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Fully Proprioceptive Slip-Velocity-Aware State Estimation for Mobile Robots via Invariant Kalman Filtering and Disturbance Observer

09/29/2022

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by Xihang Yu, et al.

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This paper develops a novel slip estimator using the invariant observer design theory and Disturbance Observer (DOB). The proposed state estimator for mobile robots is fully proprioceptive and combines data from an inertial measurement unit and body velocity within a Right Invariant Extended Kalman Filter (RI-EKF). By embedding the slip velocity into SE_3(3) Lie group, the developed DOB-based RI-EKF provides real-time accurate velocity and slip velocity estimates on different terrains. Experimental results using a Husky wheeled robot confirm the mathematical derivations and show better performance than a standard RI-EKF baseline. Open source software is available for download and reproducing the presented results.

Xihang Yu
2 publications
Sangli Teng
8 publications
Theodor Chakhachiro
3 publications
Wenzhe Tong
2 publications
Tingjun Li
1 publication
Tzu-Yuan Lin
5 publications
Sarah Koehler
1 publication
Manuel Ahumada
1 publication
Jeffrey M. Walls
3 publications
Maani Ghaffari
40 publications

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