References

References#

[Liukas, 2015]

Linda Liukas. Hello Ruby: Adventures in Coding. Feiwel & Friends, 1st edition, 2015.

[Zelle, 2017]

John Zelle. Python Programming: An Introduction to Computer Science. Franklin, Beedle & Associates, 3rd edition, 2017.

[McKinney, 2022]

Wes McKinney. Python for Data Analysis. O'Reilly Media, Inc., North, Sebastopol, CA, 3rd edition, 2022.

[Hawking, 1988]

Stephen Hawking. A Brief History of Time: From the Big Bang to Black Holes. Bantam, London, 1988.

[Tenkanen, 2022]

Henrikki Tenkanen. Pygieons: software to visualize python os ecosystem for gis and earth observation. 2022. URL: pygieons/pygieons.

[Herring, 2011]

John R. Herring. Ogc-simple features access - part 1: common architecture. 2011. URL: https://www.ogc.org/docs/is.

[Hahmann & Burghardt, 2013]

Stefan Hahmann and Dirk Burghardt. How much information is geospatially referenced? Networks and cognition. International Journal of Geographical Information Science, 27(6):1171–1189, 2013. doi:10.1080/13658816.2012.743664.

[Longley et al., 2015]

Paul Longley, Michael Goodchild, David Maguire, and David Rhind. Geographic information science & systems. Wiley, 4th edition, 2015.

[Vermeer, 2019]

Martin Vermeer. Geodesy: The Science Underneath. Aalto University publication series SCIENCE + TECHNOLOGY, 1st edition, 2019.

[Clementini et al., 1994]

Eliseo Clementini, Jayant Sharma, and Max J Egenhofer. Modeling Topological Spatial Relations: Strategies for Query Processing. Computers and Graphics, 18(6):815–822, 1994.

[Clementini et al., 1993]

Eliseo Clementini, Paolino Di Felice, and Peter van Oosterom. A Small Set of Formal Topological Relationships Suitable for End-User Interaction. In David Abel and Beng Chin Ooi, editors, Advances in Spatial Databases, Lecture Notes in Computer Science, 277–295. Berlin, Heidelberg, 1993. Springer.

[Egenhofer & Al-Taha, 1992]

Max J. Egenhofer and Khaled K. Al-Taha. Reasoning about Gradual Changes of Topological Relationships. In A. U. Frank, I. Campari, and U. Formentini, editors, Theories and Methods of Spatio-Temporal Reasoning in Geographic Space, Lecture Notes in Computer Science, 196–219. Berlin, Heidelberg, 1992. Springer.

[Rey et al., 2023]

Sergio Rey, Dani Arribas-Bel, and Levi John Wolf. Geographic Data Science with Python. Chapman and Hall/CRC, 1st edition, 2023. ISBN 978-0-429-29250-7. URL: https://geographicdata.science/book/intro.html, doi:10.1201/9780429292507.

[Tobler, 1970]

Waldo R. Tobler. A Computer Movie Simulating Urban Growth in the Detroit Region. Economic Geography, 46:234–240, 1970.

[Leutenegger et al., 1997]

Scott T. Leutenegger, Mario A. Lopez, and Jeffrey Edgington. Str: a simple and efficient algorithm for r-tree packing. In Proceedings 13th International Conference on Data Engineering, 497–506. IEEE Comput. Soc. Press, 1997. URL: http://ieeexplore.ieee.org/document/582015, doi:10.1109/ICDE.1997.582015.

[Guttman, 1984]

Antonin Guttman. R-Trees - A Dynamic Index Structure for Spatial Searching. In Proceedings of the 1984 ACM SIGMOD International Conference on Management of data – SIGMOD, volume 14, 47–57. Association for Computing Machinery, 1984. doi:doi:10.1145/602259.602266.

[Unwin, 1996]

David Unwin. Integration through overlay analysis. In Spatial Analytical Perspectives on GIS, pages 129–138. Routledge, London, 1st edition, 1996.

[Keeble, 1952]

Lewis Keeble. Principles and Practice of Town and Country Planning. Estates Gazette, London, 1952.

[Masser & Ottens, 1999]

Ian Masser and Henk Ottens. Urban Planning and Geographic Information Systems. In John Stillwell, Stan Geertman, and Stan Openshaw, editors, Geographical Information and Planning: European Perspectives, pages 25–42. Springer, Berlin, Heidelberg, 1999. URL: https://doi.org/10.1007/978-3-662-03954-0_2, doi:10.1007/978-3-662-03954-0_2.

[Steinitz et al., 1976]

Carl Steinitz, Paul Parker, and Lawrie Jordan. Hand-Drawn Overlays: Their History and Prospective Uses. Landscape Architecture, 66(5):444–455, 1976.

[Tomlin, 1990]

C. Dana Tomlin. Geographic information systems and cartographic modeling. Prentice Hall, 1990. ISBN 978-0-13-350927-4.

[Tenkanen & Toivonen, 2020]

Henrikki Tenkanen and Tuuli Toivonen. Longitudinal spatial dataset on travel times and distances by different travel modes in helsinki region. Scientific data, 7(1):77, 2020. doi:https://doi.org/10.1038/s41597-020-0413-y.

[Boeing, 2024]

Geoff Boeing. Modeling and Analyzing Urban Networks and Amenities with OSMnx. Working paper. 2024. URL: https://geoffboeing.com/publications/osmnx-paper/.

[Tadono et al., 2014]

T. Tadono, H. Ishida, F. Oda, S. Naito, K. Minakawa, and H. Iwamoto. Precise global dem generation by alos prism. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, II-4:71–76, 2014. URL: https://isprs-annals.copernicus.org/articles/II-4/71/2014/, doi:10.5194/isprsannals-II-4-71-2014.

[Strahler, 1952]

Arthur N Strahler. Hypsometric (area-altitude) analysis of erosional topography. Geological society of America bulletin, 63(11):1117–1142, 1952.

[Langridge et al., 2016]

R.M. Langridge, W.F. Ries, N.J. Litchfield, P. Villamor, R.J. Van Dissen, D.J.A. Barrell, M.S. Rattenbury, D.W. Heron, S. Haubrock, D.B. Townsend, J.M. Lee, K.R. Berryman, A. Nicol, S.C. Cox, and M.W. Stirling. The New Zealand Active Faults Database. New Zealand Journal of Geology and Geophysics, 59:86–96, 2016. doi:10.1080/00288306.2015.1112818.

[Sternai et al., 2011]

Pietro Sternai, Frédéric Herman, Matthew Rhys Fox, and Sébastien Castelltort. Hypsometric analysis to identify spatially variable glacial erosion. Journal of Geophysical Research: Earth Surface, 2011.