Preliminary Mission Analysis for the 16U4SBSP Mission Concept

Wail Boumchita*, Jinglang Feng, Carmine Clemente, Massimiliano Vasile, Caterina Busso, M.S. Uludag, S. Speretta, A. Cervone, Matteo Madi

*Corresponding author for this work

Research output: Chapter in Book/Conference proceedings/Edited volumeConference contributionScientific

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Abstract

The 16U4SBSP mission aims to demonstrate Space-Based Solar Power (SBSP) using a CubeSat (CS) swarm from Earth orbit. This mission employs seven 16U CSs to deliver 1 kW-scale wireless energy via Radio-Frequency (RF) beaming, adaptable for space-to-ground and space-to-space applications. The goal is to validate SBSP provision using a satellite swarm and to explore miniaturized technologies for future large-scale missions. A pre-Phase 0 study funded by the European Space Agency (ESA) through the Sysnova campaign has shown encouraging feasibility results. This paper presents a study on the formation flying and orbital dynamics of a CS mission, using a model that includes Earth’s gravitational perturbations, solar radiation pressure (SRP), atmospheric drag, and lunar and solar gravity. The swarm configuration consists of seven CSs, with one at the center and six in a hexagonal arrangement. The Concept of Operations (CONOPS) is divided into three phases: deployment and acquisition, maintenance, and disposal. CSs are deployed at 30-second intervals, followed by a one-day Launch and Early Orbit Phase (LEOP) for subsystem checks. A 1000-meter formation is initially established, then reduced to 100 meters for the first half of the mission and 10 meters for the second half, maintained by a bang-bang limit-cycle controller. A disposal strategy compliant with ESA’s Space Debris Mitigation Requirements is outlined. The analysis characterizes propellant consumption at various altitudes, proposes optimal initial conditions and launch dates, and performs a trade-off analysis, resulting in a detailed mission characterization and baseline definition. The work presented in the paper proves the feasibility of the 16U4SBSP mission, which would supply clean energy from space through wireless power transfer.
Original languageEnglish
Title of host publicationProceedings of the 75th International Astronautical Conference
Number of pages12
Publication statusPublished - 2024
Event75th International Astronautical Congress 2024 - Milan, Italy
Duration: 14 Oct 202418 Oct 2024
Conference number: 75

Conference

Conference75th International Astronautical Congress 2024
Abbreviated titleIAC 2024
Country/TerritoryItaly
CityMilan
Period14/10/2418/10/24

Keywords

  • Space-Based Solar Power
  • Formation flying
  • CubeSat mission
  • Sun-Synchronous Orbit

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