Robust Pose-Graph SLAM Using Absolute Orientation Sensing | Academic Article individual record
abstract

© 2016 IEEE. It is known that in the simultaneous localization and mapping (SLAM) problem when a robot's orientation is known, an estimation of the history of its poses can be formulated as a standard linear least squares problem. In this letter, we exploit this property of SLAM to develop a robust pose-graph SLAM framework that uses absolute orientation sensing. Our contribution are as follows: 1) we show that absolute orientation can be estimated using local structural cues; and 2) we develop a method to incorporate absolute orientation measurements in both the front and back-end of pose-graph SLAM. We also demonstrate our approach through extensive simulations and a physical real-world demonstration along with comparisons against existing state-of-the-art solvers that do not use absolute orientation.

author list (cited authors)
Agarwal, S., Parunandi, K. S., & Chakravorty, S.
publication date
2019
altmetric score

1.0

citation count

1

identifier
396326SE
Digital Object Identifier (DOI)
start page
981
end page
988
volume
4
issue
2