Rapid multi-layer method on solving optimal endo-atmospheric trajectory of launch vehicles

In order to increase the speed, precision and robustness against the engine failure in solving optimal endo-atmospheric ascent trajectory of a launch vehicle, a rapid multi-layer solving method with improved numerical algorithms was proposed. The proposed method is capable of decomposing a large num...

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Published in	Aeronautical journal Vol. 123; no. 1267; pp. 1396 - 1414
Main Authors	Wei, Changzhu, Han, Yepeng, Pu, Jialun, Li, Yuan, Huang, Panxing
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 01.09.2019
Subjects	Algorithms Ascent trajectories Boundary value problems Computer simulation Control theory Convergence Efficiency Engine failure Failure times Finite difference method Intervals Launch vehicles Mathematical models Methods Monolayers Multilayers Nodes Nonlinear equations Numerical analysis Optimization Quasi Newton methods Robustness (mathematics) Terminal constraints Vehicles Velocity Hamilton two-point boundary value problem inverse Broyden quasi-Newton method optimal endo-atmospheric trajectory multi-layer iteration launch vehicle
Online Access	Get full text
ISSN	0001-9240 2059-6464
DOI	10.1017/aer.2019.17

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Abstract	In order to increase the speed, precision and robustness against the engine failure in solving optimal endo-atmospheric ascent trajectory of a launch vehicle, a rapid multi-layer solving method with improved numerical algorithms was proposed. The proposed method is capable of decomposing a large number of intervals into multiple layers with advantageous convergence property. Firstly, the problem of solving optimal endo-atmospheric ascent trajectory, which was subjected to path constraints and terminal constraints, was transformed into a Hamilton Two Point Boundary Value Problem (TPBVP). Then, through the finite difference method and numerical solving algorithm, the Hamilton TPBVP was iteratively solved with fewer initial discrete intervals. The initial values of higher-layer iterations were obtained by interpolating convergent solutions at sparse nodes into the doubly discrete nodes of high layers. The process was repeatedly performed until the solving precision met the requirements. To decrease the calculation load in solving TPBVPs, two improved solving algorithms without and with fewer Jacobian calculations were studied, respectively the Derivative-free Spectral Algorithm for Nonlinear Equations(DF-SANE) combined with the improved derivative-free nonmonotone line search strategy, and the Modified Newton method with a relaxation factor in combination with the Inverse Broyden Quasi-Newton method, denoted as ‘MN-IBQ’. Simulation verifications showed that the multi-layer method had significantly higher solving speed than the single-layer method. For the improved numerical algorithms, the DF-SANE was trapped in the local convergence problem. While using the proposed MN-IBQ can further increase the solving rate. Typical engine failure simulations showed that the multi-layer method with the MN-IBQ algorithm had not only significantly higher solving speed but also stronger robustness, where the traditional single-layer method could not adapt. In addition, the thrust loss tolerance limits for the multi-layer solving method were given for different engine failure times. The results show promising potential of the proposed approach in trajectory online generation and closed-loop guidance of launch vehicles at the endo-atmospheric ascent stage.
AbstractList	In order to increase the speed, precision and robustness against the engine failure in solving optimal endo-atmospheric ascent trajectory of a launch vehicle, a rapid multi-layer solving method with improved numerical algorithms was proposed. The proposed method is capable of decomposing a large number of intervals into multiple layers with advantageous convergence property. Firstly, the problem of solving optimal endo-atmospheric ascent trajectory, which was subjected to path constraints and terminal constraints, was transformed into a Hamilton Two Point Boundary Value Problem (TPBVP). Then, through the finite difference method and numerical solving algorithm, the Hamilton TPBVP was iteratively solved with fewer initial discrete intervals. The initial values of higher-layer iterations were obtained by interpolating convergent solutions at sparse nodes into the doubly discrete nodes of high layers. The process was repeatedly performed until the solving precision met the requirements. To decrease the calculation load in solving TPBVPs, two improved solving algorithms without and with fewer Jacobian calculations were studied, respectively the Derivative-free Spectral Algorithm for Nonlinear Equations(DF-SANE) combined with the improved derivative-free nonmonotone line search strategy, and the Modified Newton method with a relaxation factor in combination with the Inverse Broyden Quasi-Newton method, denoted as ‘MN-IBQ’. Simulation verifications showed that the multi-layer method had significantly higher solving speed than the single-layer method. For the improved numerical algorithms, the DF-SANE was trapped in the local convergence problem. While using the proposed MN-IBQ can further increase the solving rate. Typical engine failure simulations showed that the multi-layer method with the MN-IBQ algorithm had not only significantly higher solving speed but also stronger robustness, where the traditional single-layer method could not adapt. In addition, the thrust loss tolerance limits for the multi-layer solving method were given for different engine failure times. The results show promising potential of the proposed approach in trajectory online generation and closed-loop guidance of launch vehicles at the endo-atmospheric ascent stage.
Author	Li, Yuan Han, Yepeng Wei, Changzhu Pu, Jialun Huang, Panxing
Author_xml	– sequence: 1 givenname: Changzhu surname: Wei fullname: Wei, Changzhu email: weichangzhu@hit.edu.cn organization: Department of Aerospace Engineering, Harbin Institute of Technology, Harbin 150001, China – sequence: 2 givenname: Yepeng surname: Han fullname: Han, Yepeng email: han_ye_peng@126.com organization: Department of Aerospace Engineering, Harbin Institute of Technology, Harbin 150001, China – sequence: 3 givenname: Jialun orcidid: 0000-0001-6874-2746 surname: Pu fullname: Pu, Jialun email: nosay@hit.edu.cn organization: Department of Aerospace Engineering, Harbin Institute of Technology, Harbin 150001, China – sequence: 4 givenname: Yuan surname: Li fullname: Li, Yuan email: liyuan@stu.hit.edu.cn organization: Department of Aerospace Engineering, Harbin Institute of Technology, Harbin 150001, China – sequence: 5 givenname: Panxing surname: Huang fullname: Huang, Panxing email: huangpanxing2006@126.com organization: Beijing Institute of Control Engineering, Beijing 100094, China
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SubjectTerms	Algorithms Ascent trajectories Boundary value problems Computer simulation Control theory Convergence Efficiency Engine failure Failure times Finite difference method Intervals Launch vehicles Mathematical models Methods Monolayers Multilayers Nodes Nonlinear equations Numerical analysis Optimization Quasi Newton methods Robustness (mathematics) Terminal constraints Vehicles Velocity
Title	Rapid multi-layer method on solving optimal endo-atmospheric trajectory of launch vehicles
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