Observability Analysis and Consistency Improvements for Visual-Inertial Odometry on the Matrix Lie Group of Extended Poses

In this paper, we present a novel extended Kalman filter (EKF)-based visual-inertial odometry for robotic platforms by modeling the state space as the recently proposed matrix Lie group of extended poses. Specifically, we found that the proposed estimator suffers from an inconsistency similar to tha...

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Bibliographic Details
Published in:IEEE sensors journal 2021-03, Vol.21 (6), p.8341-8353
Main Authors: Tsao, Shu-Hua, Jan, Shau-Shiun
Format: Article
Language:English
Subjects:
Consistency
Consistency improvements
Extended Kalman filter
Jacobian matrices
Lie groups
Mathematical model
matrix Lie group
Measurement uncertainty
Observability
observability analysis
Robots
Uncertainty
vision-aided inertial navigation
Visual observation
Visualization
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Summary:In this paper, we present a novel extended Kalman filter (EKF)-based visual-inertial odometry for robotic platforms by modeling the state space as the recently proposed matrix Lie group of extended poses. Specifically, we found that the proposed estimator suffers from an inconsistency similar to that of the conventional SO\left ({3}\right)\times \mathbb {R}^{6} uncertainty representation from the standpoint of an observability analysis. The inconsistency mainly is a result of spurious information along the unobservable directions. An inconsistent estimator would lead to overconfidently reducing the state uncertainty and larger estimation errors that would in turn cause system divergence. We applied the first-estimate Jacobian (FEJ) framework and observability constrained (OC) techniques to avoid spurious information and improve consistency. The performance of the proposed estimator is validated using both simulated and real-world datasets.
ISSN:1530-437X
1558-1748
DOI:10.1109/JSEN.2020.3046718