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Error Bounds for Discrete-Continuous Free Flight Trajectory Optimization

Author

Listed:
  • Ralf Borndörfer

    (Zuse Institute Berlin)

  • Fabian Danecker

    (Zuse Institute Berlin)

  • Martin Weiser

    (Zuse Institute Berlin)

Abstract

Two-stage methods addressing continuous shortest path problems start local minimization from discrete shortest paths in a spatial graph. The convergence of such hybrid methods to global minimizers hinges on the discretization error induced by restricting the discrete global optimization to the graph, with corresponding implications on choosing an appropriate graph density. A prime example is flight planning, i.e., the computation of optimal routes in view of flight time and fuel consumption under given weather conditions. Highly efficient discrete shortest path algorithms exist and can be used directly for computing starting points for locally convergent optimal control methods. We derive a priori and localized error bounds for the flight time of discrete paths relative to the optimal continuous trajectory, in terms of the graph density and the given wind field. These bounds allow designing graphs with an optimal local connectivity structure. The properties of the bounds are illustrated on a set of benchmark problems. It turns out that localization improves the error bound by four orders of magnitude, but still leaves ample opportunities for tighter error bounds by a posteriori estimators.

Suggested Citation

  • Ralf Borndörfer & Fabian Danecker & Martin Weiser, 2023. "Error Bounds for Discrete-Continuous Free Flight Trajectory Optimization," Journal of Optimization Theory and Applications, Springer, vol. 198(2), pages 830-856, August.
    • Handle: RePEc:spr:joptap:v:198:y:2023:i:2:d:10.1007_s10957-023-02264-7
    DOI: 10.1007/s10957-023-02264-7
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    References listed on IDEAS

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    1. Adam Schienle, 2018. "Solving the Time-Dependent Shortest Path Problem Using Super-Optimal Wind," Operations Research Proceedings, in: Natalia Kliewer & Jan Fabian Ehmke & Ralf Borndörfer (ed.), Operations Research Proceedings 2017, pages 3-9, Springer.
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