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Optimization of Unmanned Air Vehicle Tactical Formation in War Games

Geraldo Mulato de Lima Filho, Andre R. Kuroswiski, Felipe Leonardo Lôbo Medeiros, Mark Voskuijl, Herman Monsuur, Angelo Pássaro

2022IEEE Access26 citationsDOIOpen Access PDF

Abstract

War game simulations are decision-making tools that may provide quantitative data about the scenario analyzed by stakeholders. They are widely used to develop tactics and doctrines in the military context. Recently, unmanned air vehicles (UAVs) have become a relevant element in these simulations because of their prominent role in contemporary conflicts, surveillance missions, and search and rescue missions. For instance, it is possible to admit aircraft losses from a tactical formation in favor of the victory of a squadron in a given combat scenario. The optimization of the position of UAVs in beyond visual range (BVR) combat has attracted attention in the literature, considering that the distribution of UAVs can be a determining factor in this scenario. This work aims to optimize UAV tactical formations considering enemy uncertainties such as firing distance and position using six metaheuristics and a high-fidelity simulator. A tactical formation often employed by air forces called line abreast was chosen for the RED swarm for a case study. The objective of the optimization is to obtain a tactical formation of the BLUE swarm that wins the BVR combat against the RED swarm. A procedure to confirm the robustness of the optimization is employed, varying the position of each UAV of the RED swarm up to 8 km from its initial configuration and using the war game approach. A tactical analysis is performed to confirm whether the formations found in the optimization are applicable.

Topics & Concepts

Swarm behaviourRobustness (evolution)Computer scienceContext (archaeology)AdversaryAmmunitionPosition (finance)MetaheuristicFidelityParticle swarm optimizationOperations researchAerospace engineeringEngineeringArtificial intelligenceComputer securityTelecommunicationsBiologyPaleontologyHistoryArchaeologyMachine learningFinanceChemistryGeneEconomicsBiochemistryGuidance and Control SystemsMilitary Defense Systems AnalysisRobotic Path Planning Algorithms