基于高斯伪谱法的高超声速飞行器轨迹优化与跟踪控制

doi:10.16182/j.issn1004731x.joss.201704022

系统仿真学报 ›› 2017, Vol. 29 ›› Issue (4): 865-872.doi: 10.16182/j.issn1004731x.joss.201704022

基于高斯伪谱法的高超声速飞行器轨迹优化与跟踪控制

陶超

上海飞机设计研究院,上海 201210

收稿日期:2016-07-15 修回日期:2016-09-01 出版日期:2017-04-08 发布日期:2020-06-03
作者简介:陶超(1987-),男,江苏,博士,工程师,研究方向为飞行力学与飞行控制。

Trajectory Optimization and Tracking Controller Based on Gauss Pseudo Spectral Method for Hypersonic Vehicle

Tao Chao

Shanghai Aircraft Design and Research Institute, Shanghai 201210, China

Received:2016-07-15 Revised:2016-09-01 Online:2017-04-08 Published:2020-06-03

摘要/Abstract

摘要： 针对复杂的非线性,多约束(状态约束、控制量约束、边界约束和路径约束等)的高超声速上升段质点动力学模型,基于高斯伪谱法对高超声速飞行器上升段轨迹进行优化设计,再以轨迹优化中得到的最优控制量作为参考指令,针对高超声速飞行器纵向非线性刚体动力学模型,结合非线性动态逆方法与PD控制方法对最优参考指令进行跟踪控制。仿真结果表明,基于非线性动态逆方法的PD控制器对高超声速飞行器上升段燃料消耗最小的最优轨迹能够精确地跟踪控制,同时得到更加直接的最优舵面偏转规律。

关键词: 高斯伪谱法, 高超声速飞行器, 轨迹优化跟踪, 非线性动态逆

Abstract: For a complex nonlinear mass dynamic model in the ascent stage for a hypersonic vehicle with multiple constrains including state constrains, control constrains, boundary constrains and path constrains, a trajectory optimization methodology based on Gauss Pseudo Spectral was proposed for the hypersonic vehicle. The optimal controller of the trajectory optimization results was chosen as the reference command. For the rigid body dynamics of the hypersonic vehicle, a nonlinear dynamic inverse control combined with PD control methodology was proposed to track the reference command. The simulation results demonstrate that, for the minimum fuel consuming trajectory optimization of the ascent stage, the nonlinear dynamic inverse control combined with PD control methodology can track the reference command precisely. At the same time, the optimal control surface deflection is obtained.

Key words: gauss pseudo spectral, hypersonic vehicle, trajectory optimization and tracking, nonlinear dynamic inverse

中图分类号:

TP391.9

陶超. 基于高斯伪谱法的高超声速飞行器轨迹优化与跟踪控制[J]. 系统仿真学报, 2017, 29(4): 865-872.

Tao Chao. Trajectory Optimization and Tracking Controller Based on Gauss Pseudo Spectral Method for Hypersonic Vehicle[J]. Journal of System Simulation, 2017, 29(4): 865-872.

参考文献

[1] 黄国强, 陆宇平, 南英. 飞行器轨迹优化数值算法综述[J]. 中国科学: 技术科学, 2012, 42(9): 1016-1036.
(Huang G Q, Lu Y P, Nan Y.A survey of numerical algorithms for trajectory optimization of flight vehicles.[J]. Sci China Tech Sci, 2012, 42(9): 1016-1036.)
[2] 葛晖. 高超声速飞行器上升段轨迹优化及闭环最优制导技术研究 [D]. 上海: 上海交通大学, 2012.
(Ge H.Trajectory optimization and closed loop optimal ascent guidance of hypersonic vehicle [D]. Shanghai, China: Shanghai Jiaotong University, 2012.)
[3] 方群, 李新三. 临近空间高超声速无动力滑翔飞行器最优轨迹设计及制导研究[J]. 宇航学报, 2008, 29(5): 1485-1491.
(Fang Q, Li X S, Optimal trajectory planning and guidance research for hypersonic unpowered glider in near space[J]. Journal of Astronautics, 2008, 29(5): 1485-1491.)
[4] Dukeman G A.Profile-following Entry Guidance Using Linear Quadratic Regulator Theory[C]// AIAA Guidance, Navigation, and Control Conference and Exhibit. Monterey, California, USA: AIAA, 2002.
[5] Zimmerman C, Dukeman G A, Hanson J M.An Automated Method to Compute Orbital Reentry Trajectories with Heating Constraints[J]. Journal of Guidance, Control, and Dynamics (S0731-5090), 2003, 26(4): 523-529.
[6] 方洋旺, 柴栋, 毛东辉, 等. 吸气式高超声速飞行器制导与控制研究现状及发展趋势[J]. 航空学报, 2014, 35(7): 1776-1786.
(Fang Y W, Chai D, Mao D H, et al.Status and development trend of the guidance and control for air-breathing hypersonic vehicle[J]. Acta Aeronautica et Astronaurica Sinica, 2014, 35(7): 1776-1786.)
[7] Hussein Y, Rajiv S C, Howard L, et al.Predictor-corrector Entry Guidance for Reusable Launch Vehicles[C]// AIAA Guidance, Navigation, and Control Conference. Chicago, Illinois, USA: AIAA, 2001.
[8] Xue S, Lu P.Constrained Predictor-Corrector Entry Guidance[J]. Journal of Guidance, Control, and Dynamics (S0731-5090), 2010, 33(4): 1273-1281.
[9] 李慧峰, 谢陵. 基于预测校正方法的RLV再入制导律设计[J]. 北京航空航天大学学报, 2009, 35(11): 1344-1348.
(Li H F, Xie L.Reentry guidance law design for RLV based on predictor corrector method[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(11): 1344-1348. )
[10] 水尊师, 周军, 葛志磊. 基于高斯伪谱法方法的再入飞行器预测校正制导方法研究[J]. 宇航学报, 2011, 32(6): 1249-1255.
(Shui Z S, Zhou J, Ge Z L.On-line predictor-corrector reentry guidance law based on Gauss pseudospectral method[J]. Journal of Astronautics, 2011, 32(6): 1249-1255.)
[11] Zhu G D, Shen Z J.Three Dimensional Trajectory Linearization Control for Flight of Air-birthing Hypersonic Vehicle[J]. Procedia Engineering (S1877-7058), 2015, 99: 1108-1119.

基于高斯伪谱法的高超声速飞行器轨迹优化与跟踪控制

Trajectory Optimization and Tracking Controller Based on Gauss Pseudo Spectral Method for Hypersonic Vehicle

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