12. 11. 2019).
ČERNÝ, M. (2014): GIS analýzy v prostředí informačních modelů staveb. Brno: VUT, Fakulta stavební, Ústav geodézie, dizertační práce, 112 s.
HERMAN, L. (2011): Moderní kartografické metody modelování měst. Brno: Masarykova univerzita, Přírodovědecká fakulta, Geografický ústav, diplomová práce, 109 s.
PENNINGA, F. (2008): 3D topography : a simplicial complex-based solution in a spatial DBMS. PhD Thesis, Delft University of Technology, Delft, 192 pp.
Ziebart, M., Iliffe, J., Cross, P., Forsberg, R., Strykowski, G., Tscherning, C., “Great Britains GPS Height Corrector Surface,” Proceedings of the 17th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2004), Long Beach, CA, September 2004, pp. 203-210.