Game-Theoretic Decision-Making and Payoff Design for UAV Collision Avoidance in a Three-Dimensional Airspace

Author:

Deniz Meryem1ORCID,Zhao Lu1,Wan Yan1ORCID,Lewis Frank L.2

Affiliation:

1. Electrical Engineering Department, University of Texas at Arlington, Arlington, TX 76010, USA

2. University of Texas at Arlington Research Institute, Fort Worth, TX 76118, USA

Abstract

Safety and efficiency are primary goals of air traffic management. With the integration of unmanned aerial vehicles (UAVs) into the airspace, UAV traffic management (UTM) has attracted significant interest in the research community to maintain the capacity of three-dimensional (3D) airspace, provide information, and avoid collisions. We propose a new decision-making architecture for UAVs to avoid collision by formulating the problem into a multi-agent game in a 3D airspace. In the proposed game-theoretic approach, the Ego UAV plays a repeated two-player normal-form game, and the payoff functions are designed to capture both the safety and efficiency of feasible actions. An optimal decision in the form of Nash equilibrium (NE) is obtained. Simulation studies are conducted to demonstrate the performance of the proposed game-theoretic collision avoidance approach in several representative multi-UAV scenarios.

Funder

Army Research Office

NSF

Publisher

World Scientific Pub Co Pte Ltd

Subject

Control and Optimization,Aerospace Engineering,Automotive Engineering,Control and Systems Engineering

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