基于寒鸦配对交互行为的无人机集群编队控制

受寒鸦群配对飞行行为机制的启发，提出了一种配对交互模型，并应用于解决无人机（UAV）集群编队控制问题。首先，模仿寒鸦个体间的配对交互，设计配对交互时的邻居选择机制，基于社会力，考虑惯性加速、远距吸引、近距排斥、速度匹配和运动阻尼，分别建立配对个体和未配对个体的运动学微分方程，完成配对交互模型的构建。然后，在无人机模型基础上，设计基于寒鸦配对交互机制的无人机集群编队控制器。最后，通过2组仿真实验研究所提模型应用于无人机集群时的特性。结果表明，寒鸦配对交互模型能保证无人机集群运动的一致性，通过减小无人机交互的平均邻居数量，从而减小无人机集群的通信负载，并且当单向刺激时，配对无人机作为信息无人机时集群有更高的应激精度。 

Unmanned aerial vehicle swarm formation control based on paired interaction mechanism in jackdaws

Inspired by the paired flight mechanism of jackdaws, a paired interactive swarm model is proposed and applied to the Unmanned Aerial Vehicle (UAV) swarm control system. Firstly, by imitating the paired interaction between jackdaw individuals, the neighbor selection mechanism is designed in pairing interaction. Considering inertial acceleration, long-range attraction, close-range repulsion, speed matching and motion damping, the paired and unpaired individual's differential equation of kinematics is established based on the social forces. Then the construction of the paired interaction model is completed. Secondly, based on the UAV control model, a UAV swarm controller in paired interaction mechanism is designed. Finally, two sets of simulation experiments are conducted to study the characteristics of the model proposed when it is used on the UAV swarm. Simulation results show that the paired interaction model can ensure the consistency of the UAV swarm. The communication load of the UAVs can be reduced by less average number of neighbors in UAV interaction. The UAV swarm has higher stimulation accuracy if the paired UAV is taken as the information individual when facing external stimuli.