Cooperative formation control of multiple aerial vehicles based on guidance route in a complex task environment

In recent years, formation control of multi-agent has been a significant research subject in the field of cooperative control. However, previous works have mainly concentrated on formation control for simple point-mass model and linear model. In contrast, this paper presents a novel cooperative algo...

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Bibliographic Details
Published in:Chinese journal of aeronautics 2020-02, Vol.33 (2), p.701-720
Main Authors: SUN, Guibin, ZHOU, Rui, XU, Kun, WENG, Zhi, ZHANG, Yuhang, DONG, Zhuoning, WANG, Yingxun
Format: Article
Language:English
Subjects:
Complex task environments
Cooperative formation control
Fixed-wing aircraft
Guidance route
Leader-follower structure
Partial integrated formation and control
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Summary:In recent years, formation control of multi-agent has been a significant research subject in the field of cooperative control. However, previous works have mainly concentrated on formation control for simple point-mass model and linear model. In contrast, this paper presents a novel cooperative algorithm for multiple air vehicles formation control, which aims to devise a control strategy based on guidance route to achieve precisely coordinated formation control for a group of fixed-wing aircraft in a complex task environment. The proposed method introduces the leader-follower structure for effective organization of the multi-agent coordination. Moreover, the Partial Integrated Formation and Control (PIFC) is adopted to design the control law for Guidance-Route based Formation Control (GRFC). Additionally, the proposed approach designs two guidance-route generation strategies for two special situations to demonstrate the effectiveness of GRFC in complex task environments. Theoretical analysis reveals that the proposed control protocol for guidance command can ensure the overall stability and tracking accuracy of the system. Numerical simulations are performed to illustrate the theoretical results, and verify that the proposed approach can achieve coordinated formation control precisely in a complex task environment.
ISSN:1000-9361
DOI:10.1016/j.cja.2019.08.009