Цифрові двійники в задачах автономної ройової навігації дронів під управлінням штучного інтелекту

Цифрові двійники в задачах автономної ройової навігації дронів під управлінням штучного інтелекту

The article presents the concept and architecture of digital twins (DT) in the tasks of autonomous swarm navigation for unmanned aerial vehicles (UAVs) controlled by artificial intelligence. Study demonstrated that the effective operation of a drone swarm under conditions of disrupted or absent comm...

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Bibliographic Details
Date:2025
Main Authors: Zgurovsky, Michael, Pankratova, Nataliya, Golinko, Igor, Grishyn, Kostiantyn
Format: Article
Language:English
Published: The National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute" 2025
Subjects:
цифровий двійник
ройовий інтелект
автономна навігація
безпілотні літальні апарати
платформа штучного інтелекту
децентралізоване управління
імітаційне моделювання
метод локалізації та картографування (SLAM)
поведінкові дерева
РЕБ
Online Access:http://journal.iasa.kpi.ua/article/view/342991
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Journal Title:System research and information technologies

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System research and information technologies
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Summary:The article presents the concept and architecture of digital twins (DT) in the tasks of autonomous swarm navigation for unmanned aerial vehicles (UAVs) controlled by artificial intelligence. Study demonstrated that the effective operation of a drone swarm under conditions of disrupted or absent communication with the ground center is enabled by the functional distribution of DT components between the ground center and onboard levels of AI agents. Mathematical models of ground center’s DT provide strategic modeling, training, mission simulation, and post-mission analysis, while onboard AI agents focus on local adaptation, diagnostics, environmental reconstruction, and cognitive behavior control. Special attention is paid to the interface module of the DT, which provides asynchronous interaction with the ground infrastructure. A functional division on the swarm-level, environment, mission, telemetry, and agent-level DTs is proposed. The effectiveness of the “Learn–Simulate–Deploy–Adapt” cycle for continuous improvement of swarm systems in the context of electronic warfare (EW) and dynamic operational environments was justified. The results were partially supported by the National Research Foundation of Ukraine, grant No. 2025.06/0022 “AI platform with cognitive services for coordinated autonomous navigation of distributed systems consisting of a large number of objects”.

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