For navigation of mobile robots in real-world scenarios, accurate and robust localization is a fundamental requirement. In this work we present an efficient localization approach based on adaptive Monte Carlo Localization (AMCL) for large-scale indoor navigation, using vector-based CAD floor plans. The approach is able to use the line segment data of these plans directly. In order to minimize the computational effort, a visibility lookup table is generated, reducing the amount of line segments to process for pose estimation. In addition, we show that the proposed approach performs well in cluttered as well as uncluttered environments. It is compared with grid map-based AMCL and is able to improve its results in terms of memory usage and accuracy.
@inproceedings{HantenIAS2016,
title = {Vector-AMCL: Vector based Adaptive Monte Carlo Localization for Indoor Maps},
author = {Hanten, Richard and Buck, Sebastian and Otte, Sebastian and Zell, Andreas},
booktitle = {Intelligent Autonomous Systems (IAS), The 14th International Conference on},
year = {2016},
address = {Shanghai, CN},
month = jul,
abstract = {For navigation of mobile robots in real-world scenarios, accurate
and robust localization is a fundamental requirement. In this
work we present an efficient localization approach based on adaptive
Monte Carlo Localization (AMCL) for large-scale indoor navigation, using
vector-based CAD floor plans. The approach is able to use the line
segment data of these plans directly. In order to minimize the computational
effort, a visibility lookup table is generated, reducing the amount
of line segments to process for pose estimation. In addition, we show that
the proposed approach performs well in cluttered as well as uncluttered
environments. It is compared with grid map-based AMCL and is able to
improve its results in terms of memory usage and accuracy.},
days = {3-7},
}