A Multiple Power Reachable Sliding Mode Control Approach for Guidance of Miniature Laser Beam Riding Steered Munition
Autor: | Shi-Wei Chen, Jun-Fang Fan |
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Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Lyapunov function
0209 industrial biotechnology Computer simulation Article Subject Computer science Aerospace Engineering TL1-4050 02 engineering and technology 01 natural sciences Sliding mode control Integral sliding mode Acceleration symbols.namesake 020901 industrial engineering & automation Control theory 0103 physical sciences Trajectory symbols Pitch angle 010301 acoustics Motor vehicles. Aeronautics. Astronautics |
Zdroj: | International Journal of Aerospace Engineering, Vol 2021 (2021) |
ISSN: | 1687-5966 |
DOI: | 10.1155/2021/5558164 |
Popis: | For a two-stage launch miniature shoulder munition steered with a laser beam riding system, the laser beam points to the target with a limited field radius and approximate straight-line spatial path; thus, the munition could not fly into the laser information field after the powered flight. The miniature munition dynamics are established firstly; then, an adaptive multiple power reachable sliding mode controller is presented and adopted to constrain both the trajectory inclination and pitch angle, which makes the munition enter the field and fly under control in the field with desired attitude angles, respectively. Considering the constraints of the incidence angle and the radius of the laser information field, an arctangent function curve is selected as the expected trajectory, and an adaptive multiple power reachable integral sliding mode guidance law is detailed, which makes the munition trajectory approach and converges to the expected curve fastly with limited acceleration. Therefore, the miniature munition flight trajectory is planned and optimized. Convergence and stability are analyzed based on the Lyapunov method. The numerical simulation against the stationary target is performed to fully demonstrate the efficacy of the proposed method. |
Databáze: | OpenAIRE |
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