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{{other uses|SNN (disambiguation)}}
[[File:GWNN and GWR prediction differences.jpg |thumb |upright=1.50 |Difference in predicted house prices within the states of Austria, from a GWR and a GWNN whose the weighting metrics respectively use the Euclidean distance (ED) and travel time distance (TTD)<ref name="Hagenauer et al. (2022)" />]]
<!-- please be cautious in revising the lead/introduction since its visible and invisible texts transclude in the entry/article on: 'spatial analysis' and 'types of artificial neural networks'; please read the webpages: 'Wikipedia:INCLUDEONLY' and 'Wikipedia:PARTRANS', for understanding the properties and purposes of the used HTML tags --><onlyinclude><noinclude>'''Spatial neural networks''' ('''SNNs''')</noinclude><includeonly>Spatial neural networks (SNNs)</includeonly> constitute a supercategory of tailored [[artificial neural networks|neural networks (NNs)]] for representing and predicting geographic phenomena. They generally improve both the statistical [[Accuracy and precision|accuracy]] and [[Statistical reliability|reliability]] of the a-spatial/classic NNs whenever they handle [[Geographic data and information| geo-spatial datasets]]<!-- if you transform 'geo-spatial' into 'geospatial' or conversely, please apply the transformation everywhere -->, and also of the other spatial [[Statistical model|(statistical) models]] (e.g. spatial regression models) whenever the geo-spatial [[data set|datasets]]' variables depict [[Nonlinear system|non-linear relations]].<ref name="Morer et al. (2020)">{{cite journal |vauthors=Morer I, Cardillo A, Díaz-Guilera A, Prignano L, Lozano S |date=2020 |title=Comparing spatial networks: a one-size-fits-all efficiency-driven approach |journal=Physical Review |volume=101 |issue=4 |page=042301 |doi=10.1103/PhysRevE.101.042301|pmid=32422764 |bibcode=2020PhRvE.101d2301M |hdl=2445/161417 |s2cid=49564277 |hdl-access=free |arxiv=1807.00565 }}</ref><ref name="Gupta et al. (2021)">{{cite journal |vauthors=Gupta J, Molnar C, Xie Y, Knight J, Shekhar S |date=2021 |title=Spatial variability aware deep neural networks (SVANN): a general approach |journal=ACM Transactions on Intelligent Systems and Technology |volume=12 |issue=6 |pages=1–21 |doi=10.1145/3466688|s2cid=244786699 }}</ref><ref name="Hagenauer et al. (2022)">{{cite journal |vauthors=Hagenauer J, Helbich M |date=2022 |title=A geographically weighted artificial neural network |journal=International Journal of Geographical Information Science |volume=36 |issue=2 |pages=215–235 |doi=10.1080/13658816.2021.1871618|s2cid=233883395 |doi-access=free |bibcode=2022IJGIS..36..215H }}</ref><includeonly> Examples of SNNs are the OSFA spatial neural networks, SVANNs and GWNNs.</includeonly></onlyinclude>
==History==
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