Missile Guidance Design using Optimal Trajectory Shaping and Neural Network
| Authors: | Jan Horn-Yong, Feng Chia University, Taiwan
Lin Chun-Liang, National Chung Hsing University, Taiwan
Chen Kai-Ming, National Chung Hsing University, Taiwan
Lai Chi-Wen, National Chung Hsing University, Taiwan
Hwang Thong-Shing, Feng Chia University, Taiwan |
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| Topic: | 7.3 Aerospace |
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| Session: | Unmanned Aerial Vehicles |
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| Keywords: | Optimal guidance law, missile, ballistic target, neural network |
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Abstract
Preliminary studies have shown that the aspect angle of the interceptor at lock-on near 180 degree is a fundamental requirement for an aerodynamically controlled missile achieving small miss distance against a faster target. An optimal midcourse guidance law based on the optimal trajectory shaping is developed to meet this prerequisite. Neural networks are incorporated with the PN guidance at the terminal phase to improve the tracking accuracy. The whole defensible volume in the 3-dimesional space is characterized and the performance robustness is also verified.
