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Robust Policies for a Multiple-Pursuer Single-Evader Differential Game

Author

Listed:
  • Alexander Moll

    (Air Force Research Laboratory)

  • Meir Pachter

    (Air Force Institute of Technology)

  • Eloy Garcia

    (Air Force Research Laboratory)

  • David Casbeer

    (Air Force Research Laboratory)

  • Dejan Milutinović

    (University of California Santa Cruz)

Abstract

Analysis of the pursuit–evasion differential game consisting of multiple pursuers and single evader with simple motion is difficult due to the well-known curse of dimensionality. Policies have been proposed for this scenario, and we show that these policies are global Stackelberg equilibrium strategies. However, we also show that they are not saddle-point equilibria in the feedback sense. The argument is twofold: cases where the saddle-point condition is violated and cases where the strategy profiles are not time consistent (subgame perfect). The issue of capturability is explored, and sufficient conditions for guaranteed capture are provided. A new pursuit policy is proposed which guarantees capture while also providing an upper bound for capture time. The evader policy corresponding to the global Stackelberg equilibrium is shown to provide a lower bound for capture time. Thus, these policies are robust from the pursuer and evader perspectives, respectively, should they implement them. Several other interesting pursuit and evasion policies are explored and compared with the robust policies in a series of experiments.

Suggested Citation

  • Alexander Moll & Meir Pachter & Eloy Garcia & David Casbeer & Dejan Milutinović, 2020. "Robust Policies for a Multiple-Pursuer Single-Evader Differential Game," Dynamic Games and Applications, Springer, vol. 10(1), pages 202-221, March.
    • Handle: RePEc:spr:dyngam:v:10:y:2020:i:1:d:10.1007_s13235-019-00313-3
    DOI: 10.1007/s13235-019-00313-3
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    References listed on IDEAS

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    1. Sergey S. Kumkov & Stéphane Ménec & Valerii S. Patsko, 2017. "Zero-Sum Pursuit-Evasion Differential Games with Many Objects: Survey of Publications," Dynamic Games and Applications, Springer, vol. 7(4), pages 609-633, December.
    2. Sergey S. Kumkov & Stéphane Ménec & Valerii S. Patsko, 2017. "Erratum to: Zero-Sum Pursuit-Evasion Differential Games with Many Objects: Survey of Publications," Dynamic Games and Applications, Springer, vol. 7(4), pages 634-634, December.
    3. S. J. Rubio, 2006. "On Coincidence of Feedback Nash Equilibria and Stackelberg Equilibria in Economic Applications of Differential Games," Journal of Optimization Theory and Applications, Springer, vol. 128(1), pages 203-220, January.
    4. Adriano Festa & Richard B. Vinter, 2016. "Decomposition of Differential Games with Multiple Targets," Journal of Optimization Theory and Applications, Springer, vol. 169(3), pages 848-875, June.
    5. Dockner,Engelbert J. & Jorgensen,Steffen & Long,Ngo Van & Sorger,Gerhard, 2000. "Differential Games in Economics and Management Science," Cambridge Books, Cambridge University Press, number 9780521637329.
    6. M. Falcone, 2006. "Numerical Methods For Differential Games Based On Partial Differential Equations," International Game Theory Review (IGTR), World Scientific Publishing Co. Pte. Ltd., vol. 8(02), pages 231-272.
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