Safety-Critical Attitude Tracking of Spacecraft With Data-Based Parameter Identification
This article proposes a safety-critical control strategy for the attitude tracking issue of a rigid spacecraft subject to orientation and angular velocity constraints. To compensate for the unknown inertial matrix parameters, an online identification algorithm with a data-based selection criteria is...
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| Published in | IEEE transactions on aerospace and electronic systems Vol. 61; no. 2; pp. 1353 - 1362 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.04.2025
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9251 1557-9603 |
| DOI | 10.1109/TAES.2024.3458934 |
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| Abstract | This article proposes a safety-critical control strategy for the attitude tracking issue of a rigid spacecraft subject to orientation and angular velocity constraints. To compensate for the unknown inertial matrix parameters, an online identification algorithm with a data-based selection criteria is first designed, which shows that the estimate error is exponentially convergence if a finite excitation condition is satisfied. Then, by introducing the identified parameters, an adaptive hybrid attitude tracking control torque is developed, where a binary logic switch framework is employed to avoid the unwinding phenomenon. For the sake of safety-critical tracking subject to state constraints, a control barrier function quadratic programming optimization is developed, where the nonconvex orientation constraints are losslessly replaced by convex quadratic ones. The uniform asymptotic stability of the closed-loop system is proved, and the preassigned safety sets are forward invariant with the largest safe region. Simulation results validate and access the proposed control strategy. |
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| AbstractList | This article proposes a safety-critical control strategy for the attitude tracking issue of a rigid spacecraft subject to orientation and angular velocity constraints. To compensate for the unknown inertial matrix parameters, an online identification algorithm with a data-based selection criteria is first designed, which shows that the estimate error is exponentially convergence if a finite excitation condition is satisfied. Then, by introducing the identified parameters, an adaptive hybrid attitude tracking control torque is developed, where a binary logic switch framework is employed to avoid the unwinding phenomenon. For the sake of safety-critical tracking subject to state constraints, a control barrier function quadratic programming optimization is developed, where the nonconvex orientation constraints are losslessly replaced by convex quadratic ones. The uniform asymptotic stability of the closed-loop system is proved, and the preassigned safety sets are forward invariant with the largest safe region. Simulation results validate and access the proposed control strategy. |
| Author | Wang, Jianan Liu, Fuxiang Xia, Kewei |
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| SubjectTerms | Algorithms Angular velocity Attitude control Closed loops Constraints Control barrier function (CBF) Feedback control Iron Logic programming Parameter identification Quadratic programming Quaternions Safety critical Simulation Space vehicles Spacecraft attitude control spacecraft attitude tracking Spacecraft tracking state constraints Torque Tracking control unwinding avoidance Vectors |
| Title | Safety-Critical Attitude Tracking of Spacecraft With Data-Based Parameter Identification |
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