Proximity analysis explained

Proximity analysis is a class of spatial analysis tools and algorithms that employ geographic distance as a central principle.[1] Distance is fundamental to geographic inquiry and spatial analysis, due to principles such as the friction of distance, Tobler's first law of geography, and Spatial autocorrelation, which are incorporated into analytical tools.[2] Proximity methods are thus used in a variety of applications, especially those that involve movement and interaction.

Distance measures

See main article: Distance.

Allproximity analysis tools are based on a measure of distance between two locations. This may seen as a simplistic geometric measurement, but the nature of geographic phenomena and geographic activity requires several candidate methods to measure and express distance and distance-related measures.

Techniques

There are a variety of tools, models, and algorithms that incorporate geographic distance, due to the variety of relevant problems and tasks.[5]

External links

Notes and References

  1. Blinn, Charles R., Lloyd P. Queen, and Les W. Maki, "Geographic Information Systems: A Glossary."
  2. Web site: Sarkar . D. . FC-42 - Distance Operations . GIS&T Body of Knowledge . UCGIS . 5 January 2023.
  3. Book: Agarwal . Pragya . Skupin . André . Self-organizing maps: Applications in geographic information science . 2008 . Wiley . 9780470021675.
  4. Web site: How cost distance tools work . ArcGIS Pro Documentation . Esri . 5 January 2023.
  5. Book: de Smith . Michael J. . Goodchild . Michael F. . Longley . Paul A. . Geospatial Analysis: A Comprehensive Guide to Principles, Techniques, and Software Tools . 2018 . 6th . 4.4 Distance Operations. https://www.spatialanalysisonline.com/HTML/index.html?distance_operations.htm.
  6. Web site: 25.1.18.81 Voronoi polygons . QGIS 3.22 Documentation . OSGEO . 5 January 2023.
  7. Web site: Network Analyst solvers . ArcGIS Pro Documentation . Esri . 5 January 2023.