Intention recognition of UAV swarm with data-driven methods

Q3 Earth and Planetary Sciences

Aerospace Systems Pub Date : 2023-07-05 DOI:10.1007/s42401-023-00238-1

Zhichao Wang, Jiayun Chen, Jiaju Wang, Qiang Shen

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引用次数: 0

Abstract

UAVs have been increasingly used in military and commercial applications. The theory of UAV swarm behavir has gradually matured and moved to the real application stage. Fast and accurate recognition of the intentions of UAV swarms become a key part of dealing with coming swarms. This paper proposes a data-driven approach to realize the recognition of the typical intentions of UAV swarm. The UAV swarm’s intention is divided into three basic categories: expansion, free movement, and contraction. The dubins model is introduced to depict and study the dynamic characteristics of the movement of the UAV swarm. Simulation experiments are performed through software to collect data and to verify and refine the proposed data-driven intention recognition approach. Moreover, real flight experiments are conducted to test the feasibility and accuracy of the proposed approach, from which key steps about the neural network building and training for intention recognition have been summarized, and satisfying results in intention recognition with high accuracy and stability during the entire movement of the UAV swarm have been achieved.

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基于数据驱动的无人机群意图识别

无人机已经越来越多地用于军事和商业应用。无人机群体行为理论逐渐成熟，并进入了实际应用阶段。快速、准确地识别无人机蜂群的意图，成为应对即将到来的蜂群的关键。提出了一种数据驱动的方法来实现对无人机群典型意图的识别。无人机群的意图分为三种基本类型:扩张、自由移动和收缩。引入dubins模型来描述和研究无人机群的动态运动特性。通过软件进行仿真实验来收集数据，并验证和完善所提出的数据驱动的意图识别方法。并通过实际飞行实验验证了该方法的可行性和准确性，总结了意图识别神经网络构建和训练的关键步骤，取得了令人满意的意图识别效果，在无人机群的整个运动过程中具有较高的准确性和稳定性。

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来源期刊

Aerospace Systems Social Sciences-Social Sciences (miscellaneous)

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： Aerospace Systems provides an international, peer-reviewed forum which focuses on system-level research and development regarding aeronautics and astronautics. The journal emphasizes the unique role and increasing importance of informatics on aerospace. It fills a gap in current publishing coverage from outer space vehicles to atmospheric vehicles by highlighting interdisciplinary science, technology and engineering. Potential topics include, but are not limited to: Trans-space vehicle systems design and integration Air vehicle systems Space vehicle systems Near-space vehicle systems Aerospace robotics and unmanned system Communication, navigation and surveillance Aerodynamics and aircraft design Dynamics and control Aerospace propulsion Avionics system Opto-electronic system Air traffic management Earth observation Deep space exploration Bionic micro-aircraft/spacecraft Intelligent sensing and Information fusion