Manned Aircraft and Unmanned Aerial Vehicle Heterogeneous Formation Flight Control via Heterogeneous Pigeon Flock Consistency

Unmanned Syst. Pub Date : 2021-03-24 DOI:10.1142/S2301385021410053
Mengzhen Huo, H. Duan, Xilun Ding
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引用次数: 4

Abstract

The heterogeneous pigeon flock showed higher leadership stability than the homogeneous flock. In this paper, a control model applied to manned aircraft and Unmanned Aerial Vehicle heterogeneous formation flight is designed. During the smoothing trajectory, the swarm employed the distributed communication network and event-triggered interactive mechanism. During the turning trajectory, the centralized and distributed communication networks were integrated. Simulation tests demonstrated that the proposed control algorithm was feasible to form a cohesive group and effectively avoid obstacles in unknown environment.
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基于异质鸽群一致性的有人飞行器和无人机异质编队飞行控制
异质鸽群比同质鸽群表现出更高的领导稳定性。设计了一种适用于载人飞机和无人机非均匀编队飞行的控制模型。在平滑过程中,群体采用分布式通信网络和事件触发交互机制。在转弯过程中,中心化通信网络与分布式通信网络相结合。仿真实验表明,所提出的控制算法在未知环境下能够有效地形成内聚群体,有效地避开障碍物。
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Unmanned Syst.
Unmanned Syst.
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