Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty

Jiawei Tang; Nachuan Yang; Shuang Wu; Shilei Li; Dawei Shi; Ling Shi

doi:10.1109/CASE58245.2025.11164164

Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty

Jiawei Tang^*, Nachuan Yang, Shuang Wu, Shilei Li, Dawei Shi, Ling Shi

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper presents a novel Lie-algebra learning approach for differential wheeled robots (DWRs) trajectory tracking with uncertainty in the kinematic model. The approach is motivated by the fundamental property of group affine systems, which convert the state space from group space to vector space locally and derive a state-independent error kinematic model. Following the controllability analysis of the Lie-algebra optimal control problem, we design a suitable tracking scenario for the data collection and learning process. The analysis of the optimal Lie-algebra tracking control facilitates the development of the learning control algorithm to handle different trajectory tracking scenarios. Simulation experiments validate the efficiency of the proposed method and demonstrate the advantages of our control method over existing approaches.

Original language	English
Title of host publication	2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025
Publisher	IEEE Computer Society
Pages	2568-2573
Number of pages	6
ISBN (Electronic)	9798331522469
DOIs	https://doi.org/10.1109/CASE58245.2025.11164164
Publication status	Published - 2025
Externally published	Yes
Event	21st IEEE International Conference on Automation Science and Engineering, CASE 2025 - Los Angeles, United States Duration: 17 Aug 2025 → 21 Aug 2025

Publication series

Name	IEEE International Conference on Automation Science and Engineering
ISSN (Print)	2161-8070
ISSN (Electronic)	2161-8089

Conference

Conference	21st IEEE International Conference on Automation Science and Engineering, CASE 2025
Country/Territory	United States
City	Los Angeles
Period	17/08/25 → 21/08/25

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10.1109/CASE58245.2025.11164164

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Tang, J., Yang, N., Wu, S., Li, S., Shi, D., & Shi, L. (2025). Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty. In 2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025 (pp. 2568-2573). (IEEE International Conference on Automation Science and Engineering). IEEE Computer Society. https://doi.org/10.1109/CASE58245.2025.11164164

@inproceedings{8aae84527dff4dd2aecadf748eb0a243,

title = "Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty",

abstract = "This paper presents a novel Lie-algebra learning approach for differential wheeled robots (DWRs) trajectory tracking with uncertainty in the kinematic model. The approach is motivated by the fundamental property of group affine systems, which convert the state space from group space to vector space locally and derive a state-independent error kinematic model. Following the controllability analysis of the Lie-algebra optimal control problem, we design a suitable tracking scenario for the data collection and learning process. The analysis of the optimal Lie-algebra tracking control facilitates the development of the learning control algorithm to handle different trajectory tracking scenarios. Simulation experiments validate the efficiency of the proposed method and demonstrate the advantages of our control method over existing approaches.",

author = "Jiawei Tang and Nachuan Yang and Shuang Wu and Shilei Li and Dawei Shi and Ling Shi",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 21st IEEE International Conference on Automation Science and Engineering, CASE 2025 ; Conference date: 17-08-2025 Through 21-08-2025",

year = "2025",

doi = "10.1109/CASE58245.2025.11164164",

language = "English",

series = "IEEE International Conference on Automation Science and Engineering",

publisher = "IEEE Computer Society",

pages = "2568--2573",

booktitle = "2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025",

address = "United States",

}

Tang, J, Yang, N, Wu, S, Li, S , Shi, D & Shi, L 2025, Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty. in 2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025. IEEE International Conference on Automation Science and Engineering, IEEE Computer Society, pp. 2568-2573, 21st IEEE International Conference on Automation Science and Engineering, CASE 2025, Los Angeles, United States, 17/08/25. https://doi.org/10.1109/CASE58245.2025.11164164

Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty. / Tang, Jiawei; Yang, Nachuan; Wu, Shuang et al.
2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025. IEEE Computer Society, 2025. p. 2568-2573 (IEEE International Conference on Automation Science and Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty

AU - Tang, Jiawei

AU - Yang, Nachuan

AU - Wu, Shuang

AU - Li, Shilei

AU - Shi, Dawei

AU - Shi, Ling

PY - 2025

Y1 - 2025

N2 - This paper presents a novel Lie-algebra learning approach for differential wheeled robots (DWRs) trajectory tracking with uncertainty in the kinematic model. The approach is motivated by the fundamental property of group affine systems, which convert the state space from group space to vector space locally and derive a state-independent error kinematic model. Following the controllability analysis of the Lie-algebra optimal control problem, we design a suitable tracking scenario for the data collection and learning process. The analysis of the optimal Lie-algebra tracking control facilitates the development of the learning control algorithm to handle different trajectory tracking scenarios. Simulation experiments validate the efficiency of the proposed method and demonstrate the advantages of our control method over existing approaches.

AB - This paper presents a novel Lie-algebra learning approach for differential wheeled robots (DWRs) trajectory tracking with uncertainty in the kinematic model. The approach is motivated by the fundamental property of group affine systems, which convert the state space from group space to vector space locally and derive a state-independent error kinematic model. Following the controllability analysis of the Lie-algebra optimal control problem, we design a suitable tracking scenario for the data collection and learning process. The analysis of the optimal Lie-algebra tracking control facilitates the development of the learning control algorithm to handle different trajectory tracking scenarios. Simulation experiments validate the efficiency of the proposed method and demonstrate the advantages of our control method over existing approaches.

UR - https://www.scopus.com/pages/publications/105018308024

U2 - 10.1109/CASE58245.2025.11164164

DO - 10.1109/CASE58245.2025.11164164

M3 - Conference contribution

AN - SCOPUS:105018308024

T3 - IEEE International Conference on Automation Science and Engineering

SP - 2568

EP - 2573

BT - 2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025

PB - IEEE Computer Society

T2 - 21st IEEE International Conference on Automation Science and Engineering, CASE 2025

Y2 - 17 August 2025 through 21 August 2025

ER -

Lie-algebra Learning for Mobile Robots Tracking Control with Model Uncertainty

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