A Composite Robust Fault-Tolerant Control Scheme for Limited-Thrust Spacecraft Rendezvous in Near-Circular Orbits

Neng Wan; Weiran Yao; Mingming Shi

doi:10.1115/1.4037211

A Composite Robust Fault-Tolerant Control Scheme for Limited-Thrust Spacecraft Rendezvous in Near-Circular Orbits

Neng Wan
, Weiran Yao
, Mingming Shi

University of Minnesota Duluth
School of Astronautics, Harbin Institute of Technology
University of Groningen

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

3 Scopus citations

Abstract

External perturbations and actuator faults are two practical and significant issues that deserve designers' considerations when synthesizing the controllers for spacecraft rendezvous. A composite robust fault-tolerant control (FTC) scheme that does not require the fault information is proposed in this paper for limited-thrust rendezvous in nearcircular orbits. Within the control scheme, a reliable integral sliding mode (ISM) auxiliary controller and a modified guaranteed cost FTC are, respectively, developed to attenuate the external disturbances and to stabilize the nominal rendezvous system with actuator faults. Comparisons with previous works as well as a more practical and challenging simulation example are presented to verify the advantages of this composite control scheme.

Original language	English
Article number	121009
Journal	Journal of Dynamic Systems, Measurement and Control
Volume	139
Issue number	12
DOIs	https://doi.org/10.1115/1.4037211
State	Published - 1 Dec 2017
Externally published	Yes

Keywords

actuator faults
actuator saturation
external perturbations
fault-tolerant control
integral sliding mode control
spacecraft rendezvous

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10.1115/1.4037211

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title = "A Composite Robust Fault-Tolerant Control Scheme for Limited-Thrust Spacecraft Rendezvous in Near-Circular Orbits",

abstract = "External perturbations and actuator faults are two practical and significant issues that deserve designers' considerations when synthesizing the controllers for spacecraft rendezvous. A composite robust fault-tolerant control (FTC) scheme that does not require the fault information is proposed in this paper for limited-thrust rendezvous in nearcircular orbits. Within the control scheme, a reliable integral sliding mode (ISM) auxiliary controller and a modified guaranteed cost FTC are, respectively, developed to attenuate the external disturbances and to stabilize the nominal rendezvous system with actuator faults. Comparisons with previous works as well as a more practical and challenging simulation example are presented to verify the advantages of this composite control scheme.",

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AU - Wan, Neng

AU - Yao, Weiran

AU - Shi, Mingming

PY - 2017/12/1

Y1 - 2017/12/1

N2 - External perturbations and actuator faults are two practical and significant issues that deserve designers' considerations when synthesizing the controllers for spacecraft rendezvous. A composite robust fault-tolerant control (FTC) scheme that does not require the fault information is proposed in this paper for limited-thrust rendezvous in nearcircular orbits. Within the control scheme, a reliable integral sliding mode (ISM) auxiliary controller and a modified guaranteed cost FTC are, respectively, developed to attenuate the external disturbances and to stabilize the nominal rendezvous system with actuator faults. Comparisons with previous works as well as a more practical and challenging simulation example are presented to verify the advantages of this composite control scheme.

AB - External perturbations and actuator faults are two practical and significant issues that deserve designers' considerations when synthesizing the controllers for spacecraft rendezvous. A composite robust fault-tolerant control (FTC) scheme that does not require the fault information is proposed in this paper for limited-thrust rendezvous in nearcircular orbits. Within the control scheme, a reliable integral sliding mode (ISM) auxiliary controller and a modified guaranteed cost FTC are, respectively, developed to attenuate the external disturbances and to stabilize the nominal rendezvous system with actuator faults. Comparisons with previous works as well as a more practical and challenging simulation example are presented to verify the advantages of this composite control scheme.

KW - actuator faults

KW - actuator saturation

KW - external perturbations

KW - fault-tolerant control

KW - integral sliding mode control

KW - spacecraft rendezvous

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DO - 10.1115/1.4037211

M3 - 文章

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SN - 0022-0434

VL - 139

JO - Journal of Dynamic Systems, Measurement and Control

JF - Journal of Dynamic Systems, Measurement and Control

IS - 12

M1 - 121009

ER -

A Composite Robust Fault-Tolerant Control Scheme for Limited-Thrust Spacecraft Rendezvous in Near-Circular Orbits

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