Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory

Ruizhi Tong; Runze Wang; Yankui Shi; Hongzhen Li; Yi Zeng

doi:10.1109/FASTA65681.2025.11138856

Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory

Ruizhi Tong
, Runze Wang
, Yankui Shi
, Hongzhen Li
, Yi Zeng^*

^*Corresponding author for this work

School of Astronautics, Harbin Institute of Technology

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

Abstract

This paper focuses on a nonplanar fully actuated hexacopter UAV, addressing the issues of sudden mass changes and external disturbances during flight by proposing a robust control strategy based on predefined-time control. Firstly, a dynamic model of high-order fully actuated hexacopter incorporating mass variation characteristics and external disturbances is established. Secondly, by integrating high-older fully actuated system theory with sliding mode control methodology and incorporating predefined-time control theory, a sliding mode controller with strict temporal constraints was designed. This controller achieves robust control against mass variations and disturbance upper bounds, ensuring that the system states converge to zero within a user-specified predefined-time and maintain stability thereafter. Simulation results demonstrate that the proposed method exhibits excellent predefined-time convergence in disturbance environments and trajectory tracking accuracy.

Original language	English
Title of host publication	Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1163-1168
Number of pages	6
ISBN (Electronic)	9798331526924
DOIs	https://doi.org/10.1109/FASTA65681.2025.11138856
State	Published - 2025
Externally published	Yes
Event	4th Conference on Fully Actuated System Theory and Applications, FASTA 2025 - Nanjing, China Duration: 4 Jul 2025 → 6 Jul 2025

Publication series

Name	Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025

Conference

Conference	4th Conference on Fully Actuated System Theory and Applications, FASTA 2025
Country/Territory	China
City	Nanjing
Period	4/07/25 → 6/07/25

Keywords

high-order fully actuated system
nonplanar hexacopter UAV
predefined-time control
sliding mode control

Access to Document

10.1109/FASTA65681.2025.11138856

Cite this

Tong, R., Wang, R., Shi, Y., Li, H., & Zeng, Y. (2025). Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory. In Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025 (pp. 1163-1168). (Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/FASTA65681.2025.11138856

Tong, Ruizhi ; Wang, Runze ; Shi, Yankui et al. / Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory. Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025. Institute of Electrical and Electronics Engineers Inc., 2025. pp. 1163-1168 (Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025).

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title = "Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory",

abstract = "This paper focuses on a nonplanar fully actuated hexacopter UAV, addressing the issues of sudden mass changes and external disturbances during flight by proposing a robust control strategy based on predefined-time control. Firstly, a dynamic model of high-order fully actuated hexacopter incorporating mass variation characteristics and external disturbances is established. Secondly, by integrating high-older fully actuated system theory with sliding mode control methodology and incorporating predefined-time control theory, a sliding mode controller with strict temporal constraints was designed. This controller achieves robust control against mass variations and disturbance upper bounds, ensuring that the system states converge to zero within a user-specified predefined-time and maintain stability thereafter. Simulation results demonstrate that the proposed method exhibits excellent predefined-time convergence in disturbance environments and trajectory tracking accuracy.",

keywords = "high-order fully actuated system, nonplanar hexacopter UAV, predefined-time control, sliding mode control",

author = "Ruizhi Tong and Runze Wang and Yankui Shi and Hongzhen Li and Yi Zeng",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025 ; Conference date: 04-07-2025 Through 06-07-2025",

year = "2025",

doi = "10.1109/FASTA65681.2025.11138856",

language = "英语",

series = "Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Tong, R, Wang, R, Shi, Y, Li, H & Zeng, Y 2025, Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory. in Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025. Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025, Institute of Electrical and Electronics Engineers Inc., pp. 1163-1168, 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025, Nanjing, China, 4/07/25. https://doi.org/10.1109/FASTA65681.2025.11138856

Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory. / Tong, Ruizhi; Wang, Runze; Shi, Yankui et al.
Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025. Institute of Electrical and Electronics Engineers Inc., 2025. p. 1163-1168 (Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025).

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

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AU - Zeng, Yi

PY - 2025

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N2 - This paper focuses on a nonplanar fully actuated hexacopter UAV, addressing the issues of sudden mass changes and external disturbances during flight by proposing a robust control strategy based on predefined-time control. Firstly, a dynamic model of high-order fully actuated hexacopter incorporating mass variation characteristics and external disturbances is established. Secondly, by integrating high-older fully actuated system theory with sliding mode control methodology and incorporating predefined-time control theory, a sliding mode controller with strict temporal constraints was designed. This controller achieves robust control against mass variations and disturbance upper bounds, ensuring that the system states converge to zero within a user-specified predefined-time and maintain stability thereafter. Simulation results demonstrate that the proposed method exhibits excellent predefined-time convergence in disturbance environments and trajectory tracking accuracy.

AB - This paper focuses on a nonplanar fully actuated hexacopter UAV, addressing the issues of sudden mass changes and external disturbances during flight by proposing a robust control strategy based on predefined-time control. Firstly, a dynamic model of high-order fully actuated hexacopter incorporating mass variation characteristics and external disturbances is established. Secondly, by integrating high-older fully actuated system theory with sliding mode control methodology and incorporating predefined-time control theory, a sliding mode controller with strict temporal constraints was designed. This controller achieves robust control against mass variations and disturbance upper bounds, ensuring that the system states converge to zero within a user-specified predefined-time and maintain stability thereafter. Simulation results demonstrate that the proposed method exhibits excellent predefined-time convergence in disturbance environments and trajectory tracking accuracy.

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Tong R, Wang R, Shi Y, Li H, Zeng Y. Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory. In Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025. Institute of Electrical and Electronics Engineers Inc. 2025. p. 1163-1168. (Proceedings of the 4th Conference on Fully Actuated System Theory and Applications, FASTA 2025). doi: 10.1109/FASTA65681.2025.11138856

Predefined-Time Control for Nonplanar Hexarotor UAVs Based on High-Order Fully Actuated System Theory

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