Nanosatellite constellation deployment using on-board magnetic torquer interaction with space plasma |
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Authors: | Ji Hyun Park Shinji Matsuzawa Takaya Inamori In-Seuck Jeung |
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Institution: | 1. Department of Mechanical and Aerospace Engineering, Seoul National University, Seoul 08826, Republic of Korea;2. Department of Aerospace Engineering, Nagoya University, Aichi 464-8603, Japan;3. Institute of Advanced Aerospace Technology, Seoul National University, Seoul 08826, Republic of Korea |
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Abstract: | One of the advantages that drive nanosatellite development is the potential of multi-point observation through constellation operation. However, constellation deployment of nanosatellites has been a challenge, as thruster operations for orbit maneuver were limited due to mass, volume, and power. Recently, a de-orbiting mechanism using magnetic torquer interaction with space plasma has been introduced, so-called plasma drag. As no additional hardware nor propellant is required, plasma drag has the potential in being used as constellation deployment method. In this research, a novel constellation deployment method using plasma drag is proposed. Orbit decay rate of the satellites in a constellation is controlled using plasma drag in order to achieve a desired phase angle and phase angle rate. A simplified 1D problem is formulated for an elementary analysis of the constellation deployment time. Numerical simulations are further performed for analytical analysis assessment and sensitivity analysis. Analytical analysis and numerical simulation results both agree that the constellation deployment time is proportional to the inverse square root of magnetic moment, the square root of desired phase angle and the square root of satellite mass. CubeSats ranging from 1 to 3?U (1–3?kg nanosatellites) are examined in order to investigate the feasibility of plasma drag constellation on nanosatellite systems. The feasibility analysis results show that plasma drag constellation is feasible on CubeSats, which open up the possibility of CubeSat constellation missions. |
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Keywords: | Nanosatellite Constellation Deployment Magnetic torquer Plasma drag |
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