Shengde Jia scite author profile

In this paper, we present our recent advances in both theoretical methods and field experiments for the coordinated control of miniature fixed-wing unmanned aerial vehicle (UAV) swarms. We propose a multi-layered group-based architecture, which is modularized, mission-oriented, and can implement large-scale swarms. To accomplish the desired coordinated formation flight, we present a novel distributed coordinated-control scheme comprising a consensus-based circling rendezvous, a coordinated path-following control for the leader UAVs, and a leader-follower coordinated control for the follower UAVs. The current framework embeds a formation pattern reconfiguration technique. Moreover, we discuss two security solutions (inter-UAV collision avoidance and obstacle avoidance) in the swarm flight problem. The effectiveness of the proposed coordinated control methods was demonstrated in field experiments by deploying up to 21 fixed-wing UAVs.

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Mission-Oriented Miniature Fixed-Wing UAV Swarms: A Multilayered and Distributed Architecture

Liu

Wang

Zhao

et al. 2022

IEEE Trans. Syst. Man Cybern, Syst.

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UAV swarms have triggered wide concern due to their potential application values in recent years. While there are studies proposed in terms of the architecture design for UAV swarms, two main challenges still exist: (1) Scalability, supporting a large scale of vehicles; (2) Versatility, integrating diversified missions. To this end, a multi-layered and distributed architecture for mission oriented miniature fixed-wing UAV swarms is presented in this paper. The proposed architecture is built on the concept of modularity. It divides the overall system to five layers: low-level control, high-level control, coordination, communication and human interaction layers, and many modules that can be viewed as black boxes with interfaces of inputs and outputs. In this way, not only the complexity of developing a large system can be reduced, but also the versatility of supporting diversified missions can be ensured. Furthermore, the proposed architecture is fully distributed that each UAV performs the decision-making procedure autonomously so as to achieve better scalability. Moreover, different kinds of aerial platforms can be feasibly extended by using the control allocation matrices and the integrated hardware box. A prototype swarm system based on the proposed architecture is built and the proposed architecture is evaluated through field experiments with a scale of 21 fixed-wing UAVs. Particularly, to the best of our knowledge, this paper is the first work which successfully demonstrates formation flight, target recognition and tracking missions within an integrated architecture for fixed-wing UAV swarms through field experiments.

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Flight Path Planning Based on an Improved Genetic Algorithm

Xie

Zhou

et al. 2013

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Autonomous landing on ground target of UAV by using image-based visual servo control

Zhang

Jia

et al. 2017

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A Continuous-Time Markov Decision Process-Based Method With Application in a Pursuit-Evasion Example

Jia

Wang

2016

IEEE Trans. Syst. Man Cybern, Syst.

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Shengde Jia

Coordinated flight control of miniature fixed-wing UAV swarms: methods and experiments

Mission-Oriented Miniature Fixed-Wing UAV Swarms: A Multilayered and Distributed Architecture

Flight Path Planning Based on an Improved Genetic Algorithm

Autonomous landing on ground target of UAV by using image-based visual servo control

A Continuous-Time Markov Decision Process-Based Method With Application in a Pursuit-Evasion Example

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