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Probabilistic Value-Centric Optimization Design for Fractionated Spacecrafts Based on Unscented Transformation

Author

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  • Ming Xu
  • Jinlong Wang
  • Ang Zhang
  • Shengli Liu

Abstract

Fractionated spacecrafts are of particular interest for pointing-intensive missions because of their ability to decouple physically the satellite bus and some imaging payloads, which possess a lesser lifecycle cost than a comparable monolithic spacecraft. Considering the probabilistic uncertainties during the mission lifecycle, the cost assessment or architecture optimization is essentially a stochastic problem. Thus, this research seeks to quantitatively assess different spacecraft architecture strategies for remote-sensing missions. A dynamical lifecycle simulation and parametric models are developed to evaluate the lifecycle costs, while the mass, propellant usage, and some other constraints on spacecraft are assessed using nonparametric, physics-based computer models. Compared with the traditional Monte Carlo simulation to produce uncertain distributions during the lifecycle, the unscented transformation is employed to reduce the computational overhead, just as it does in improving the extended Kalman filter. Furthermore, the genetic algorithm is applied to optimize the fractionated architecture based on the probabilistic value-centric assessments developed in this paper.

Suggested Citation

  • Ming Xu & Jinlong Wang & Ang Zhang & Shengli Liu, 2013. "Probabilistic Value-Centric Optimization Design for Fractionated Spacecrafts Based on Unscented Transformation," Mathematical Problems in Engineering, Hindawi, vol. 2013, pages 1-10, May.
  • Handle: RePEc:hin:jnlmpe:132920
    DOI: 10.1155/2013/132920
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