Fast Outdoor Robot Localization Using Integral Invariants

Authors

  • Christian Weiss
  • Andreas Masselli
  • Hashem Tamimi
  • Andreas Zell

DOI:

https://doi.org/10.2390/biecoll-icvs2007-42

Keywords:

Outdoor mobile robot localization, Integral Invariants, DDC: 004 (Data processing, computer science, computer systems)

Abstract

Global Integral Invariant Features have shown to be useful for robot localization in indoor environments. In this paper, we present a method that uses Integral Invariants for outdoor environments. To make the Integral Invariant Features more distinctive for outdoor images, we first split the image into a grid of subimages. Then we calculate integral invariants for each grid cell individually and concatenate the results to get the feature vector for the image. Additionally, we combine this method with a particle filter to improve the localization results. We compare our approach to a Scale Invariant Feature Transform (SIFT)-based approach on images of two outdoor areas and under different illumination conditions. The results show that the SIFT approach is more exact, but the Grid Integral Invariant approach is faster and allows localization in significantly less than one second.

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Published

2007-12-31

Issue

Section

The 5th International Conference on Computer Vision Systems