Slew Control of Prolate Spinners Using Single Magnetorquer

Slew Control of Prolate Spinners Using Single Magnetorquer

E XISTING research [1–5] on the prolate spinning spacecraft attitude maneuver has developed a series of slew algorithms using a single thruster in two categories: half-cone derived algorithms and pulse-train algorithms. Half-cone derived algorithms consist of half-cone (HC), multi-half-cone, dual-...

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Bibliographic Details
Main Authors: Juntian, Si, Yang, Gao, Abadi, Chanik
Format: Article
Language:English
Published: American Institute of Aeronautics and Astronautics 2016
Subjects:
TK Electrical engineering. Electronics Nuclear engineering
Online Access:http://ir.unimas.my/id/eprint/39136/5/Slew%20Control%20-%20Copy.pdf
http://ir.unimas.my/id/eprint/39136/
https://arc.aiaa.org/journal/jgcd
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Institution: Universiti Malaysia Sarawak
Language: English
Description
Summary:E XISTING research [1–5] on the prolate spinning spacecraft attitude maneuver has developed a series of slew algorithms using a single thruster in two categories: half-cone derived algorithms and pulse-train algorithms. Half-cone derived algorithms consist of half-cone (HC), multi-half-cone, dual-half-cone, extended half-cone, sector arc slew, and multisector arc slew, using the precession behavior of a spinning prolate spacecraft. Pulse-train algorithms consist of rhumb line and spin-synch algorithms, which use a train of uniform torque pulses to achieve the attitude maneuver. Pulse-train algorithms can also be used for oblate spacecraft. The existing slew algorithms have been initially developed for specific prolate spacecraft such as penetrators proposed in MoonLITE missions [6]. In the MoonLITE mission, a mothership releases missile-shaped penetrators equipped with thrusters for hard landing on the lunar surface from 100 km altitude. Before impact, a 90 deg spin axis attitude maneuver is required after spinning up the penetrator. The aforementioned slew algorithms can provide low-cost solutions to meet the required 90 deg attitude maneuver and within a small mass budget of the penetrator.

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