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Fixed-wing unmanned aerial vehicle cluster affine formation control method based on pilot following mode

A control method and unmanned aerial vehicle technology, applied in three-dimensional position/course control, non-electric variable control, control/adjustment system, etc., can solve the lack of fixed-wing unmanned aerial vehicle cluster formation control method, lack of flexibility, inapplicability Fixed-wing UAV cluster formation control and other issues, to achieve the effect of convenient application, good applicability, and easy adjustment of parameters

Pending Publication Date: 2021-12-03
NAT UNIV OF DEFENSE TECH
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Problems solved by technology

[0006] 1. The traditional multi-agent formation control method is not suitable for formation control of fixed-wing UAV swarms. At present, there is a lack of formation control methods specific to fixed-wing UAV swarms, especially in complex environments, large numbers of UAVs, In the case of diverse mission requirements, there is a lack of swarm control methods for fixed-wing UAVs with high flexibility and good performance;
[0007] 2. The affine formation control method, as a novel multi-agent cluster formation control strategy with application potential, can adapt to various terrain environments and target tasks, but the affine formation control method in the prior art cannot be directly applied In the control of fixed-wing UAV swarms

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  • Fixed-wing unmanned aerial vehicle cluster affine formation control method based on pilot following mode
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  • Fixed-wing unmanned aerial vehicle cluster affine formation control method based on pilot following mode

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Embodiment Construction

[0081] The present invention will be further described below in conjunction with the accompanying drawings and specific preferred embodiments, but the protection scope of the present invention is not limited thereby.

[0082] like figure 1 , 2 As shown, the steps of the fixed-wing unmanned aerial vehicle cluster affine formation control method based on the pilot following mode in this embodiment include:

[0083] S1. Construction of the affine hierarchical control framework: Based on the leader-follower model, determine the leader and follower in the fixed-wing UAV formation, and determine the configuration of the nominal formation and the communication topology of the cluster according to the mission requirements, and according to the communication Topology calculates the stress matrix of the nominal formation;

[0084] S2. Navigator formation generation: obtain the flight status of the leader in the fixed-wing UAV formation in real time, control the leader to move along th...

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Abstract

The invention discloses a fixed-wing unmanned aerial vehicle cluster affine formation control method based on a pilot following mode, and the method comprises the steps: S1, determining a pilot and a follower in a fixed-wing unmanned aerial vehicle formation based on a pilot follower mode, determining the configuration of a nominal formation and a communication topological structure of a cluster, and calculating a stress matrix of the nominal formation; S2, acquiring flight states of pilots in the fixed-wing unmanned aerial vehicle formation in real time, controlling the pilots to move along an expected flight track, and controlling the pilots to cooperate with each other to generate an expected formation; and S3, using a formation tracking control law based on a stress matrix to control followers in the fixed-wing unmanned aerial vehicle formation to track the motion trail of the navigator, and meanwhile, controlling the followers to adjust the relative position relationship between the respective unmanned aerial vehicles under the action of cooperative control to realize generation and affine transformation of a target formation. The method has the advantages of high flexibility, high environmental adaptability, high control performance and the like.

Description

technical field [0001] The present invention relates to the technical field of UAV swarm control, in particular to a fixed-wing UAV swarm affine formation control method based on a pilot-following mode. Background technique [0002] Formation flying is of great significance in practical applications. On the one hand, it can reduce the energy consumption of fixed-wing UAVs and increase the range; on the other hand, it can also enhance the collaboration and fault tolerance of the cluster and improve the completion rate of target tasks. Fixed-wing UAV is an ideal platform for air formation, and its formation flight control method has become a current research hotspot. [0003] There are many multi-agent formation control methods in the prior art, but each has its own advantages and disadvantages. For example, the leader-follower method is currently the most widely used formation control method, which has good scalability, but is less robust and fault-tolerant. Poor; the physic...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D1/10
CPCG05D1/104
Inventor 王祥科李慧铭陈浩丛一睿张梦鸽
Owner NAT UNIV OF DEFENSE TECH
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