Optimal Control-Based Dominance Regions for Boundary-Guarding Games with Rotationally-Constrained Autonomous Vehicles

Xinxin Guo; Yucheng Zhang; Guixi Ke; Weisheng Yan; Rongxin Cui

doi:10.1049/cth2.70023

Optimal Control-Based Dominance Regions for Boundary-Guarding Games with Rotationally-Constrained Autonomous Vehicles

Xinxin Guo, Yucheng Zhang, Guixi Ke, Weisheng Yan, Rongxin Cui

School of Marine Science and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

This article solves dominance regions for boundary-guarding games based on optimal control, where autonomous vehicles with rotation constraints serve as defenders to guard the target zone. Based on the definition of transition point, the minimum reach time is explicitly expressed in unbounded and convex domains, respectively. Using the proposed explicit expression of minimum reach time, this article develops a numerical algorithm to generate dominance regions for boundary-guarding games. Finally, simulation results are provided to verify the algorithmic validity to generate dominance regions for rotationally-constrained autonomous vehicles.

Original language	English
Article number	e70023
Journal	IET Control Theory and Applications
Volume	19
Issue number	1
DOIs	https://doi.org/10.1049/cth2.70023
State	Published - 1 Jan 2025

Keywords

differential games
multi-robot systems
optimal control

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10.1049/cth2.70023

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abstract = "This article solves dominance regions for boundary-guarding games based on optimal control, where autonomous vehicles with rotation constraints serve as defenders to guard the target zone. Based on the definition of transition point, the minimum reach time is explicitly expressed in unbounded and convex domains, respectively. Using the proposed explicit expression of minimum reach time, this article develops a numerical algorithm to generate dominance regions for boundary-guarding games. Finally, simulation results are provided to verify the algorithmic validity to generate dominance regions for rotationally-constrained autonomous vehicles.",

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AU - Yan, Weisheng

AU - Cui, Rongxin

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N2 - This article solves dominance regions for boundary-guarding games based on optimal control, where autonomous vehicles with rotation constraints serve as defenders to guard the target zone. Based on the definition of transition point, the minimum reach time is explicitly expressed in unbounded and convex domains, respectively. Using the proposed explicit expression of minimum reach time, this article develops a numerical algorithm to generate dominance regions for boundary-guarding games. Finally, simulation results are provided to verify the algorithmic validity to generate dominance regions for rotationally-constrained autonomous vehicles.

AB - This article solves dominance regions for boundary-guarding games based on optimal control, where autonomous vehicles with rotation constraints serve as defenders to guard the target zone. Based on the definition of transition point, the minimum reach time is explicitly expressed in unbounded and convex domains, respectively. Using the proposed explicit expression of minimum reach time, this article develops a numerical algorithm to generate dominance regions for boundary-guarding games. Finally, simulation results are provided to verify the algorithmic validity to generate dominance regions for rotationally-constrained autonomous vehicles.

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Optimal Control-Based Dominance Regions for Boundary-Guarding Games with Rotationally-Constrained Autonomous Vehicles

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