Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles

Zixuan Liang; Qingdong Li; Zhang Ren; Xingyue Shao

doi:10.1109/CGNCC.2014.7007320

Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles

Zixuan Liang, Qingdong Li, Zhang Ren, Xingyue Shao

Beihang University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

An onboard trajectory planning algorithm is presented in this paper for the terminal area energy management (TAEM) phase of a reusable launch vehicle (RLV). To satisfy the multiple constraints in the TAEM phase, a profile in the flight-path angle vs. range-to-go space is planned. The optimization of this flight-path angle profile is described as a one-parameter search problem and solved by the Newton iteration method. With the optimized flight-path angle profile, a satisfied longitudinal flight trajectory is generated based on the flight dynamics. Testing for the trajectory planning algorithm is performed in missions with different terminal flight-path angle constraints. The onboard algorithm is indicated effective to generate a constrained longitudinal flight trajectory in 0.5 seconds on a PC. The Monte Carlo simulations are employed in dispersed cases, and the planning algorithm is shown robust in trajectory generation with large initial condition errors of the TAEM phase.

Original language	English
Title of host publication	2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	850-854
Number of pages	5
ISBN (Electronic)	9781479946990
DOIs	https://doi.org/10.1109/CGNCC.2014.7007320
Publication status	Published - 12 Jan 2015
Externally published	Yes
Event	6th IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014 - Yantai, China Duration: 8 Aug 2014 → 10 Aug 2014

Publication series

Name	2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014

Conference

Conference	6th IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014
Country/Territory	China
City	Yantai
Period	8/08/14 → 10/08/14

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10.1109/CGNCC.2014.7007320

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Liang, Z., Li, Q., Ren, Z., & Shao, X. (2015). Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles. In 2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014 (pp. 850-854). Article 7007320 (2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CGNCC.2014.7007320

Liang, Zixuan ; Li, Qingdong ; Ren, Zhang et al. / Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles. 2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014. Institute of Electrical and Electronics Engineers Inc., 2015. pp. 850-854 (2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014).

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title = "Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles",

abstract = "An onboard trajectory planning algorithm is presented in this paper for the terminal area energy management (TAEM) phase of a reusable launch vehicle (RLV). To satisfy the multiple constraints in the TAEM phase, a profile in the flight-path angle vs. range-to-go space is planned. The optimization of this flight-path angle profile is described as a one-parameter search problem and solved by the Newton iteration method. With the optimized flight-path angle profile, a satisfied longitudinal flight trajectory is generated based on the flight dynamics. Testing for the trajectory planning algorithm is performed in missions with different terminal flight-path angle constraints. The onboard algorithm is indicated effective to generate a constrained longitudinal flight trajectory in 0.5 seconds on a PC. The Monte Carlo simulations are employed in dispersed cases, and the planning algorithm is shown robust in trajectory generation with large initial condition errors of the TAEM phase.",

author = "Zixuan Liang and Qingdong Li and Zhang Ren and Xingyue Shao",

note = "Publisher Copyright: {\textcopyright} 2014 IEEE.; 6th IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014 ; Conference date: 08-08-2014 Through 10-08-2014",

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doi = "10.1109/CGNCC.2014.7007320",

language = "English",

series = "2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014",

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Liang, Z, Li, Q, Ren, Z & Shao, X 2015, Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles. in 2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014., 7007320, 2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014, Institute of Electrical and Electronics Engineers Inc., pp. 850-854, 6th IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014, Yantai, China, 8/08/14. https://doi.org/10.1109/CGNCC.2014.7007320

Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles. / Liang, Zixuan; Li, Qingdong; Ren, Zhang et al.
2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014. Institute of Electrical and Electronics Engineers Inc., 2015. p. 850-854 7007320 (2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles

AU - Liang, Zixuan

AU - Li, Qingdong

AU - Ren, Zhang

AU - Shao, Xingyue

PY - 2015/1/12

Y1 - 2015/1/12

N2 - An onboard trajectory planning algorithm is presented in this paper for the terminal area energy management (TAEM) phase of a reusable launch vehicle (RLV). To satisfy the multiple constraints in the TAEM phase, a profile in the flight-path angle vs. range-to-go space is planned. The optimization of this flight-path angle profile is described as a one-parameter search problem and solved by the Newton iteration method. With the optimized flight-path angle profile, a satisfied longitudinal flight trajectory is generated based on the flight dynamics. Testing for the trajectory planning algorithm is performed in missions with different terminal flight-path angle constraints. The onboard algorithm is indicated effective to generate a constrained longitudinal flight trajectory in 0.5 seconds on a PC. The Monte Carlo simulations are employed in dispersed cases, and the planning algorithm is shown robust in trajectory generation with large initial condition errors of the TAEM phase.

AB - An onboard trajectory planning algorithm is presented in this paper for the terminal area energy management (TAEM) phase of a reusable launch vehicle (RLV). To satisfy the multiple constraints in the TAEM phase, a profile in the flight-path angle vs. range-to-go space is planned. The optimization of this flight-path angle profile is described as a one-parameter search problem and solved by the Newton iteration method. With the optimized flight-path angle profile, a satisfied longitudinal flight trajectory is generated based on the flight dynamics. Testing for the trajectory planning algorithm is performed in missions with different terminal flight-path angle constraints. The onboard algorithm is indicated effective to generate a constrained longitudinal flight trajectory in 0.5 seconds on a PC. The Monte Carlo simulations are employed in dispersed cases, and the planning algorithm is shown robust in trajectory generation with large initial condition errors of the TAEM phase.

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BT - 2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014

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Liang Z, Li Q, Ren Z, Shao X. Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles. In 2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014. Institute of Electrical and Electronics Engineers Inc. 2015. p. 850-854. 7007320. (2014 IEEE Chinese Guidance, Navigation and Control Conference, CGNCC 2014). doi: 10.1109/CGNCC.2014.7007320

Onboard longitudinal trajectory planning for terminal area energy management of reusable launch vehicles

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