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Realization of proportional navigation and lateral acceleration autopilot for endoatmospheric kinetic interceptor with pulse thrusters

Realization of proportional navigation and lateral acceleration autopilot for endoatmospheric kinetic interceptor with pulse thrusters
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摘要 The guidance and control strategy for endoatmospheric kinetic interceptor controlled by lateral pulse thrusters was detailed.The pulse thruster control system was firstly proposed.The sample-and-hold approach was introduced to design a novel lateral acceleration autopilot on the basis of traditional two-loop topology.Combined with proportional navigation guidance law and the novel autopilot,the overall ballistic trajectory was presented and examined.Simulation results show that the pulse thruster control strategy can greatly improve the control system response speed and the maximal acceleration capability for realizing kinetic kill interception. The guidance and control strategy for endoatmospheric kinetic interceptor controlled by lateral pulse thrusters was detailed.The pulse thruster control system was firstly proposed.The sample-and-hold approach was introduced to design a novel lateral acceleration autopilot on the basis of traditional two-loop topology.Combined with proportional navigation guidance law and the novel autopilot,the overall ballistic trajectory was presented and examined.Simulation results show that the pulse thruster control strategy can greatly improve the control system response speed and the maximal acceleration capability for realizing kinetic kill interception.
作者 王江 石正海 林德福 祁载康
机构地区 School of Aerospace Engineering North Automatic Control Technology Research Institute
出处 《Journal of Beijing Institute of Technology》 EI CAS 2011年第4期462-465,共4页 北京理工大学学报(英文版)
基金 Supported by the National Natural Science Foundation of China(61172182)
关键词 kinetic interceptor pulse thruster acceleration autopilot proportional navigation kinetic interceptor pulse thruster acceleration autopilot proportional navigation
分类号 TJ765 [兵器科学与技术—武器系统与运用工程]
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参考文献8

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Journal of Beijing Institute of Technology
2011年 第4期

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