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あぁかがさざただなはばぱまやゃらわゎんいぃきぎしじちぢにひびぴみりうぅくぐすずつづっぬふぶぷむゆゅるえぇけげせぜてでねへべぺめれおぉこごそぞとどのほぼぽもよょろを

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á à Á À é è É È ç Ç ê

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Composite Back Stepping Anti-unwinding Control of Spacecraft with Finite Time Convergence

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https://www.riss.kr/link?id=A105631314

저자

Umair Javaid ; Qing Lei Hu
발행기관
제어로봇시스템학회
학술지명
제어로봇시스템학회 국제학술대회 논문집
권호사항

Vol.2018 No.10 [2018]
발행연도
2018
작성언어
English
주제어

Spacecraft attitude control ; Sliding mode control ; Back-stepping ; Disturbance observer ; Extended state observer ; Lyapunov stability
자료형태
학술저널
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1360-1365(6쪽)
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다국어 초록 (Multilingual Abstract)

Quaternion representation of spacecraft results in dual equilibrium points. Unwinding phenomenon occurs if both the points are not considered stable while designing control law. This research note proposes anti-unwinding attitude stabilization control of rigid body spacecraft in presence of external disturbance and inertial uncertainties. In pursuit of our goal, we formulated sliding surface using scalar component of quaternion and developed composite anti-unwinding control law using back-stepping technique (BT), in accomplice with sliding mode control (SMC). Furthermore, state transformation is performed to facilitate application of observer for estimation of lumped uncertainties. We employed extended state observer (ESO) to compensate for external disturbance and inertial uncertainties. The control law gives precise and smooth steady state performance along with faster transient response. Additionally, it has better uncertainty rejection capabilities and alleviates chattering phenomenon. Close loop stability of the system is proved using Lyapunov’s theory and Barbalat’s lemma in finite time (FT). Simulation results demonstrate effectiveness of the presented control law.

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Quaternion representation of spacecraft results in dual equilibrium points. Unwinding phenomenon occurs if both the points are not considered stable while designing control law. This research note proposes anti-unwinding attitude stabilization control...

Quaternion representation of spacecraft results in dual equilibrium points. Unwinding phenomenon occurs if both the points are not considered stable while designing control law. This research note proposes anti-unwinding attitude stabilization control of rigid body spacecraft in presence of external disturbance and inertial uncertainties. In pursuit of our goal, we formulated sliding surface using scalar component of quaternion and developed composite anti-unwinding control law using back-stepping technique (BT), in accomplice with sliding mode control (SMC). Furthermore, state transformation is performed to facilitate application of observer for estimation of lumped uncertainties. We employed extended state observer (ESO) to compensate for external disturbance and inertial uncertainties. The control law gives precise and smooth steady state performance along with faster transient response. Additionally, it has better uncertainty rejection capabilities and alleviates chattering phenomenon. Close loop stability of the system is proved using Lyapunov’s theory and Barbalat’s lemma in finite time (FT). Simulation results demonstrate effectiveness of the presented control law.

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목차 (Table of Contents)

Abstract
1. INTRODUCTION
2. SYSTEM DESCRIPTION
3. SLIDING SURFACE AND TRANSFORMATION
4. ESO AND CONTROLLER DESIGN

Abstract
1. INTRODUCTION
2. SYSTEM DESCRIPTION
3. SLIDING SURFACE AND TRANSFORMATION
4. ESO AND CONTROLLER DESIGN
5. SIMULATION RESULTS AND DISCUSSIONS
6. CONCLUSION
REFERENCES

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