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A Reachable Set Analysis Method for Generating Near-Optimal Trajectories of Constrained Multiphase Systems

Author

Listed:
  • Christian M. Chilan

    (University of Illinois, 306 Talbot Laboratory, MC-236)

  • Bruce A. Conway

    (University of Illinois, 306 Talbot Laboratory, MC-236)

Abstract

Few sophisticated problems in the optimal control of a dynamical system can be solved analytically. There are many numerical solution methods, but most, especially those with the most potential accuracy, work iteratively and must be initialized with a guess of the solution. Satisfactory guesses may be very difficult to generate. In this work, a “Reachable Set Analysis” (RSA) method is developed to find near-optimal trajectories for multiphase systems with no a priori knowledge. A multiphase system is a generalization of a dynamical system that includes possible changes on the governing equations throughout the trajectory; the traditional dynamical system where the governing equations do not change is included in the formulation as a special case. The RSA method is based on a combination of metaheuristic algorithms and nonlinear programming. A particularly beneficial aspect of the solution found using RSA is that it satisfies the system governing equations and comes arbitrarily close (to a degree chosen by the planner) to satisfying given terminal conditions. Three qualitatively different multiphase problems, such as a low-thrust transfer from Earth to Mars, a system with chattering arcs in the optimal control, and a motion planning problem with obstacles, are solved using the near-optimal trajectories found by RSA as initial guesses to show the effectiveness of the new method.

Suggested Citation

  • Christian M. Chilan & Bruce A. Conway, 2015. "A Reachable Set Analysis Method for Generating Near-Optimal Trajectories of Constrained Multiphase Systems," Journal of Optimization Theory and Applications, Springer, vol. 167(1), pages 161-194, October.
  • Handle: RePEc:spr:joptap:v:167:y:2015:i:1:d:10.1007_s10957-014-0651-2
    DOI: 10.1007/s10957-014-0651-2
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    Cited by:

    1. Jhanani Selvakumar & Efstathios Bakolas, 2018. "Robust Time-Optimal Guidance in a Partially Uncertain Time-Varying Flow-Field," Journal of Optimization Theory and Applications, Springer, vol. 179(1), pages 240-264, October.

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