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A route pruning algorithm for an automated geographic location graph construction.

Christoph Schweimer1, Bernhard C Geiger2, Meizhu Wang1

  • 1Know-Center GmbH, Graz, Austria.

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|June 3, 2021
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Summary
This summary is machine-generated.

We developed an automated algorithm to build location graphs for logistics and simulations. This method efficiently creates large-scale graphs, outperforming manual creation with high precision and recall.

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Area of Science:

  • Computer Science
  • Operations Research
  • Geographic Information Systems

Background:

  • Automated construction of location graphs is crucial for logistics optimization and agent-based movement simulations.
  • Existing methods face challenges in scalability and efficiency for large datasets.

Purpose of the Study:

  • To propose an efficient algorithm for the automated construction of location graphs.
  • To enable the creation of large-scale location graphs for continental road networks.

Main Methods:

  • The algorithm constructs a complete graph using a routing service to calculate distances between all locations.
  • It prunes indirect routes using the triangle inequality, reducing computational complexity.
  • The approach was validated by comparing algorithm-generated graphs with manually created ground truths in diverse regions.

Main Results:

  • The algorithm achieved high precision and recall values (around 0.9) across various hyperparameter settings.
  • It demonstrated feasibility for constructing location graphs for entire continental road networks.
  • The method proved effective in regions with varying sizes and road infrastructures.

Conclusions:

  • The proposed algorithm offers a valid and efficient solution for automated location graph construction.
  • It is particularly useful for applications requiring large-scale graphs where manual creation is impractical.
  • This approach facilitates advancements in logistics optimization and agent-based simulations.