Acceleration tracking control for a spinning glide guided projectile with multiple disturbances |
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Affiliation: | 1. School of Energy and Power Engineering, Nanjing University of Science and Technology, Nanjing 210094, China;2. No. 203 Research Institute of China Ordnance Industries, Xi’an 710065, China |
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Abstract: | A novel acceleration tracking controller is proposed in this paper, for a Spinning Glide Guided Projectile (SGGP) subject to cross-coupling dynamics, external disturbances, and parametric uncertainties. The cross-coupled dynamics for the SGGP are formulated with mismatched and matched uncertainties, and then divided into acceleration and angular rate subsystems via the hierarchical principle. By exploiting the structural property of the SGGP, model-assisted Extended State Observers (ESOs) are designed to estimate online the lumped disturbances in the acceleration and angular rate dynamics. To achieve a rapid response and a strong robustness, integral sliding mode control laws and sigmoid-function-based tracking differentiators are integrated into the ESO-based Trajectory Linearization Control (TLC) framework. It is proven that the acceleration tracking controller can guarantee the ultimate boundedness of the signals in the closed-loop system and make the tracking errors arbitrarily small. The superiority and effectiveness of the proposed control scheme in its decoupling ability, accurate acceleration tracking performance and anti-disturbance capability are validated through comparisons and extensive simulations. |
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Keywords: | Spinning glide guided projectile Cross-coupling Acceleration tracking Nonlinear control Extended state observer |
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