Abstract
Aiming at the trajectory design and tracking problems of high-speed reentry vehicles with lateral maneuvers, this paper proposes a sinusoidal lateral penetration strategy, establishes the relationship of latitude and longitude of the vehicle, and adds it as a path constraint on the trajectory optimization model. Based on the pseudo-spectral method, the continuous infinite-dimensional optimal control problem is transformed into a finite-dimensional non-linear programming problem, which is solved using sequential quadratic programming to obtain the optimized trajectory that meets the lateral penetration constraint. Results show that the optimized trajectory achieves the designed lateral maneuver with the control command responses relatively smooth, which shows considerable engineering applicability. In addition, an optimal state feedback trajectory tracking method based on linear quadratic regulator theory is proposed. Simulation results indicate that the proposed guidance method can adapt to large dispersion conditions and track the nominal trajectory well.
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References
Feng, L.H., Xue, Y.G.: Multi-model optimal controller design for near space high-speed vehicle. In: Control Conference. IEEE (2012)
Chao, T., Wang, S.Y., Yang, M., et al.: Near space vehicle trajectory optimization approach based on hybrid SVM and GA algorithm. Yuhang Xuebao/J. Astronaut. 33(2), 183–189 (2012)
Jorris, T.R.: Common Aero Vehicle Autonomous Reentry Trajectory Optimization Satisfying Waypoints and No-Fly Zone Constraints. Air Force Institute of Technology, Wright-Patterson (2007)
Yong, E.M., Qian, W.Q., He, K.F.: Penetration ability analysis for glide reentry trajectory based on radar tracking. J. Astronaut. 33(10), 1370–1376 (2012)
Yong, E., Chen, L., Tang, G.: Trajectory optimization of hypersonic gliding reentry vehicle based on the physical programming. Acta Aeronaut. Astronaut. Sin. 29(5), 1091–1097 (2008)
Xie, Y., Liu, L., Tang, G., et al.: Weaving maneuver trajectory design for hypersonic glide vehicles. Acta Aeronaut. Astronaut. Sin. 32(12), 2174–2181 (2011)
Guojian, T.: Maneuver characteristics analysis for hypersonic glide vehicles. Aerosp. Sci. Technol. 43, 321–328 (2015)
Kenan, Z., Hao, Z., Wanchun, C.: Trajectory planning for hypersonic vehicle with multiple constraints and multiple maneuvering penetration strategies. J. Ballist. 24(3), 85–90 (2012)
Phillips, T.H.: A Common Aero Vehicle (CAV) Model, Description, and Employment Guide. Technical Report. Schafer Corporation for AFRL and AF-SPC (2003)
Betts, J.T.: Practical Methods for Optimal Control and Estimation Using Nonlinear Programming. Siam (2010)
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Hui, X., Chi, F., Qi, Z., Wu, M., Li, F. (2022). High-Speed Reentry Vehicle Trajectory Optimization and Guidance with Lateral Maneuver. In: Yan, L., Duan, H., Yu, X. (eds) Advances in Guidance, Navigation and Control . Lecture Notes in Electrical Engineering, vol 644. Springer, Singapore. https://doi.org/10.1007/978-981-15-8155-7_346
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DOI: https://doi.org/10.1007/978-981-15-8155-7_346
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