Predefined-Time Observer-Based Nonsingular Sliding-Mode Control for Spacecraft Attitude Stabilization

Jingyi Chen; Zhaoyue Chen; Haichao Zhang; Bing Xiao; Lu Cao

doi:10.1109/TCSII.2023.3321684

Predefined-Time Observer-Based Nonsingular Sliding-Mode Control for Spacecraft Attitude Stabilization

Jingyi Chen
, Zhaoyue Chen
, Haichao Zhang
, Bing Xiao
, Lu Cao

School of Automation

National University of Defense Technology
Institute of Advanced Structure Technology, Beijing Institute of Technology
Northwestern Polytechnical University Xian
Academy of Military Medical Science China

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

The predefined-time attitude stabilization control problem of a spacecraft with external disturbance is addressed. A predefined-time observer-based control approach is presented using a new nonsingular sliding surface. On this sliding surface, the system states can converge to zero within a predefined time. Moreover, the incorporated disturbance observer is continuous with the chattering phenomenon eliminated. Compared with the existing finite/fixed-time attitude control methods, which need a complex process to determine the settling time, the upper bound of the convergence time ensured by the presented approach is determined by a constant only. Simulation study is further given to confirm that the presented controller is effective.

Original language	English
Pages (from-to)	1291-1295
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems II: Express Briefs
Volume	71
Issue number	3
DOIs	https://doi.org/10.1109/TCSII.2023.3321684
State	Published - 1 Mar 2024

Keywords

Spacecraft
attitude stabilization
disturbance observer
predefined-time
sliding mode control

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10.1109/TCSII.2023.3321684

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abstract = "The predefined-time attitude stabilization control problem of a spacecraft with external disturbance is addressed. A predefined-time observer-based control approach is presented using a new nonsingular sliding surface. On this sliding surface, the system states can converge to zero within a predefined time. Moreover, the incorporated disturbance observer is continuous with the chattering phenomenon eliminated. Compared with the existing finite/fixed-time attitude control methods, which need a complex process to determine the settling time, the upper bound of the convergence time ensured by the presented approach is determined by a constant only. Simulation study is further given to confirm that the presented controller is effective.",

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AU - Chen, Jingyi

AU - Chen, Zhaoyue

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AU - Xiao, Bing

AU - Cao, Lu

PY - 2024/3/1

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N2 - The predefined-time attitude stabilization control problem of a spacecraft with external disturbance is addressed. A predefined-time observer-based control approach is presented using a new nonsingular sliding surface. On this sliding surface, the system states can converge to zero within a predefined time. Moreover, the incorporated disturbance observer is continuous with the chattering phenomenon eliminated. Compared with the existing finite/fixed-time attitude control methods, which need a complex process to determine the settling time, the upper bound of the convergence time ensured by the presented approach is determined by a constant only. Simulation study is further given to confirm that the presented controller is effective.

AB - The predefined-time attitude stabilization control problem of a spacecraft with external disturbance is addressed. A predefined-time observer-based control approach is presented using a new nonsingular sliding surface. On this sliding surface, the system states can converge to zero within a predefined time. Moreover, the incorporated disturbance observer is continuous with the chattering phenomenon eliminated. Compared with the existing finite/fixed-time attitude control methods, which need a complex process to determine the settling time, the upper bound of the convergence time ensured by the presented approach is determined by a constant only. Simulation study is further given to confirm that the presented controller is effective.

KW - Spacecraft

KW - attitude stabilization

KW - disturbance observer

KW - predefined-time

KW - sliding mode control

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JF - IEEE Transactions on Circuits and Systems II: Express Briefs

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Predefined-Time Observer-Based Nonsingular Sliding-Mode Control for Spacecraft Attitude Stabilization

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