引用本文: | 蔺君,何英姿,黄盘兴.基于改进分段Gauss伪谱法的带推力高超声速 飞行器再入轨迹规划[J].控制理论与应用,2019,36(10):1662~1671.[点击复制] |
LIN Jun,HE Ying-zi,HUANG Pan-xing.Powered hypersonic vehicle reentry trajectory optimization based on improved multi-phase Gauss spectral method[J].Control Theory and Technology,2019,36(10):1662~1671.[点击复制] |
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基于改进分段Gauss伪谱法的带推力高超声速 飞行器再入轨迹规划 |
Powered hypersonic vehicle reentry trajectory optimization based on improved multi-phase Gauss spectral method |
摘要点击 2706 全文点击 1098 投稿时间:2018-09-09 修订日期:2018-12-31 |
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DOI编号 10.7641/CTA.2019.80678 |
2019,36(10):1662-1671 |
中文关键词 高超声速飞行器 再入轨迹优化 分段高斯伪谱法 多脉冲轨迹规划 推力 |
英文关键词 hypersonic vehicles reentry trajectory optimization multi-phase Gauss peudospectral method multiimpulse trajectory optimization thrust |
基金项目 国家自然科学基金 |
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中文摘要 |
再入轨迹规划是高超声速飞行器领域的热点问题, 已吸引了众多国内外专家的关注. Gauss伪谱法及以分段Gauss伪谱法是解决轨迹规划问题的一类有效工具. 然而, 发动机多次点火熄火导致推力不连续以及点火时刻控制输入的连续性要求是带推力高超声速飞行器再入轨迹优化面临的新挑战. 本文将问题简化为多脉冲再入轨迹规划问题, 基于改进分段Gauss伪谱法生成满足多条件约束的最优再入轨迹. 通过设置分段Gauss伪谱法连续性条件,确保飞行器状态与控制输入在分段点处连续衔接. 通过无动力自由再入与带推力再入算例对改进分段高斯伪谱法进行说明, 仿真结果也表明, 改进分段高斯伪谱法可有效求解带推力高超声速飞行器再入轨迹规划. |
英文摘要 |
Reentry trajectory optimization is a hot topic of hypersonic vehicle, and has gained more and more attentions of the expert. Gauss pseudospectral method(GPM) and multi – phase Gauss pseudospectral method (MGPM) have been demonstrated as effective tools to solve the trajectory optimization with multi-constraints. However, thrust discontinuity caused by multiple ignition on and off and the requirement of control input continuity at ignition time are new challenges to powered hypersonic vehicle reentry trajectory optimization. In this paper, the problem is simplified to a multi–impulse reentry trajectory optimization problem, and a multi-condition constraint reentry trajectory is generated based on improved multi–phase Gauss pseudospectral method. The continuity conditions of MGPM are set to ensure the continuous connection of the states and control between each pair of phases. Numerical examples for reentry trajectory optimization in free flight and powered are used to demonstrate the proposed technique. Simulation results also show the feasible application of improved MGPM in powered reentry trajectory optimization. |