Constrained Spacecraft Attitude Optimal Control via Successive Convex Optimization

Jiayao Wang; Haibin Shang

doi:10.1088/1742-6596/2095/1/012039

Constrained Spacecraft Attitude Optimal Control via Successive Convex Optimization

Jiayao Wang^*, Haibin Shang

^*Corresponding author for this work

School of Aerospace Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

6 Citations (Scopus)

Abstract

Rapid attitude path planning is the key technique in autonomous spacecraft operation missions. An efficient method is proposed for energy-optimal spacecraft attitude control in presence of constraints. Firstly, Gauss pseudospectral method is utilized to discretize and transcribe the primal continuous problem to a nonlinear programming problem. Then a set of convexification techniques are used to convexify the nonlinear programming problem to a series of second-order cone programming problems, which can be solved iteratively by the interiorpoint method. A solution to the nonlinear programming problem is obtained as the iteration converges. Numerical results show the method could obtain a valid energy-optimal attitude control plan more rapidly than traditional methods.

Original language	English
Article number	012039
Journal	Journal of Physics: Conference Series
Volume	2095
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/2095/1/012039
Publication status	Published - 22 Nov 2021
Event	2021 5th International Conference on Electrical, Automation and Mechanical Engineering, EAME 2021 - Guangzhou, Virtual, China Duration: 17 Sept 2021 → 18 Sept 2021

Keywords

Maneuver path planning
Second order cone programming
Spacecraft attitude

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10.1088/1742-6596/2095/1/012039

Cite this

Wang, J., & Shang, H. (2021). Constrained Spacecraft Attitude Optimal Control via Successive Convex Optimization. Journal of Physics: Conference Series, 2095(1), Article 012039. https://doi.org/10.1088/1742-6596/2095/1/012039

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abstract = "Rapid attitude path planning is the key technique in autonomous spacecraft operation missions. An efficient method is proposed for energy-optimal spacecraft attitude control in presence of constraints. Firstly, Gauss pseudospectral method is utilized to discretize and transcribe the primal continuous problem to a nonlinear programming problem. Then a set of convexification techniques are used to convexify the nonlinear programming problem to a series of second-order cone programming problems, which can be solved iteratively by the interiorpoint method. A solution to the nonlinear programming problem is obtained as the iteration converges. Numerical results show the method could obtain a valid energy-optimal attitude control plan more rapidly than traditional methods.",

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AU - Shang, Haibin

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N2 - Rapid attitude path planning is the key technique in autonomous spacecraft operation missions. An efficient method is proposed for energy-optimal spacecraft attitude control in presence of constraints. Firstly, Gauss pseudospectral method is utilized to discretize and transcribe the primal continuous problem to a nonlinear programming problem. Then a set of convexification techniques are used to convexify the nonlinear programming problem to a series of second-order cone programming problems, which can be solved iteratively by the interiorpoint method. A solution to the nonlinear programming problem is obtained as the iteration converges. Numerical results show the method could obtain a valid energy-optimal attitude control plan more rapidly than traditional methods.

AB - Rapid attitude path planning is the key technique in autonomous spacecraft operation missions. An efficient method is proposed for energy-optimal spacecraft attitude control in presence of constraints. Firstly, Gauss pseudospectral method is utilized to discretize and transcribe the primal continuous problem to a nonlinear programming problem. Then a set of convexification techniques are used to convexify the nonlinear programming problem to a series of second-order cone programming problems, which can be solved iteratively by the interiorpoint method. A solution to the nonlinear programming problem is obtained as the iteration converges. Numerical results show the method could obtain a valid energy-optimal attitude control plan more rapidly than traditional methods.

KW - Maneuver path planning

KW - Second order cone programming

KW - Spacecraft attitude

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Constrained Spacecraft Attitude Optimal Control via Successive Convex Optimization

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