Paper Info
Title
Energy optimal attitude control for a solar-powered spacecraft
Abstract
In this article we aim to maximize the net energy a solar-powered spacecraft gains when performing a maneuver. The net energy can be defined as the integral of the power supplied by the solar panels minus the power used by the attitude control system, and is important since energy is a scarce resource in space. Previous research on optimal attitude control has focused on optimization with respect to other costs, such as time-optimal control and optimal attitude control with respect to the integral of the square of the input. The energy flow depends on both the power spent on actuation and the power received from the solar panels. Thus, the optimal attitude control problem should be formulated in such a way that the attitude of the spacecraft relative to the Sun during the maneuver is included in the calculations. This paper proposes a cost function based on net power to address this problem, introducing a new cost function that incorporates the incoming energy from the solar irradiance and the outgoing energy due to actuation. A simulation study comparing an optimal control solution of the proposed net power cost function using IPOPT in CasADi is presented for a 6U CubeSat equipped with solar cell arrays, where the net power based optimal control maneuver is shown to compare favorably to a sun-pointing PD controller.
Year
DOI
Venue
2021
10.1016/j.ejcon.2021.06.021
European Journal of Control
Keywords
DocType
Volume
Attitude control,Energy optimal control,Optimization,Aerospace control
Journal
62
ISSN
Citations 
PageRank 
0947-3580
0
0.34
References 
Authors
0
3
Name
Order
Citations
PageRank
Bjørn Andreas Kristiansen100.34
Jan Tommy Gravdahl232743.60
Tor A. Johansen31008148.90