Control System Synthesis Based on Optimal Trajectories Approximation by Symbolic Regression for Group of Robots

The paper considers the solution of the problem of optimal control system synthesis. It is proposed to solve this problem based on the approximation of the set of optimal trajectories using symbolic regression methods. At the first step the optimal control problem is solved for various initial states; at the second step symbolic regression method is used to approximate the obtained set of optimal trajectories. In the suggested approach the proximity of the solution to the optimal one is determined by the accuracy of the approximation. A computational experiment of solving the applied problem of optimal control system synthesis for a group of car-like mobile robots in space with dynamic and static phase constraints is presented. The experiment showed that the found synthesized control function allows to move robots by the trajectory close to the optimal one for any initial state from a given domain. © 2020 IEEE.

Publisher
Institute of Electrical and Electronics Engineers Inc.
Language
English
Pages
19-24
Status
Published
Number
9263915
Year
2020
Organizations
  • 1 Rudn University, Federal Research Center Computer Science and Control, Russian Academy of Sciences, Moscow, Russian Federation
Keywords
Optimal control systems; Regression analysis; Robots; Trajectories; Car-like mobile robots; Computational experiment; Control functions; Initial state; Optimal control problem; Optimal trajectories; Problem-based; Symbolic regression; Control system synthesis
Date of creation
20.04.2021
Date of change
20.05.2021
Short link
https://repository.rudn.ru/en/records/article/record/71793/
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