Localization in indoor environments is a technique which estimates the
robot's pose by fusing data from onboard motion sensors with readings of the
environment, in our case obtained by scan matching point clouds captured by a
low-cost Kinect depth camera. We develop both an Invariant Extended Kalman
Filter (IEKF)-based and a Multiplicative Extended Kalman Filter (MEKF)-based
solution to this problem. The two designs are successfully validated in
experiments and demonstrate the advantage of the IEKF design

Barczyk, Martin

Bonnabel, Silvère

Deschaud, Jean-Emmanuel

Goulette, François

English

arXiv

International audienceLocalization in indoor environments is a technique that estimates the robot's pose by fusing data from onboard motion sensors with readings of the environment, in our case obtained by scan matching point clouds captured by a low-cost Kinect depth camera. We develop both an invariant extended Kalman filter (IEKF)-based and a multiplicative extended Kalman filter-based solution to this problem. The two designs are successfully validated in experiments and demonstrate the advantage of the IEKF design

HAL-MINES ParisTech

Invariant EKF Design for Scan Matching-aided Localization

https://hal-mines-paristech.archives-ouvertes.fr/hal-01256770

Invariant EKF Design for Scan Matching-aided Localization

Abstract

Similar works

Full text

Available Versions

HAL-MINES ParisTech