Distributed robust data fusion based on dynamic voting

Eduardo Montijano, Sonia Martínez, and Carlos Sagüés
IEEE International Conference on Robotics and Automation, Shanghai, China, May 2011

Abstract:

Data association mistakes, estimation, and measurement errors are some of the factors that can contribute to incorrect observations in robotic sensor networks. In order to act reliably, a robotic network must be able to fuse and correct its perception of the world by discarding any outlier information. This is a difficult task if the network is to be deployed remotely and the robots do not have access to ground-truth sites or manual calibration. In this paper, we present a novel, distributed scheme for robust data fusion in autonomous robotic networks. The proposed method adapts the RANSAC algorithm to exploit measurement redundancy, and enables robots determine an inlier observation with local communications. Different hypotheses are generated and voted for using a dynamic consensus algorithm. As the hypotheses are computed, the robots can change their opinion making the voting process dynamic. Assuming that at least one hypothesis is initialized with only inliers, we show that the method converges to the maximum likelihood of all the inlier observations in a general instance. Several simulations exhibit the good performance of the algorithm, which also gives acceptable results in situations where the conditions to guarantee convergence do not hold.

File: main.pdf

Bib-tex entry:

@InProceedings{EM-SM-CS:11-icra,
author = {E. Montijano and S. Mart{\'\i}nez and C. Sag\"{u}\'{e}s},
booktitle = {Proceedings of the 2011 IEEE International Conference on Robotics and Automation},
title = {Distributed robust data fusion based on dynamic voting},
pages = {5893--5898},
year = {2011},
month ={May},
address = {Shanghai, China}
}