Robust Monte Carlo Localization for Mobile Robots - Robotics Institute Carnegie Mellon University

Robust Monte Carlo Localization for Mobile Robots

Sebastian Thrun, Dieter Fox, Wolfram Burgard, and Frank Dellaert
Journal Article, Artificial Intelligence, Vol. 128, No. 1, pp. 99 - 141, May, 2001

Abstract

Mobile robot localization is the problem of determining a robot's pose from sensor data. Monte Carlo Localization is a family of algorithms for localization based on particle filters, which are approximate Bayes filters that use random samples for posterior estimation. Recently, they have been applied with great success for robot localization. Unfortunately, regular particle filters perform poorly in certain situations. Mixture-MCL, the algorithm described here, overcomes these problems by using a "dual" sampler, integrating two complimentary ways of generating samples in the estimation. To apply this algorithm for mobile robot localization, a kd-tree is learned from data that permits fast dual sampling. Systematic empirical results obtained using data collected in crowded public places illustrate superior performance, robustness, and efficiency, when compared to other state-of-the-art localization algorithms.

BibTeX

@article{Thrun-2001-16787,
author = {Sebastian Thrun and Dieter Fox and Wolfram Burgard and Frank Dellaert},
title = {Robust Monte Carlo Localization for Mobile Robots},
journal = {Artificial Intelligence},
year = {2001},
month = {May},
volume = {128},
number = {1},
pages = {99 - 141},
}