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Demonstrating set-based design techniques: an unmanned aerial vehicle case study

Author

Listed:
  • Colin Small
  • Gregory S Parnell
  • Ed Pohl
  • Simon R Goerger
  • Matthew Cilli
  • Eric Specking

Abstract

The Engineered Resilient Systems research program seeks to improve decision making in the Analysis of Alternatives process by leveraging model-based engineering (MBE) early in the design process to develop more resilient systems. Traditional tradespace exploration using point-based design often converges quickly to an initial baseline design concept with subsequent engineering changes to modify the design. However, this process can lead to significant cost growth if the initial concept is not able to meet requirements or if the revised design is not affordable. Enabled by MBE, set-based design (SBD) considers sets of all possible design concepts and down-selects design concepts to converge to a final design using insights into design trade-off analysis, modeling and simulation, and test data. Using a notional unmanned aerial vehicle case study with low-fidelity physics-based models and an open source Excel® add-in called SIPmath©, this research implements an integrated MBE trade-off analytics framework that simultaneously generates numerous SBDs using parametric performance and cost models and evaluates the designs in the value and cost tradespace. In addition, this research explores incorporating resilience quantification and uncertainty into SBD trade-off analysis. Future research is needed to validate the use of SBD with low-fidelity models for tradespace exploration in early system design.

Suggested Citation

  • Colin Small & Gregory S Parnell & Ed Pohl & Simon R Goerger & Matthew Cilli & Eric Specking, 2020. "Demonstrating set-based design techniques: an unmanned aerial vehicle case study," The Journal of Defense Modeling and Simulation, , vol. 17(4), pages 339-355, October.
  • Handle: RePEc:sae:joudef:v:17:y:2020:i:4:p:339-355
    DOI: 10.1177/1548512919872822
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    References listed on IDEAS

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    1. Stanley Stafira, Jr. & Gregory S. Parnell & James T. Moore, 1997. "A Methodology for Evaluating Military Systems in a Counterproliferation Role," Management Science, INFORMS, vol. 43(10), pages 1420-1430, October.
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