Journal cover Journal topic
Proceedings of the ICA
Journal topic
Articles | Volume 4
Proc. Int. Cartogr. Assoc., 4, 4, 2021
https://doi.org/10.5194/ica-proc-4-4-2021
Proc. Int. Cartogr. Assoc., 4, 4, 2021
https://doi.org/10.5194/ica-proc-4-4-2021

  03 Dec 2021

03 Dec 2021

Route planning on orienteering maps with least-cost path analysis

Gáspár Albert1 and Zsófia Sárközy2 Gáspár Albert and Zsófia Sárközy
  • 1Institute of Cartography and Geoinformatics, ELTE Eötvös Loránd University, Budapest, Hungary
  • 2ELTE Eötvös Loránd University, Budapest, Hungary

Keywords: least-cost path, orienteering, route planning, raster map

Abstract. The feature categories of an orienteering map are prepared to allow the map reader to estimate the travel time between any two points on the map with a good approximation. This requires not only an accurate map, but also a key that adapts to the speed of travel. Such map key is developed and maintained by the IOF (International Orienteering Federation), and technically all the orienteering maps are compiled by using it. Estimated time also plays an important role in planning the courses of orienteering races. The course setter estimates time based on a route he thinks is ideal, but the speed of travel is basically a non-linear function of terrain, road network and land cover. Because of this, the easiest (ideal) route between the two points and its time cost can be calculated using the least-cost path (LCP) GIS method, which can be prepared to take into account these three map feature categories. This method is based on the calculation of a cost surface, then the analysis of the ideal path from a given point to the destination. The automation can be adapted to any orienteering map due to the similarities of the map keys. This study shows that if the weight corresponding to the different feature categories is given properly, the ideal path between two points on orienteering maps can be calculated. The ideal path, however is still a subjective category, which may depend on the capabilities and preferences of the orienteer. In this study the routes calculated with the LCP method were compared with the suggestions of the ideal routes by orienteering runners of different ages. The results show that the routes given by sportsmen can be simulated with the LCP method and even the time cost of the calculated routes can be calculated. This study can lay the groundwork for a GIS tool helping the course setting process on standard orienteering maps.

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