Event-triggered attitude tracking for rigid spacecraft

Deheng Cai; Hengguang Zou; Junzheng Wang; Yuan Huang; Dawei Shi

doi:10.1007/s11432-018-9844-3

Event-triggered attitude tracking for rigid spacecraft

Deheng Cai, Hengguang Zou, Junzheng Wang, Yuan Huang, Dawei Shi^*

^*Corresponding author for this work

School of Automation

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

17 Citations (Scopus)

Abstract

This study aims to investigate the problem of attitude control for a spacecraft with inertial uncertainties, external disturbances, and communication restrictions. An event-triggered active disturbance rejection control approach is proposed for attitude tracking of the spacecraft. An event-triggered mechanism is introduced together with an extended state observer to jointly monitor the system states and total disturbances. The observation error is proved to be uniformly bounded. Based on the proposed control scheme, the integrated tracking system is shown to be asymptotically stable, implying successful attitude tracking of the spacecraft for the desired motion. Numerical results illustrate the effectiveness of the control strategy in achieving satisfactory tracking performance with a reduced data-transmission cost.

Original language	English
Article number	222202
Journal	Science China Information Sciences
Volume	62
Issue number	12
DOIs	https://doi.org/10.1007/s11432-018-9844-3
Publication status	Published - 1 Dec 2019

Keywords

active disturbance rejection control
attitude tracking
event-triggered control
extended state observer
spacecraft

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10.1007/s11432-018-9844-3

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title = "Event-triggered attitude tracking for rigid spacecraft",

abstract = "This study aims to investigate the problem of attitude control for a spacecraft with inertial uncertainties, external disturbances, and communication restrictions. An event-triggered active disturbance rejection control approach is proposed for attitude tracking of the spacecraft. An event-triggered mechanism is introduced together with an extended state observer to jointly monitor the system states and total disturbances. The observation error is proved to be uniformly bounded. Based on the proposed control scheme, the integrated tracking system is shown to be asymptotically stable, implying successful attitude tracking of the spacecraft for the desired motion. Numerical results illustrate the effectiveness of the control strategy in achieving satisfactory tracking performance with a reduced data-transmission cost.",

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T1 - Event-triggered attitude tracking for rigid spacecraft

AU - Cai, Deheng

AU - Zou, Hengguang

AU - Wang, Junzheng

AU - Huang, Yuan

AU - Shi, Dawei

PY - 2019/12/1

Y1 - 2019/12/1

N2 - This study aims to investigate the problem of attitude control for a spacecraft with inertial uncertainties, external disturbances, and communication restrictions. An event-triggered active disturbance rejection control approach is proposed for attitude tracking of the spacecraft. An event-triggered mechanism is introduced together with an extended state observer to jointly monitor the system states and total disturbances. The observation error is proved to be uniformly bounded. Based on the proposed control scheme, the integrated tracking system is shown to be asymptotically stable, implying successful attitude tracking of the spacecraft for the desired motion. Numerical results illustrate the effectiveness of the control strategy in achieving satisfactory tracking performance with a reduced data-transmission cost.

AB - This study aims to investigate the problem of attitude control for a spacecraft with inertial uncertainties, external disturbances, and communication restrictions. An event-triggered active disturbance rejection control approach is proposed for attitude tracking of the spacecraft. An event-triggered mechanism is introduced together with an extended state observer to jointly monitor the system states and total disturbances. The observation error is proved to be uniformly bounded. Based on the proposed control scheme, the integrated tracking system is shown to be asymptotically stable, implying successful attitude tracking of the spacecraft for the desired motion. Numerical results illustrate the effectiveness of the control strategy in achieving satisfactory tracking performance with a reduced data-transmission cost.

KW - active disturbance rejection control

KW - attitude tracking

KW - event-triggered control

KW - extended state observer

KW - spacecraft

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VL - 62

JO - Science China Information Sciences

JF - Science China Information Sciences

IS - 12

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ER -

Event-triggered attitude tracking for rigid spacecraft

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