Spatial data science languages: commonalities and needs
DOI:
https://doi.org/10.5311/JOSIS.2025.31.462Keywords:
spatial data science, programming language, communityAbstract
Recent workshops brought together several developers, educators and users of software packages extending popular languages for spatial data handling, with a primary focus on R, Python and Julia. Common challenges discussed included handling of spatial or spatio-temporal support, geodetic coordinates, in-memory vector data formats, data cubes, inter-package dependencies, packaging upstream libraries, differences in habits or conventions between the GIS and physical modeling communities, and statistical models. The following set of recommendations have been formulated:
(i) considering software problems across data science language silos helps to understand and standardise analysis approaches, also outside the domain of formal standardisation bodies;
(ii) whether attribute variables have block or point support, and whether they are spatially intensive or extensive has consequences for permitted operations, and hence for software implementing those;
(iii) handling geometries on the sphere rather than on the flat plane requires modifications to the logic of simple features,
(iv) managing communities and fostering diversity is a necessary, on-going effort, and
(v) tools for cross-language development need more attention and support.
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Copyright (c) 2025 Edzer Pebesma, Martin Fleischmann, Josiah Parry, Jakub Nowosad, Anita Graser, Dewey Dunnington, Maarten Pronk, Rafael Schouten, Robin Lovelace, Marius Appel, Lorena Abad
This work is licensed under a Creative Commons Attribution 3.0 Unported License.
Articles in JOSIS are licensed under a Creative Commons Attribution 3.0 License.
