Aerospace (Oct 2022)

Metric for Structural Complexity Assessment of Space Systems Modeled Using the System Modeling Language

  • Victor Emmanuel Pierre Lopez,
  • Lawrence Dale Thomas

DOI
https://doi.org/10.3390/aerospace9100612
Journal volume & issue
Vol. 9, no. 10
p. 612

Abstract

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A complexity metric is proposed for the quantification of system complexity using information about the composition of a system and its interactions depicted in a System Modelling Language (SysML) model. The proposed metric is adapted from the complexity metric developed for design structure matrix (DSM) applications and was modified to allow the metric to be applied at different decomposition levels and to accommodate the inclusion of external interactions. The metric was applied to three case studies: a Mars lander, a CubeSat and a spacecraft thermal control system. The proposed metric attributed a higher amount of complexity due to the interactions compared to the DSM metric. This variance resulted in instances where the results differed for the two metrics. Despite these differences, both metrics behaved similarly to changes in component or interaction complexity.

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