Integrated Anti-Windup Fault-Tolerant Control Architecture for Optimized Satellite Attitude Stabilization
This article presents the development of an anti-windup (AW) compensator architecture for nanosatellite systems. The design addresses the problem of fault-tolerant control (FTC) for attitude stabilization subject to actuator saturation, actuator faults, and multiple disturbances. In many practical a...
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| Published in | IEEE journal on miniaturization for air and space systems Vol. 2; no. 4; pp. 189 - 198 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Piscataway
IEEE
01.12.2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
| ISSN | 2576-3164 2576-3164 |
| DOI | 10.1109/JMASS.2021.3092364 |
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| Abstract | This article presents the development of an anti-windup (AW) compensator architecture for nanosatellite systems. The design addresses the problem of fault-tolerant control (FTC) for attitude stabilization subject to actuator saturation, actuator faults, and multiple disturbances. In many practical applications, certain physical limitations in the actuator design often mean that actuator saturation is mostly unaccounted for. Based on the ESTCube-2 nanosatellite model with reaction wheels (RWs), an integrated AW-FTC architecture is designed for an optimized attitude control system. The AW compensator is formulated using the linear matrix inequality (LMI) and computed to generate an augmented solution that is appended to the linear control system. The AW compensator in the architecture is designed with suitable parameters and effective controller gain values. The AW-FTC acts on the RW momentum as control input with the observed torque response, thereby ensuring an asymptotically stable system. Simulation results are presented to demonstrate the effectiveness of this approach with finite-time stabilization under actuator faults and saturation conditions. |
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| AbstractList | This article presents the development of an anti-windup (AW) compensator architecture for nanosatellite systems. The design addresses the problem of fault-tolerant control (FTC) for attitude stabilization subject to actuator saturation, actuator faults, and multiple disturbances. In many practical applications, certain physical limitations in the actuator design often mean that actuator saturation is mostly unaccounted for. Based on the ESTCube-2 nanosatellite model with reaction wheels (RWs), an integrated AW–FTC architecture is designed for an optimized attitude control system. The AW compensator is formulated using the linear matrix inequality (LMI) and computed to generate an augmented solution that is appended to the linear control system. The AW compensator in the architecture is designed with suitable parameters and effective controller gain values. The AW–FTC acts on the RW momentum as control input with the observed torque response, thereby ensuring an asymptotically stable system. Simulation results are presented to demonstrate the effectiveness of this approach with finite-time stabilization under actuator faults and saturation conditions. |
| Author | Jemitola, Paul Anbarjafari, Gholamreza Slavinskis, Andris Ofodile, Ikechukwu Ofodile-Keku, Nkemdilim |
| Author_xml | – sequence: 1 givenname: Ikechukwu orcidid: 0000-0002-1980-2850 surname: Ofodile fullname: Ofodile, Ikechukwu email: ikechukwu.ofodile@estcube.eu organization: Tartu Observatory, University of Tartu, Tõravere, Estonia – sequence: 2 givenname: Nkemdilim surname: Ofodile-Keku fullname: Ofodile-Keku, Nkemdilim organization: Faculty of Air Engineering, Air Force Institute of Technology, NAF Base Kaduna, Nigeria – sequence: 3 givenname: Paul surname: Jemitola fullname: Jemitola, Paul organization: Faculty of Air Engineering, Air Force Institute of Technology, NAF Base Kaduna, Nigeria – sequence: 4 givenname: Gholamreza orcidid: 0000-0001-8460-5717 surname: Anbarjafari fullname: Anbarjafari, Gholamreza organization: iCV Lab, Institute of Technology, University of Tartu, Tartu, Estonia – sequence: 5 givenname: Andris orcidid: 0000-0001-7310-7608 surname: Slavinskis fullname: Slavinskis, Andris organization: Tartu Observatory, University of Tartu, Tõravere, Estonia |
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| Snippet | This article presents the development of an anti-windup (AW) compensator architecture for nanosatellite systems. The design addresses the problem of... |
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| SubjectTerms | Actuator design Actuator fault Actuators anti-windup (AW) Antiwindup compensators Attitude control Attitude stability Control systems Design Fault tolerance Fault tolerant control fault-tolerant control (FTC) Linear control Linear matrix inequalities nanosatellite Nanosatellites Reaction wheels Saturation Small satellites Space vehicles |
| Title | Integrated Anti-Windup Fault-Tolerant Control Architecture for Optimized Satellite Attitude Stabilization |
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